SI20110A - Methods and compositions for modulating responsiveness to corticosteroids - Google Patents

Methods and compositions for modulating responsiveness to corticosteroids Download PDF

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SI20110A
SI20110A SI9820032A SI9820032A SI20110A SI 20110 A SI20110 A SI 20110A SI 9820032 A SI9820032 A SI 9820032A SI 9820032 A SI9820032 A SI 9820032A SI 20110 A SI20110 A SI 20110A
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Les Sekut
Adam Carter
Tariq Ghayur
Subhashis Banerjee
Daniel E. Tracey
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Basf Aktiengesellschaft
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Abstract

Method for modulating responsiveness to corticosteroids in a subjet are provided. In the method of the invention, an agent which antagonizes a target that regulates production of IFN-'gamma' in the subject is administered to the subject in combination with a corticosteroid such that responsiveness of the subject to the corticosteroid is modulated as compared to when a corticosteroid alone is administered to the subject. In one embodiment, the agent is an IL-18 antagonist. In another embodiment, the agent is an interleukin-12 (IL-12) antagonist. In yet another embodiment, the agent is an NK cell antagonist. In a preferred embodiment, the agent is an inhibitor of a caspase family protease, preferably an ICE inhibitor. In another preferred embodiment, the agent is an anti-IL-12 monoclonal antibody. In yet another preferred embodiment, the agent is an anti-asialo-GM1 antibody or an NK1.1 antibody. Other preferred agents include phosphodiesterase IV inhibitors and beta-2 agonists. The methods of the invention can be used in the treatment of a variety of inflammatory and immunological diseases and disorders. Pharmaceutical compositions comprising an agent which antagonizes a target that regulates production of IFN-'gamma' in a subject, a corticosteroid and a pharmaceutically acceptable carrier are also provided. A preferred composition comprises an ICE inhibitor, a corticosteroid and a pharmaceutically acceptable carrier.

Description

BASF AktiengesellschaftBASF Aktiengesellschaft

Metode in sestavki za moduliranje odzivnosti na kortikosteroideMethods and compositions for modulating corticosteroid responsiveness

Standardna terapija za številne imunske in vnetne motnje vključuje dajanje kortikosteroidov, ki imajo sposobnost, da zatirajo imunološke in vnetne odzive. Kortikosteroidi se uporabljajo pri zdravljenju motenj, kot so npr. astma, avtoimunske bolezni (npr. revmatoidni artritis, sistemski lupus erythematosus) in zavračanje transplantatov (pregled kortikosteroidov je razviden npr iz.: Truhan A.P. et a/(1989) Annals of Allergy 62375-391; Baxter J.D. (1992) Hospital Practice 27: 111-134; Kimberly R.P. (1992) Curr. Opin Rheumatol. 4:325-331; Weisman M.H. (1995) Curr. Opin. Rheumatol. 7:183-190). Kortikosteroidi se uporabljajo tudi lokalno pri zdravljenju različnih dermatoloških motenj, kot so npr. kontaktni dermatitis, luskavica, lihen planus, keloidi in urtikarija pigmentoza (pregled razviden iz: Sterry W. (1992) Arch. Dermatol. Res. 284 (dopol.):S27-S29).Standard therapy for many immune and inflammatory disorders involves the administration of corticosteroids that have the ability to suppress immune and inflammatory responses. Corticosteroids are used in the treatment of disorders such as. asthma, autoimmune diseases (eg rheumatoid arthritis, systemic lupus erythematosus) and transplant rejection (corticosteroid screening can be seen, for example, in: Truhan AP et a / (1989) Annals of Allergy 62375-391; Baxter JD (1992) Hospital Practice 27: 111-134; Kimberly RP (1992) Curr. Opin Rheumatol. 4: 325-331; Weisman MH (1995) Curr. Opin. Rheumatol. 7: 183-190). Corticosteroids are also used topically in the treatment of various dermatological disorders, such as. contact dermatitis, psoriasis, lichen planus, keloids, and urticaria pigmentosis (reviewed in: Sterry W. (1992) Arch. Dermatol. Res. 284 (suppl.): S27-S29).

Čeprav je uporaba kortikosteroidov terapevtsko koristna, pa je povezana s številnimi stranskimi učinki, ki obsegajo od srednje nevarnih do možnih smrtno nevarnih učinkov. Zapleti, povezani s podaljšano uporabo in/ali uporabo visokih doz steroidov, vključujejo muskuloskeletne učinke (npr. osteoporoza, miopatija, aseptična nekroza kosti), oftalmične učinke (npr. posteriome subkapsulame katarakte), gastrointestinalne učinke (npr. ulkusi, pankreatitis, navzeja, povračanje), kardiovaskularne učinke (npr. hipertenzija, ateroskleroza), učinke’ centralnega živčnega sistema (npr. pseudotumor cerebri, psihiatrične reakcije), dermatološke učinke (npr. hirsutizem, redistribucija podkožne maščobe, poslabšano zdravljenje poškodb, tanjšanje kože) in zatiranje hipotalamus-pituitame-adrenalne osi (npr. Truhan A.P. et al (1989) Annals of Allergy 62:375-391). Za mnoge stranske učinke pri uporabi kortikosteroidov se zdi, da so odvisni od doze (Kimberly R.P. (1992) Curr. Opin. Rheumatol. 4: 325-331).Although the use of corticosteroids is therapeutically beneficial, it is associated with a number of side effects ranging from medium to potential life-threatening effects. Complications associated with prolonged use and / or use of high doses of steroids include musculoskeletal effects (eg osteoporosis, myopathy, aseptic bone necrosis), ophthalmic effects (eg posterior subcapsular cataracts), gastrointestinal effects (eg ulcers, pancreatitis, pancreatitis, pancreatitis) vomiting), cardiovascular effects (eg hypertension, atherosclerosis), effects of the central nervous system (eg pseudotumor cerebri, psychiatric reactions), dermatological effects (eg hirsutism, redistribution of subcutaneous fat, impaired skin healing, thinning of the skin, thinning of the skin, thinning pituitame-adrenal axes (e.g., Truhan AP et al (1989) Annals of Allergy 62: 375-391). Many of the side effects of corticosteroid use appear to be dose dependent (Kimberly R.P. (1992) Curr. Opin. Rheumatol. 4: 325-331).

Zato bi bile zelo zaželene metode in sestavki, ki bi omogočali uporabo nižjih učinkovitih doz kortikosteroidov (imenovano kot steroidni varčevalni učinek), da bi se izognili neželenim stranskim učinkom.Therefore, methods and compositions that would allow the use of lower effective doses of corticosteroids (referred to as a steroid sparing effect) to avoid undesirable side effects would be highly desirable.

Druga težava, ki omejuje uporabnost kortikosteroidov, je fenomen steroidne odpornosti. Nekatere vnetne ali imunološke bolezni kažejo neodzivnost na zdravljenje s steroidi. Poskusi, da bi uporabili kortikosteroidno terapijo npr. za zdravljenje septičnega šoka pri ljudeh, so privedli do nezadovoljivih rezultatov, tako da se kortikosteroidi na splošno ne priporočajo kot dodatna terapija pri resni sepsi ali septičnemu šoku (razvidno npr. iz: Putterman C. (1989) Israel J. Med. Sci. 25:332338; Bone, R.C. in Brown R.C. (1990) v Vincent J.L. (itd.) Update in Intensive Čare andEmergency Medicine 10” Heidelberg:Springer Verlag, str. 121). Druge motnje, ki pogosto kažejo odpornost proti zdravljenju s kortikosteroidi, vključujejo vnetno črevesno bolezen (npr. Hibi T. el «/.(1995) J. Gastroenterol. 30:121-123) in bolezen presadek-proti-gostitelj (Antin J.H. et al. (1994) Blood 84:1342-1348; Racadot E. et al. (1995) Bone Marrow Transplantation 15:669-677). Tako so še vedno potrebne metode in sestavki, ki bi jih lahko uporabili, da bi premagali ali obrnili kortikosteroidno odpornost pri vnetnih in imunoloških motnjah.Another problem limiting the usefulness of corticosteroids is the phenomenon of steroid resistance. Some inflammatory or immunological diseases show an unresponsiveness to steroid treatment. Attempts to use corticosteroid therapy e.g. for the treatment of septic shock in humans have led to unsatisfactory results, so corticosteroids are generally not recommended as adjunctive therapy for severe sepsis or septic shock (as seen, for example: Putterman C. (1989) Israel J. Med. Sci. 25 : 332338; Bone, RC and Brown RC (1990) in Vincent JL (etc.) Update in Intensive Charms and Emergency Medicine 10 ”Heidelberg: Springer Verlag, p. 121). Other disorders that often show resistance to corticosteroid treatment include inflammatory bowel disease (e.g. Hibi T. el «/.(1995) J. Gastroenterol. 30: 121-123) and graft-versus-host disease (Antin JH et. al. (1994) Blood 84: 1342-1348; Racadot E. et al. (1995) Bone Marrow Transplantation 15: 669-677). Thus, methods and compositions that could be used to overcome or reverse corticosteroid resistance in inflammatory and immunological disorders are still needed.

Nadaljnja pomanjkljivost kortikosteroidne terapije je, da se pojavi vindikatomi učinek steroidov, kadar se prekine dajanje kortikosteroida. Vindikatomi učinek steroidov je označen s poslabšanjem vnetnega stanja (stanj), ki se zdravi (zdravijo), po prenehanju steroidne terapije. Metode in sestavki, ki bi jih lahko uporabili, da bi izboljšali vindikatomi učinek steroidov, so še vedno potrebni.A further disadvantage of corticosteroid therapy is that the vindicutomy effect of steroids occurs when corticosteroid administration is interrupted. The syndicomic effect of steroids is indicated by the worsening of the inflammatory state (s) being treated (cured) after discontinuation of steroid therapy. Methods and compositions that could be used to improve the syndromic effect of steroids are still needed.

Predloženi izum zagotavlja metode in sestavke za moduliranje odzivnosti na kortikosteroide v subjektu. Metode in sestavke v smislu izuma lahko npr. uporabimo, da obrnemo steroidno odpornost v subjektu in tako Ie-temu dopustimo zdravljenje s kortikosteroidi. Metode in sestavke v smislu izuma lahko prav tako uporabimo, da povečamo steroidno občutljivost v subjektu in s tem dosežemo terapevtsko učinkovitost kortikosteroidnega zdravljenja pri nižjih dozah (npr., da se izognemo škodljivim stranskim učinkom visokih doz kortikosteroidov ali da dopustimo zdravljenje bolezni, odvisnih od steroidov, z nižjimi dozami).The present invention provides methods and compositions for modulating corticosteroid responsiveness in a subject. The methods and compositions of the invention may e.g. used to reverse steroid resistance in the subject and thereby allow Ie to be treated with corticosteroids. The methods and compositions of the invention can also be used to increase steroid sensitivity in a subject, thereby achieving the therapeutic efficacy of corticosteroid treatment at lower doses (e.g., to avoid the harmful side effects of high doses of corticosteroids or to allow the treatment of steroid-dependent diseases , with lower doses).

Še nadalje lahko uporabimo metode in sestavke v smislu izuma, da izboljšamo vindikatomi učinek steroidov, kadar subjektu, ki je izpostavljen zdravljenju s kortikosteroidi, odvzamemo kortikosteroide.The methods and compositions of the invention can further be used to improve the vindicative effect of steroids when corticosteroids are deprived of a subject exposed to corticosteroid treatment.

V modulacijskih metodah v smislu izuma damo subjektu sredstvo, ki antagonizira tarčo, ki regulira proizvajanje IFN-γ v subjektu, v kombinaciji s kortikosteroidom, tako da je odzivnost subjekta na kortikosteroid modulirana, v primerjavi s tem, ko damo subjektu samo kortikosteroid. Tarča, ki se antagonizira, je lahko npr. citokin ali encim, ki regulira proizvajanje IFN-γ, ali celica, ki regulira proizvajanje IFN-γ. Sredstvo damo v dozi in na način, ki zadostujeta, da se inhibira proizvajanje IFN-γ v subjektu.In the modulation methods of the invention, the subject is administered an agent that antagonizes the target that regulates IFN-γ production in the subject, in combination with a corticosteroid, such that the subject's responsiveness to the corticosteroid is modulated as compared to the subject's corticosteroid alone. The target to be antagonized may be e.g. a cytokine or enzyme that regulates IFN-γ production, or a cell that regulates IFN-γ production. The agent is administered at a dose and in a manner sufficient to inhibit IFN-γ production in the subject.

V različnih izvedbah damo sredstvo in kortikosteroid istočasno, sredstvo damo najprej in šele nato kortikosteroid ali damo najprej kortikosteroid in nato sredstvo. Metode lahko uporabimo pri profilaktičnih in terapevtskih režimih kortikosteroidnega zdravljenja.In various embodiments, the agent and corticosteroid are administered simultaneously, the agent is administered first and only then the corticosteroid, or the corticosteroid is administered first and then the agent. The methods can be used for prophylactic and therapeutic regimens of corticosteroid treatment.

V eni izvedbi metoda vključuje dajanje sredstva, ki je IL-18 antagonist. IL-18 antagonist damo v dozi in na način, ki zadostujeta, da se inhibira aktivnost IL-18 v subjektu. IL-18 antagonist lahko npr. deluje v stopnji IL-18 sinteze, IL-18 citokinske aktivnosti ali IL-18 interakcije z IL-18 receptorjem. V prednostni izvedbi je IL-18 antagonist inhibitor proteaz kaspazne družine, prednostno inhibitor interlevkin-ΐβ pretvorbenega encima (ICE). V drugi izvedbi je IL-18 antagonist protitelo, protitelesih fragment ali konstruiran vezavni protein, ki veže na IL-18 ali IL-18 receptor.In one embodiment, the method involves administering an agent that is an IL-18 antagonist. The IL-18 antagonist is administered at a dose and in a manner sufficient to inhibit the activity of IL-18 in the subject. The IL-18 antagonist may e.g. acts in the stage of IL-18 synthesis, IL-18 cytokine activity or IL-18 interaction with the IL-18 receptor. In a preferred embodiment, the IL-18 antagonist is a caspase family protease inhibitor, preferably an interleukin--β conversion enzyme (ICE) inhibitor. In another embodiment, the IL-18 antagonist is an antibody, antibody fragment, or engineered binding protein that binds to the IL-18 or IL-18 receptor.

V drugi izvedbi metoda vključuje dajanje sredstva, ki je interlevkin-12 (IL-12) antagonist. IL-12 antagonist damo v dozi in na način, ki zadostujeta, da se inhibira IL12 aktivnost v subjektu. IL-12 antagonist lahko npr. deluje v stopnji IL-12 sinteze, IL12 citokinske aktivnosti ali IL-12 interakcije z IL-12 receptorjem. V prednostni izvedbi je IL-12 antagonist protitelo, protitelesni fragment ali konstruiran vezavni protein, ki veže na IL-12 ali IL-12 receptor. V drugi prednostni izvedbi je IL-12 antagonist sredstvo, ki stimulira proizvajanje ciklične AMP (cAMP) v celicah, ki proizvajajo IL-12. Primeri sredstev, ki jih lahko uporabimo, da stimuliramo cAMP, vključujejo fosfodiesterazne IV inhibitorje in beta-2 agoniste. V še nadaljnji izvedbi je IL-12 antagonist STAT4 inhibitor.In another embodiment, the method involves administering an agent that is an interleukin-12 (IL-12) antagonist. The IL-12 antagonist is administered at a dose and in a manner sufficient to inhibit IL12 activity in the subject. The IL-12 antagonist may e.g. acts in the stage of IL-12 synthesis, IL12 cytokine activity or IL-12 interaction with the IL-12 receptor. In a preferred embodiment, the IL-12 antagonist is an antibody, antibody fragment, or engineered binding protein that binds to the IL-12 or IL-12 receptor. In another preferred embodiment, the IL-12 antagonist is an agent that stimulates the production of cyclic AMP (cAMP) in IL-12-producing cells. Examples of agents that can be used to stimulate cAMP include phosphodiesterase IV inhibitors and beta-2 agonists. In another embodiment, the IL-12 antagonist is a STAT4 inhibitor.

V še nadaljnji izvedbi metoda vključuje dajanje sredstva, ki osiromaši ali eliminira NK-celice in NK podobne celice (imenovano tukaj kot NK-celični antagonist) iz subjekta. NK-celični antagonist damo v dozi in na način, ki zadostujeta, da se inhibira proizvajanje IFN-γ v subjektu. Prednostni NK-celični antagonisti so protitelesa, specifična za NK-/NK podobne celice, ki osiromašijo te celice in vivo. Primeri prednostnih protiteles za uporabo kot NK-celični antagonisti so protitelesa anti-asialoGM1 in protitelesa NK1.1.In a further embodiment, the method involves administering an agent that depletes or eliminates NK cells and NK-like cells (referred to herein as an NK cell antagonist) from a subject. The NK cell antagonist is administered at a dose and in a manner sufficient to inhibit IFN-γ production in the subject. Preferred NK cell antagonists are antibodies specific for NK- / NK-like cells that deplete these cells in vivo. Examples of preferred antibodies for use as NK cell antagonists are anti-asialoGM1 antibodies and NK1.1 antibodies.

Nadaljnji vidik predloženega izuma se nanaša na metodo za moduliranje odzivnosti na kortikosteroide v subjektu, kjer damo subjektu inhibitor proteaze kaspazne družine, prednostno ICE, skupaj s kortikosteroidom, tako da je modulirana odzivnost subjekta na kortikosteroid, v primerjavi s tem, ko damo subjektu samo kortikosteroid.A further aspect of the present invention relates to a method for modulating corticosteroid responsiveness in a subject where a caspase family protease inhibitor is administered to the subject, preferably ICE, together with a corticosteroid, such that the subject's response to a corticosteroid is modulated compared to giving the subject a corticosteroid alone .

Še nadaljnji vidik predloženega izuma se nanaša na metodo za moduliranje odzivnosti na kortikosteroide v subjektu, kjer damo IL-12 antagonist subjektu skupaj s kortikosteroidom, tako da je odzivnost subjekta na kortikosteroid modulirana, v primerjavi s tem, ko damo subjektu samo kortikosteroid. Še z nadaljnjega vidika se izum nanaša na metodo za moduliranje odzivnosti na kortikosteroide v subjektu, kjer damo subjektu NK-celični antagonist (npr. anti-NK-/NK podobno celično protitelo) skupaj s kortikosteroidom, tako daje odzivnost subjekta na kortikosteroid modulirana, v primerjavi s tem, ko damo subjektu samo kortikosteroid.A further aspect of the present invention relates to a method for modulating corticosteroid responsiveness in a subject, wherein the IL-12 antagonist is administered to the subject together with a corticosteroid, such that the subject's responsiveness to the corticosteroid is modulated compared to giving the subject a corticosteroid alone. Still further, the invention relates to a method for modulating corticosteroid responsiveness in a subject, wherein the subject is administered an NK cell antagonist (e.g., anti-NK- / NK-like cellular antibody) together with a corticosteroid, such that the subject's response to the corticosteroid is modulated, in when compared to giving a subject a corticosteroid alone.

Še iz nadljnjega vidika se izum nanaša na metodo za moduliranje odzivnosti na kortikosteroide v subjektu, kjer izberemo subjekt, ki potrebuje modulacijo odzivnosti na kortikosteroid, in mu damo sredstvo, ki antagonizira tarčo, ki regulira proizvajanje IFN-γ v subjektu, tako da je odzivnost subjekta na kortikosteroid modulirana, v primerjavi s tem, ko subjektu damo samo kortikosteroid. Sredstvo damo subjektu v dozi in na način, ki zadostuje, da inhibira proizvajanje IFN-γ v subjektu. Subjekt, ki ga izberemo, je npr. lahko tisti, ki je steroidno odporen pred zdravljenjem, subjekt, ki se odziva na steroide in pri katerem je treba povečati steroidno občutljivost, ali subjekt, kateremu je treba odvzeti steroide in ameliorirati vindikatomi učinek steroidov.From a further point of view, the invention relates to a method for modulating corticosteroid responsiveness in a subject, wherein a subject in need of modulating corticosteroid responsiveness is selected and provided with a target antagonizing agent that regulates IFN-γ production in the subject such that the response is subject to a corticosteroid modulated, compared to giving the subject a corticosteroid alone. The agent is administered to the subject at a dose and in a manner sufficient to inhibit IFN-γ production in the subject. The entity we select is e.g. may be one who is steroid resistant to treatment, an entity that responds to steroids and in which steroid sensitivity is to be increased, or an entity that is required to withdraw steroids and ameliorate the viral effects of steroids.

Predloženi izum zagotavlja tudi farmacevtske sestavke za moduliranje odzivnosti na kortikosteroide v subjektu. V eni izvedbi obsega sestavek v smislu izuma sredstvo, ki antagonizira tarčo, ki regulira proizvajanje IFN-γ v subjektu, kortikosteroid in farmacevtsko sprejemljivi nosilec. V drugi izvedbi obsega sestavek v smislu izuma IL18 antagonist (kot npr. inhibitor proteaze kaspazne družine, prednostno ICE inhibitor ali anti-IL-18 ali anti-IL-18 receptorsko monoklonsko protitelo), kortikosteroid in farmacevtsko sprejemljiv nosilec. V še nadaljnji izvedbi obsega sestavek v smislu izuma IL-12 antagonist (npr. anti-IL-12 ali anti-IL-12 receptorsko monoklonsko protitelo, fosfodiesterazni IV inhibitor, beta-2 agonist, STAT4 inhibitor), kortikosteroid in farmacevtsko sprejemljiv nosilec. V še nadaljnji izvedbi obsega sestavek v smislu izuma NK-celični antagonist (npr. anti-NK-/NK podobno celično protitelo) kortikosteroid in farmacevtsko sprejemljiv nosilec. Farmacevtske sestavke v smislu izuma lahko formuliramo za dajanje na prednosten način dajanja, ki doseže želeni terapevtski učinek. V eni prednostni izvedbi formuliramo farmacevtski sestavek za lokalno dajanje. V drugi prednostni izvedbi formuliramo farmacevtski sestavek za dajanje z inhalacijo. Drugi prednostni načini dajanja vključujejo oralno in intravenozno dajanje.The present invention also provides pharmaceutical compositions for modulating corticosteroid responsiveness in a subject. In one embodiment, the composition of the invention comprises a target antagonizing agent that regulates the production of IFN-γ in a subject, a corticosteroid and a pharmaceutically acceptable carrier. In another embodiment, the composition of the invention comprises an IL18 antagonist (such as a caspase family protease inhibitor, preferably an ICE inhibitor or anti-IL-18 or anti-IL-18 receptor monoclonal antibody), a corticosteroid, and a pharmaceutically acceptable carrier. In a further embodiment, the composition of the invention comprises an IL-12 antagonist (e.g., anti-IL-12 or anti-IL-12 receptor monoclonal antibody, phosphodiesterase IV inhibitor, beta-2 agonist, STAT4 inhibitor), a corticosteroid, and a pharmaceutically acceptable carrier. In a further embodiment, the composition of the invention comprises an NK cell antagonist (e.g., anti-NK- / NK-like cellular antibody) a corticosteroid and a pharmaceutically acceptable carrier. The pharmaceutical compositions of the invention can be formulated for administration in a preferred mode of administration that achieves the desired therapeutic effect. In one preferred embodiment, a pharmaceutical composition for topical administration is formulated. In another preferred embodiment, the pharmaceutical composition is formulated for administration by inhalation. Other preferred routes of administration include oral and intravenous administration.

Metode in sestavke v smislu izuma lahko uporabimo pri zdravljenju katerekoli bolezni ali motnje, pri kateri je želeno, da moduliramo steroidno odzivnost. V prednostnih izvedbah uporabimo metode in sestavke v smislu izuma za zdravljenje subjekta, ki trpi zaradi septičnega šoka. V drugi izvedbi uporabimo metode in sestavke v smislu izuma za zdravljenje subjekta, ki trpi zaradi Crohnove bolezni. V drugi izvedbi uporabimo metode in sestavke za zdravljenje subjekta, ki trpi zaradi astme. V drugi izvedbi uporabimo metode in sestavke za zdravljenje subjekta, ki trpi zaradi avtoimunske bolezni ali motnje. V drugi izvedbi uporabimo metode in sestavke za zdravljenje subjekta, ki trpi zaradi bolezni presadek-proti-gostitelj ali zavračanja transplantatov. V še drugi izvedbi uporabimo metode in sestavke za zdravljenje subjekta, ki trpi zaradi akutne vnetne motnje. V še drugi izvedbi uporabimo metode in sestavke za zdravljenje subjekta, ki trpi zaradi kronične vnetne motnje.The methods and compositions of the invention may be used in the treatment of any disease or disorder in which it is desired to modulate steroid responsiveness. In preferred embodiments, the methods and compositions of the invention are used to treat a subject suffering from septic shock. In another embodiment, the methods and compositions of the invention are used to treat a subject suffering from Crohn's disease. In another embodiment, methods and compositions are used to treat a subject suffering from asthma. In another embodiment, methods and compositions are used to treat a subject suffering from an autoimmune disease or disorder. In another embodiment, methods and compositions are used to treat a subject suffering from a graft-versus-host disease or transplant rejection. In yet another embodiment, methods and compositions are used to treat a subject suffering from an acute inflammatory disorder. In another embodiment, methods and compositions are used to treat a subject suffering from chronic inflammatory disorder.

Kratek opis slikShort description of the pictures

Sl. 1 je stolpni diagram, ki prikazuje nivoje serumskega TNFa (v ng/ml) v miših divjega tipa in ICE deficientnih (ICE KO) miših, obdelanih samo z vehiklom ali deksametazonom (4 mg/kg) 30 minut po LPS v LPS/P. acw&s-modelu septičnega šoka, iz katere je razvidno, da ICE deficientni miši, ne pa miši divjega tipa, kažejo zatiranje proizvajanja TNFa in so tako steroidno odzivne.FIG. 1 is a bar chart showing serum TNFα levels (in ng / ml) in wild-type and ICE-deficient (ICE KO) mice treated with vehicle or dexamethasone alone (4 mg / kg) 30 minutes after LPS in LPS / P. acw & s-septic shock model, which shows that ICE-deficient mice, but not wild-type mice, exhibit suppression of TNFα production and are thus steroidally responsive.

Sl. 2 je stolpni diagram, ki prikazuje ravni serumskega TNFa (v ng/ml) v miših divjega tipa (stolpi s pikcami) in ICE deficientnih miših (stolpi s poševnimi črtami), predobdelanih samo z vehiklom ali padajočimi količinami deksametazona (0,05, 0,005 ali 0,0005 mg/kg) v LPS/P. ac«es-modelu septičnega šoka, iz katere je razvidno, da ICE-deficientne miši ohranijo steroidno odzivnost na padajoče steroidne doze v primerjavi z mišmi divjega tipa.FIG. 2 is a bar chart showing serum TNFα levels (in ng / ml) in wild-type mice (dotted columns) and ICE-deficient mice (dashed lines) pretreated with solvent alone or decreasing amounts of dexamethasone (0.05, 0.005 or 0.0005 mg / kg) in LPS / P. ac «es model of septic shock, which shows that ICE-deficient mice retain steroid responsiveness to falling steroid doses compared with wild-type mice.

Sl. 3 je stolpni diagram, ki prikazuje z LPS inducirani serumski IL-12 (v pg/ml) v miših B6, predobdelanih samo z vehiklom ali s fosfodiesteraznim IV inhibitorjem rolipramom, iz katere je razvidno, da obdelovanje s fosfodiesteraznim IV inhibitorjem inhibira proizvajanje IL-12.FIG. 3 is a bar chart showing LPS-induced serum IL-12 (in pg / ml) in B6 mice pretreated with solvent or phosphodiesterase IV inhibitor rolipram alone, showing that phosphodiesterase IV inhibitor treatment inhibits IL- 12.

Sl. 4 je stolpni diagram, ki prikazuje ravni serumskega TNFa (v ng/ml) v miših B6, obdelanih samo z vehiklom (fiziološka raztopina soli) ali ICE inhibitorjem (AcYVAD-CHO) v kombinaciji z deksametazonsko obdelavo v LPS/P. acnev-modelu septičnega šoka.FIG. 4 is a bar chart showing serum TNFα levels (in ng / ml) in B6 mice treated with solvent alone (saline) or ICE inhibitor (AcYVAD-CHO) in combination with dexamethasone treatment in LPS / P. acnev-septic shock model.

Sl. 5 je stolpni diagram, ki prikazuje ravni serumskega IL-6 (v ng/ml) v miših B6, obdelanih samo z vehiklom (fiziološka raztopina soli) ali ICE inhibitorjem (AcYVAD-CHO) v kombinaciji z deksametazonsko obdelavo v LPS/P. ac«čj-modelu septičnega šoka.FIG. 5 is a bar chart showing serum IL-6 levels (in ng / ml) in B6 mice treated with solvent alone (saline) or ICE inhibitor (AcYVAD-CHO) in combination with dexamethasone treatment in LPS / P. ac «cj-model of septic shock.

Sl. 6 je stolpni diagram, ki prikazuje ravni serumskega IL-1 β (v ng/ml) v miših B6, obdelanih samo z vehiklom (fiziološka raztopina soli) ali ICE inhibitorjem (AcYVAD-CHO) v kombinaciji z deksametazonsko obdelavo, v LPS/P. acnes-modelu septičnega šoka.FIG. 6 is a bar chart showing serum IL-1 β levels (in ng / ml) in vehicle-treated B6 (saline) or ICE inhibitor (AcYVAD-CHO) combined with dexamethasone treatment in LPS / P . acnes model of septic shock.

Predloženi izum je osnovan vsaj delno na odkritju, da so ICE deficientne miši, v primerjavi s kontrolnimi mišmi divjega tipa odzivne na kortikosteroide po LPS-izzivu v modelu septičnega šoka (Primer 1). Poleg tega kažejo ICE deficientne miši povečano občutljivost za nizke doze kortikosteroidov, v primerjavi s kontrolnimi mišmi divjega tipa, kadar uporabimo kortikosteroidno zdravljenje pred LPS-izzivom v modelu septičnega šoka (Primer 2). Predloženi izum je nadalje osnovan vsaj delno na odkritju, da osiromašenje NK-/NK podobnih celic v LPS-izzvanih miših divjega tipa vodi do v bistvu zmanjšanega proizvajanja IFN-γ (v primerjavi s kontrolnimi neobdelanimi mišmi) in da v bistvu poveča stopnjo preživetja (Primer 10).The present invention is based, at least in part, on the discovery that ICE-deficient mice are corticosteroid responsive to LPS-challenged mice compared to wild-type control mice (Example 1). In addition, ICE-deficient mice exhibit increased sensitivity to low doses of corticosteroids compared with wild-type control mice when corticosteroid treatment prior to the LPS challenge is used in a septic shock model (Example 2). The present invention is further based, at least in part, on the discovery that depletion of NK- / NK-like cells in wild-type LPS-induced mice results in substantially reduced IFN-γ production (compared to control untreated mice) and substantially increases survival ( Example 10).

Pred tem je že bilo opisano, da lahko dajanje interferona-γ (IFN-γ) premaga kortikosteroidno zatiranje biosinteze TNFa z murinimi makrofagi (Leudke, C.E. in Cerami, A. (1990) J. Ciin. Invest 86:1234-1240). Poleg tega lahko ICE in druge proteaze kaspazne družine cepijo prekurzorsko obliko IL-18 v njegovo zrelo aktivno obliko (Primer 4). Čeprav ni namen omejevanje z mehanizmom pa v smislu predloženega izuma smatramo, da je sposobnost podeljevanja kortikosteroidne odzivnosti z inhibiranjem ICE-aktivnosti v subjektu rezultat inhibiranja IL-18, predelanega z ICE, tako daje proizvajanje zrelega IL-18 inhibirano, ki tako vodi do zmanjšanega proizvajanja IFN-γ v subjektu. Poleg tega IL-18 v povezavi z IL-12 stimulira NK-/NK podobne celice, da izdelujejo več IFN-γ. Tako za NK/NK-podobne celice smatramo, da tvorijo pozitivno povratno zanko pri proizvajanju IFN-γ, ki je degradivno moduliran z osiromašenim ali eliminacijo NK-/NK podobnih celic.It has been previously described that administration of interferon-γ (IFN-γ) can overcome corticosteroid suppression of TNFα biosynthesis by murine macrophages (Leudke, C.E. and Cerami, A. (1990) J. Ciin. Invest 86: 1234-1240). In addition, ICE and other proteases of the caspase family can cleave the precursor form of IL-18 to its mature active form (Example 4). Although not intended to be limiting by the mechanism of the present invention, it is believed that the ability to confer corticosteroid responsiveness by inhibiting ICE activity in a subject is a result of inhibiting IL-18 processed by ICE, thus producing the production of mature IL-18 inhibited, thereby leading to reduced of IFN-γ production in the subject. In addition, IL-18, in conjunction with IL-12, stimulates NK- / NK-like cells to produce more IFN-γ. Thus, NK / NK-like cells are considered to form a positive feedback loop in the production of IFN-γ, which is degradatively modulated by depletion or elimination of NK- / NK-like cells.

Glede na prej omenjeno predloženi izum splošno zagotavlja metode in sestavke za moduliranje odzivnosti na kortikosteroide, pri katerih se tarča, ki regulira proizvajanje IFN-γ, antagonizira v subjektu. Ta tarča, ki regulira proizvajanje IFN-γ in ki se antagonizirana, je lahko IL-18 (ki se lahko antagonizira npr. indirektno z inhibiranjem aktivnosti ICE ali direktno z uporabo anti-IL-18 protitelesa). Alternativno se lahko antagonizira drugi faktor, ki regulira proizvajanje IFN-γ, kot npr. IL-12, da tako modulira kortikosteroidno odzivnost v subjektu. Še nadalje pa lahko uporabimo sredstvo, ki osiromaši ali eliminira NK-/NK podobne celice, da tako inhibira proizvajanje IFN-γ, da moduliramo kortikosteroidno odzivnost v subjektu.In the light of the foregoing, the present invention generally provides methods and compositions for modulating corticosteroid responsiveness, wherein the target that regulates IFN-γ production is antagonized in the subject. This target, which regulates IFN-γ production and which is antagonized, may be IL-18 (which can be antagonized, for example, indirectly by inhibiting ICE activity or directly by using anti-IL-18 antibody). Alternatively, another factor can be antagonized that regulates IFN-γ production, such as e.g. IL-12 to thus modulate corticosteroid responsiveness in the subject. Further, an agent that depletes or eliminates NK- / NK-like cells can be used to inhibit IFN-γ production to modulate corticosteroid responsiveness in the subject.

Zaradi bolj jasnega razumevanja predloženega izuma najprej pojasnjujemo številne izraze.In order to better understand the present invention, we first explain a number of terms.

Kot uporabljamo tukaj, se izraz kortikosteroid nanaša na razred terapevtskih sredstev, uporabnih pri zdravljenju vnetnih stanj, vključno tistih, ki so posledica infekcij, zavračanje transplantatov in avtoimunskih motenj. Kortikosteroidi vključujejo tiste, ki so naravni, sintetični ali polsintetični po svojem izvoru in so označeni s prisotnostjo steroidnega jedra iz štirih spojenih obročev, npr. kot je ugotovljeno v strukturah holesterola, dihidroksiholesterola, stigmasterola in lanosterola. Kortikosteroidna zdravila vključujejo: kortizon, kortizol, hidrokortizon (11317-dihidroksi-21-(fosfonooksi)-pregn-4-en-3,20-dion dinatrij), dihidroksikortizon, deksametazon (21 -(acetiloksi)-9-fluoro-11 β, 17-dihidroksi-16ametilpregna-l,4-dien-3,20-dion) in visoko derivatizirana steroidna zdravila, kot npr. bekonaz (beklometazon dipropionat, ki je 9-kloro-l 1β, 17,21-trihidroksi-16pmetilpregna-l,4-dien-3,20-dion-17,21-dipropionat). Drugi primeri kortikosteroidov vključujejo flunizolid, prednizon, prednizolon, metilprednizolon, triamcinolon, deflazakort in betametazon.As used herein, the term corticosteroid refers to a class of therapeutic agents useful in treating inflammatory conditions, including those resulting from infections, transplant rejection, and autoimmune disorders. Corticosteroids include those that are natural, synthetic or semi-synthetic in origin and are indicated by the presence of a steroid core from four fused rings, e.g. as found in the structures of cholesterol, dihydroxycholesterol, stigmasterol and lanosterol. Corticosteroid medications include: cortisone, cortisol, hydrocortisone (11317-dihydroxy-21- (phosphonooxy) -pregn-4-ene-3,20-dione disodium), dihydroxycortisone, dexamethasone (21 - (acetyloxy) -9-fluoro-11 β , 17-dihydroxy-16amethylpregna-1,4-diene-3,20-dione) and highly derivatized steroid drugs such as e.g. beconase (beclomethasone dipropionate, which is 9-chloro-1 1β, 17,21-trihydroxy-16pmethylpregna-1,4-diene-3,20-dione-17,21-dipropionate). Other examples of corticosteroids include flunizide, prednisone, prednisolone, methylprednisolone, triamcinolone, deflazortort and betamethasone.

Izraz tarča, ki regulira proizvajanje IFN-γ, je namenjen, da vključuje kemijske faktorje (npr. citokine, encime ipd.) in celice, ki direktno ali indirektno kontrolirajo sintezo IFN-γ v subjektu. Primeri za faktorje, ki regulirajo proizvajanje IFN-γ, vključujejo IL-18 (npr. Okamura, H. et al. (1995) Nature 378:88-91; Ushio, S. et al. (1996) J. Immunol. 156:4274-4279) in interlevkin-12 (IL-12) (glej npr. Schoenhaut, D. et al. (1992) J. Immunol. 148:3433; PCT-objava WO 90/05147; evropska patentna prijava EP 433 827 A2). Primeri za celice, ki regulirajo proizvajanje IFN-γ, vključujejo NK- in NK podobne celice.The term target that regulates IFN-γ production is intended to include chemical factors (e.g., cytokines, enzymes, etc.) and cells that directly or indirectly control IFN-γ synthesis in a subject. Examples of factors that regulate IFN-γ production include IL-18 (e.g., Okamura, H. et al. (1995) Nature 378: 88-91; Ushio, S. et al. (1996) J. Immunol. 156 : 4274-4279) and interleukin-12 (IL-12) (see, e.g., Schoenhaut, D. et al. (1992) J. Immunol. 148: 3433; PCT Publication WO 90/05147; European Patent Application EP 433 827 A2). Examples of cells that regulate IFN-γ production include NK- and NK-like cells.

Kot uporabljamo tukaj, so sredstva, ki antagonizirajo faktor, namenjena, da vključujejo sredstva, ki inhibirajo aktivnost faktorja, in sredstva, ki degradivno regulirajo (tj. inhibirajo) sintezo ali proizvajanja faktorja.As used herein, factor antagonizing agents are intended to include agents that inhibit factor activity and agents that degrade (i.e. inhibit) the synthesis or production of the factor.

Izraz IL-18 se nanaša na citokin, ki ima aminokislinsko sekvenco, kot jo prikazujejo: Okamura H. et al. (1995) Nature 378:88-91 (miš) ali Ushio S. et al. (1996) J. Immunol. 156:4274-4279 (človek), in druge njegove sesalČje homologe. Citokin IL18 je v tehniki imenovan tudi interferon γ inducimi faktor (IGIF) in IL-Ιγ.The term IL-18 refers to a cytokine having an amino acid sequence as shown by: Okamura H. et al. (1995) Nature 378: 88-91 (mouse) or Ushio S. et al. (1996) J. Immunol. 156: 4274-4279 (human), and other mammalian homologs thereof. The cytokine IL18 is also referred to as interferon γ inducer factor (IGIF) and IL-Ιγ in the art.

Izraz IL-18 antagonist je namenjen, da vključuje sredstva, ki inhibirajo sintezo ali proizvajanje IL-18, sredstva, ki inhibirajo aktivnost IL-18, potem ko je sintetiziran, sredstva, ki inhibirajo interakcijo IL-18 z IL-18 receptorjem in sredstva, ki inhibirajo aktivnost IL-18 receptorja. Primeri IL-18 antagonistov vključujejo inhibitorje proteaz kaspazne družine (npr. ICE inhibitorje) in protitelesa, protitelesne fragmente in konstruirane vezavne proteine, ki vežejo bodisi na IL-18 ali IL-18 receptor.The term IL-18 antagonist is intended to include agents that inhibit the synthesis or production of IL-18, agents that inhibit IL-18 activity after being synthesized, agents that inhibit the interaction of IL-18 with the IL-18 receptor, and agents that inhibit IL-18 receptor activity. Examples of IL-18 antagonists include caspase family protease inhibitors (e.g., ICE inhibitors) and antibodies, antibody fragments, and engineered binding proteins that bind to either the IL-18 or IL-18 receptor.

Izraz interlevkin-12 (IL-12) se nanaša na citokin, ki ima aminokislinsko sekvenco, kot jo prikazujejo: Schoenhaut, D. et al. (1992) J. Immunol. 148:3433, PCT objavaThe term interleukin-12 (IL-12) refers to a cytokine having an amino acid sequence as shown by: Schoenhaut, D. et al. (1992) J. Immunol. 148: 3433, PCT Publication

WO 90/05147, in evropska patentna prijava EP 433 827 A2, in njegove druge sesalčje homologe.WO 90/05147, and European Patent Application EP 433 827 A2, and other mammalian homologs thereof.

Izraz IL-12 antagonist je namenjen, da vključuje: sredstva, ki inhibirajo sintezo ali proizvajanje IL-12, sredstva, ki inhibirajo aktivnost IL-12, potem ko je sintetiziran, sredstva, ki inhibirajo interakcijo IL-12 z IL-12 receptorjem in sredstva, ki inhibirajo aktivnost IL-12 receptorja. Primeri IL-12 antagonistov vključujejo protitelesa, protitelesne fragmente in konstruirane vezavne proteine, ki vežejo bodisi na IL-12 ali IL-12 receptor, sredstva, ki stimulirajo intracelulamo proizvajanje cAMP v celicah, ki proizvajajo IL-12 (kot npr. inhibitorji fosfodiesteraze IV ali beta-2 agonisti) in sredstva, ki inhibirajo STAT4.The term IL-12 antagonist is intended to include: agents that inhibit the synthesis or production of IL-12, agents that inhibit IL-12 activity after being synthesized, agents that inhibit the interaction of IL-12 with the IL-12 receptor, and agents that inhibit IL-12 receptor activity. Examples of IL-12 antagonists include antibodies, antibody fragments, and engineered binding proteins that bind to either the IL-12 or IL-12 receptor, agents that stimulate intracellular cAMP production in IL-12-producing cells (such as phosphodiesterase IV inhibitors or beta-2 agonists) and STAT4 inhibiting agents.

Izraz proteaza kaspazne družine je namenjen, da vključuje člane kaspaznih proteaz, kot jih opisujejo: Alnemri, E. et al. (1996) Celi 87:171, vključno kaspaza-1 (ICE), kaspaza-2 (ICH-1), kaspaza-3 (CPP32, Yama, apopain), kaspaza-4 (TX, ICH-2, ICErei-II), kaspaza-5 (ICErei-III, TY), kaspaza-6 (Mch2), kaspaza-7 (Mch3, ICE-LAP3, CMH-1), kaspaza-8 (MACH, FLICE, Mch5), kaspaza-9 (ICE-LAP6, Mch6) m kaspaza-10 (Mch4). Nadalje je izraz proteaza kaspazne družine namenjen, da vključuje katerikoli protein, ki deli identičnost aminokislinske sekvence, večjo od 20 %, z ICE v aktivnih domenah proteaz (tj. aktivne domene p 10 in p20 podenot ICE), vsebuje peptidno sekvenco glutamin-alanin-cistein-X-glicin (QACXG), kjer je cistein (C) katalitični aktivni cisteinski ostanek in X pomeni katerokoli amino kislino, in vsebuje sekvenco serin-histidin-glicin (SHG), nameščeno N-terminalno glede na QACXG motiv, v katerem je histidin (H) katalitično esencialni histidinski ostanek. Proteaze kaspazne družine značilno kažejo močno preferenco za hidrolizo peptidnih vezi neposredno po kisli amino kislini (tj. asparaginska ali glutaminska kislina).The term protease of the caspase family is intended to include members of caspase proteases as described by: Alnemri, E. et al. (1996) Whole 87: 171, including caspase-1 (ICE), caspase-2 (ICH-1), caspase-3 (CPP32, Yama, apopain), caspase-4 (TX, ICH-2, ICE re i- II), caspase-5 (ICE re i-III, TY), caspase-6 (Mch2), caspase-7 (Mch3, ICE-LAP3, CMH-1), caspase-8 (MACH, FLICE, Mch5), caspase -9 (ICE-LAP6, Mch6) m caspase-10 (Mch4). Furthermore, the term protease of the caspase family is intended to include any protein that shares an amino acid sequence identity greater than 20% with ICE in the protease active domains (i.e., the active domains of p 10 and p20 subunits of ICE), containing the peptide sequence of glutamine-alanine- cysteine-X-glycine (QACXG), wherein the cysteine (C) is a catalytic active cysteine residue and X represents any amino acid, and contains a sequence of serine-histidine-glycine (SHG) positioned N-terminal with respect to the QACXG motif in which the histidine (H) catalytically essential histidine residue. The caspase family proteases typically show a strong preference for hydrolysis of peptide bonds directly by the acidic amino acid (i.e. aspartic or glutamic acid).

Proteaze kaspazne družine so znane pri ljudeh in drugih organizmih, vključno miših in Caenorhabditis elegans. Primeri za proteaze kaspazne družine vključujejo npr.: Ich-1 (Wang, L. et al. (1994) Celi 78:739-750); ICH-2 (Kamens, J. et al. (1995) J. Biol. Chem. 270:15250-15256); Mch2 (Femandes-Alnemri, T. et al. (1995) Cancer Res. 55:2737-2742); CPP32 (Femandes-Alnemri, T. et al. (1994) J. Biol. Chem.The proteases of the caspase family are known in humans and other organisms, including mice and Caenorhabditis elegans. Examples of caspase family proteases include, for example: Ich-1 (Wang, L. et al. (1994) Whole 78: 739-750); ICH-2 (Kamens, J. et al. (1995) J. Biol. Chem. 270: 15250-15256); Mch2 (Femandes-Alnemri, T. et al. (1995) Cancer Res. 55: 2737-2742); CPP32 (Femandes-Alnemri, T. et al., 1994) J. Biol. Chem.

269:30761-30764); Yama/CPP32p (Tewari, M. et al. (1995) Celi 8L801-809); produkt mišjega gena Nedd2 (Kumar, S. et al. (1992) Biochem. Biophys. Res. Commun. 185:1155-1161; Kumar, S. et al. (1994) Genes Dev. 8:1613-1626); produkt C. elegans gena, ced-3 (Yuan, J. et al. (1993) Celi 75:641-652); humani protein TX (Faucheu, C., et al., (1995) EMBO J. 14:1914-1922); ICErelII in ICEreiIII (Munday, N.A. et al. (1995)7 Biol. Chem. 270:15870-15876).269: 30761-30764); Yama / CPP32p (Tewari, M. et al. (1995) Whole 8L801-809); product of the mouse Nedd2 gene (Kumar, S. et al. (1992) Biochem. Biophys. Res. Commun. 185: 1155-1161; Kumar, S. et al. (1994) Genes Dev. 8: 1613-1626); the product of the C. elegans gene, ced-3 (Yuan, J. et al. (1993) Celi 75: 641-652); human TX protein (Faucheu, C., et al., (1995) EMBO J. 14: 1914-1922); ICE rel II and ICE re iIII (Munday, NA et al. (1995) 7 Biol. Chem. 270: 15870-15876).

Izraz interlevkin- 1β pretvorbeni encim (ICE) je namenjen, da se nanaša na proteazo, ki ima aminokislinsko sekvenco, kot jo opisujejo: Cerretti D.P. et al. (1992) Science 256:97-100 (Človek) ali Nett, M.A. et al. (1992) J. Immunol. 149:3254-3259 (miš) in njene druge sesalčje homologe.The term interleukin-1β conversion enzyme (ICE) is intended to refer to a protease having an amino acid sequence as described by: Cerretti D.P. et al. (1992) Science 256: 97-100 (Human) or Nett, M.A. et al. (1992) J. Immunol. 149: 3254-3259 (mouse) and its other mammalian homologs.

Izraz ICE inhibitor je namenjen, da vključuje kemijska sredstva, ki inhibirajo proteolitično aktivnost ICE. Primeri ICE inhibitorjev so znani v tehniki, vključno npr. sredstva, prikazana v: US-patentu št. 5,585,357 (pirazolilni derivati); US-patentu št. 5,677,283 (pirazolilni derivati); US-patentu št. 5,656,627 (inhibitorji, ki obsegajo vodikovo vezno skupino, hidrofobno skupino in elektronegativno skupino); US-patent št. 5,411,985 (spojine gama-piron-3-ocetne kisline); US-patent št. 5,430,128 (tripeptidilni derivati); US-patent št. 5,434,248 (tripeptidilne spojine); US-patent št. 5,565,430 (spojine Ν,Ν'-diacilhidrazinoocetne kisline); US-patent št. 5,416,013 (peptidilni derivati); PCT-objava WO 94/21673 (alfa-ketoamidni derivati); PCTobjava WO 97/22619 (N-acilamino spojine); PCT-objava WO 97/22618 (aminokislinski ali di- ali tripeptid amidni derivati); PCT-objava WO 95/35308 (inhibitorji, ki obsegajo vodikovo vezno skupino, hidrofobno spojino in elektronegativno skupino); PCT-objava WO 93/14777 (peptidilni derivati); PCT-objava WO 93/16710 (peptidilni derivati); PCT-objava WO 95/05152 (substituirani ketonski derivati); PCT-objava WO 94/03480 (derivati 4-amino-2,2-difluoro-3-okso-l,6-heksandiojske kisline); PCTobjava WO 94/00154 (peptidilni derivati); PCT-objava WO 93/05071 (peptidilni derivati); evropska prijava EP 519 748 (peptidilni derivati); evropska prijava EP 590 650 (ciklopropenski derivati); evropska prijava EP 628 550 (piridazini); evropska prijava EP 644 198 (alfa-heteroariloksimetil ketoni); evropska prijava EP 644 197 (peptidni fosfiniloksimetil ketoni); evropska patentna prijava EP 547 699 (peptidilni derivati); britanska prijava GB 2,278,276 (spojine gama-piron-3-ocetne kisline) in kanadska prijava 2,109,646 (para-nitroanilidni peptidi). Predloženi izum obsega uporabo ICE inhibitorjev, prikazanih v katerikoli od zgoraj navedenih publikacij, v metodah, opisanih tukaj.The term ICE inhibitor is intended to include chemical agents that inhibit the proteolytic activity of ICE. Examples of ICE inhibitors are known in the art, including e.g. agents disclosed in: U.S. Pat. 5,585,357 (pyrazolyl derivatives); U.S. Pat. No. 5,677,283 (pyrazolyl derivatives); U.S. Pat. No. 5,656,627 (inhibitors comprising hydrogen bonding group, hydrophobic group and electronegative group); U.S. Pat. No. 5,411,985 (Gamma-pyrone-3-acetic acid compounds); U.S. Pat. 5,430,128 (tripeptidyl derivatives); U.S. Pat. 5,434,248 (tripeptidyl compounds); U.S. Pat. No. 5,565,430 (Ν, Ν'-diacylhydrazinoacetic acid compounds); U.S. Pat. 5,416,013 (peptidyl derivatives); PCT Publication WO 94/21673 (Alpha-Ketoamide Derivatives); PC Publication WO 97/22619 (N-acylamino compounds); PCT Publication WO 97/22618 (Amino Acid or Di- or Tripeptide Amide Derivatives); PCT Publication WO 95/35308 (inhibitors comprising hydrogen bonding group, hydrophobic compound and electronegative group); PCT Publication WO 93/14777 (peptidyl derivatives); PCT Publication WO 93/16710 (peptidyl derivatives); PCT Publication WO 95/05152 (substituted ketone derivatives); PCT Publication WO 94/03480 (4-Amino-2,2-difluoro-3-oxo-1,6-hexanedioic acid derivatives); PCPublication WO 94/00154 (peptidyl derivatives); PCT Publication WO 93/05071 (peptidyl derivatives); European application EP 519 748 (peptidyl derivatives); European application EP 590 650 (cyclopropene derivatives); European application EP 628 550 (pyridazines); European application EP 644 198 (alpha-heteroaryloxymethyl ketones); European application EP 644 197 (peptide phosphinyloxymethyl ketones); European patent application EP 547 699 (peptidyl derivatives); British application GB 2,278,276 (gamma-pyrone-3-acetic acid compounds) and Canadian application 2,109,646 (para-nitroanilide peptides). The present invention encompasses the use of ICE inhibitors shown in any of the foregoing publications in the methods described herein.

Dodatni prednostni ICE inhibitorji za uporabo v metodah v smislu izuma vključujejo ICE inhibitorje asparaginsko kislino, substituirano s sulfonamidi, s formulo I:Additional preferred ICE inhibitors for use in the methods of the invention include ICE inhibitors aspartic acid substituted with sulfonamides of formula I:

R* o /z0R * o / z 0

X''S^NX '' S ^ N

R2 R 2

RRRR

OR kjer jeOR where it is

R1 vodik, Ci-C6-alkil ali benzil;R 1 is hydrogen, C 1 -C 6 alkyl or benzyl;

R2 je -CHO-, -CORa ali -CN;R 2 is -CHO-, -COR a or -CN;

vsak Ra je neodvisno vodik ali Ci-e-alkil;each R a is independently hydrogen or C 1-6 alkyl;

X je vez, CH2, CHR5, NH, NR5 ali O;X is a bond, CH 2 , CHR 5 , NH, NR 5 or O;

R3 je aril, substituiran aril, heteroaril, substituiran heteroaril, cikloalkil, substituiran cikloalkil, heterocikel ali substituiran heterocikel;R 3 is aryl, substituted aryl, heteroaryl, substituted heteroaryl, cycloalkyl, substituted cycloalkyl, heterocycle or substituted heterocycle;

Y je odsoten, NR5, CO, S, O, SO2, -O(CHR5)„-, CHR5, NR5CO, NCR5, CONR5, OCHR5, CHR5O, SCHR5, CHR5S, SO2NR5, C^-alkil, NR5SO2, CH2CHR5, CHR5CH2, COCH2 ali CH2CO;Y is absent, NR 5 , CO, S, O, SO 2, -O (CHR 5 ) '-, CHR 5 , NR 5 CO, NCR 5 , CONR 5 , OCHR 5 , CHR 5 O, SCHR 5 , CHR 5 S , SO2NR 5, C ^ -alkyl, NR 5 SO 2, CH2CHR 5, CHR 5 CH 2, COCH 2 or CH 2 CO;

R4 je odsoten, aril, substituiran aril, Ci-Cg-alkil, heteroaril, substituiran heteroaril, cikloalkil, Cj-Ce-alkil, substituiran cikloalkil, heterocikloalkil ali substituiran heterocikloalkil;R 4 is absent, aryl, substituted aryl, C 1 -C 8 alkyl, heteroaryl, substituted heteroaryl, cycloalkyl, C 1 -C 6 alkyl, substituted cycloalkyl, heterocycloalkyl or substituted heterocycloalkyl;

vsak R’ je neodvisno vodik, Ci-C6-alkil, aril, -(CH2)n-aril ali -(CH2)n-cikloalkil;each R 'is independently hydrogen, C 1 -C 6 alkyl, aryl, - (CH 2 ) n -aryl or - (CH 2 ) n -cycloalkyl;

vsak n je neodvisno 0 do 5, m je 1 ali 2, in njihove farmacevtsko sprejemljive soli, estre, amide in predzdravila.each n is independently 0 to 5, m is 1 or 2, and pharmaceutically acceptable salts, esters, amides and prodrugs thereof.

V eni izvedbi izuma je R2 CHO.In one embodiment of the invention, R 2 is CHO.

V drugi izvedbi izuma je R1 vodik.In another embodiment of the invention, R 1 is hydrogen.

V drugi izvedbi izuma je Ra vodik.In another embodiment of the invention, R a is hydrogen.

V drugi izvedbi izuma je X vez.In another embodiment of the invention, X is a bond.

V drugi izvedbi izuma je R fenil ali substituiran fenil.In another embodiment of the invention, R is phenyl or substituted phenyl.

V drugi izvedbi izuma je Y vez.In another embodiment of the invention, Y is a bond.

V drugi izvedbi izuma je Y O.In another embodiment of the invention is Y O.

V drugi izvedbi izuma je Y CH2.In another embodiment of the invention, Y is CH 2 .

V drugi izvedbi izuma je R4 fenil ali substituiran fenil.In another embodiment of the invention, R 4 is phenyl or substituted phenyl.

V drugi izvedbi izuma je R2 CHO, Ra je H, R1 je vodik, X je vez, R3 in R4 sta fenil ali substituiran fenil in Y je vez, CH2 ali O.In another embodiment of the invention, R 2 is CHO, R a is H, R 1 is hydrogen, X is a bond, R 3 and R 4 are phenyl or substituted phenyl and Y is a bond, CH 2 or O.

V drugi izvedbi izuma je m 1 in R5 je vodik.In another embodiment of the invention, m is 1 and R 5 is hydrogen.

Drugi prednostni ICE inhibitorji, substituirani s sulfonamidi, imajo formulo II:Other preferred ICE inhibitors substituted with sulfonamides have the formula II:

kjer jewhere it is

R1 vodik, Ci-C6-alkil ali benzil;R 1 is hydrogen, C 1 -C 6 alkyl or benzyl;

R2je -CHO, -CORaali -CN;R 2 is -CHO, -COR a or -CN;

vsak Ra je neodvisno vodik ali Ci-C6-alkil;each R a is independently hydrogen or C 1 -C 6 alkyl;

X je vez, CH2, CHR5, NH, NR5 ali O;X is a bond, CH 2 , CHR 5 , NH, NR 5 or O;

Y je vez, NR5, CO, S, O, SO2, CHR5, NR5CO, CONR5, OCHR5, CHR5O,Y is a bond, NR 5 , CO, S, O, SO 2 , CHR 5 , NR 5 CO, CONR 5 , OCHR 5 , CHR 5 O,

-O(CHR5)n-, SCHR5, CHR5S, SO2NR5, NR5SO2, CH2CHR5, CHR5CH2, COCH2 ali CH2CO;-O (CHR 5) n, Schram 5, CHR 5 with, SO2NR 5, NR 5 SO 2, CH2CHR 5, CHR 5 CH 2, COCH 2 or CH 2 CO;

vsak R5 je neodvisno vodik, Ci-Cg-alkil, aril ali -(CH2)n-aril;each R 5 is independently hydrogen, C 1 -C 8 alkyl, aryl or - (CH 2 ) n- aryl;

vsak n je neodvisno od 0 do 5;each n is independently from 0 to 5;

m je 1 ali 2;m is 1 or 2;

vsak Z je neodvisno vodik ali arilna, substituirana arilna, heteroarilna, substituirana heteroarilna, cikloalkilna, substituirana cikloalkilna, heterociklična ali substituirana heterociklična skupina, ki je pripojena na fenilno skupino, ki vsebuje Z kot substituent;each Z is independently hydrogen or aryl, substituted aryl, heteroaryl, substituted heteroaryl, cycloalkyl, substituted cycloalkyl, heterocyclic or substituted heterocyclic group attached to a phenyl group containing Z as a substituent;

Rb, Rc, Rd in Re so vsak neodvisno vodik, Ci-C6-alkil, Ci-C6-alkoksi, -OH, Ci-C6tioalkoksi, halogen, trifluorometil, dialkilamino, -NO2, -CN, -CF3, -CO2-alkil, -SO3H, -CHO, -CO-alkil, -CONH-alkil, -CONHRq, -CON(alkil)2, -(CH2)n-NH2, -(CH2)n-NHalkil-NHRq, -NHCORq, -(CH2)nOH, -(CH2)n-CONH2 ali -(CH2)nCO2H; in Rq je vodik ali Ci-Cg-alkil, in njihove farmacevtsko sprejemljive soli, estri, amidi in predzdravila.R b , R c , R d and R e are each independently hydrogen, C 1 -C 6 alkyl, C 1 -C 6 alkoxy, -OH, C 1 -C 6 thioalkoxy, halogen, trifluoromethyl, dialkylamino, -NO2, -CN, -CF3, -CO2-alkyl, -SO3H, -CHO, -CO-alkyl, -CONH-alkyl, -CONHR q , -CON (alkyl) 2, - (CH 2 ) n -NH 2 , - (CH 2 ) n -NHalkyl -NHR q , -NHCOR q , - (CH 2 ) n OH, - (CH 2 ) n -CONH 2 or - (CH 2 ) n CO 2 H; and R q is hydrogen or C 1 -C 8 alkyl, and their pharmaceutically acceptable salts, esters, amides and prodrugs.

V drugi izvedbi glede na spojine s formulo II je R1 vodik.In another embodiment, with respect to the compounds of formula II, R 1 is hydrogen.

V drugi izvedbi glede na spojine s formulo II je R2 CHO.In another embodiment, with respect to the compounds of formula II, R 2 is CHO.

V drugi izvedbi glede na spojine s formulo II je Ra vodik.In another embodiment, with respect to the compounds of formula II, R a is hydrogen.

V drugi izvedbi glede na spojine s formulo II je X vez.In another embodiment, with respect to the compounds of formula II, X is a bond.

V drugi izvedbi glede na spojine s formulo II je Y vez, O ali CH2.In another embodiment, with respect to the compounds of formula II, Y is a bond, O or CH 2 .

V drugi izvedbi glede na spojine s formulo II sta Rb in Rc vodik.In another embodiment, with respect to the compounds of formula II, R b and R c are hydrogen.

V drugi izvedbi glede na spojine s formulo II, kjer so Rb, Rc in Rd vodik, je Re Ci-C6-alkil.In another embodiment, with respect to the compounds of formula II, wherein R b , R c and R d are hydrogen, R e is C 1 -C 6 alkyl.

V drugi prednostni izvedbi glede na spojine s formulo II je Rb ali Rc nameščen v para položaju fenilnega obroča glede na X in je Rb ali Rc -OCH3.In another preferred embodiment with respect to the compounds of formula II, R b or R c is positioned in the para position of the phenyl ring with respect to X and R b or R c is -OCH 3 .

V drugi izvedbi glede na spojine s formulo II je m 1 in R5 je vodik.In another embodiment, with respect to the compounds of formula II, m is 1 and R 5 is hydrogen.

Prednostne spojine vključujejo:Preferred compounds include:

3-(bifenil-2-sulfoamino)-4-okso-masleno kislino3- (Biphenyl-2-sulfoamino) -4-oxo-butyric acid

3- (2-benzil-benzensulfonilamino)-4-okso-masleno kislino3- (2-Benzyl-benzenesulfonylamino) -4-oxo-butyric acid

4- okso-3-(2-fenoksi-benzensulfonilamino)-masleno kislino4- Oxo-3- (2-phenoxy-benzenesulfonylamino) -butyric acid

4-okso-3-(2-p-toliloksi-benzensulfonilammo)-masleno kislino4-Oxo-3- (2-p-tolyloxy-benzenesulfonylamino) -butyric acid

3- [2-(4-izopropil-fenoksi)-benzensulfonilamino]-4-okso-masleno kislino3- [2- (4-Isopropyl-phenoxy) -benzenesulfonylamino] -4-oxo-butyric acid

4- okso-3 -(2-m-toliloksi-benzensulofnilamino)-masleno kislino4- Oxo-3- (2-m-tolyloxy-benzenesulfonylamino) -butyric acid

3-[2-(3-izopropil-fenoksi)-benzensulfonilamino]-4-okso-masleno kislino in 3 -(4'-metil-bifenil-2-sulfonilamino)-4-okso-masleno kislino.3- [2- (3-Isopropyl-phenoxy) -benzenesulfonylamino] -4-oxo-butyric acid and 3- (4'-methyl-biphenyl-2-sulfonylamino) -4-oxo-butyric acid.

Drugi ICE inhibitorji vključujejo spojine s formulo III:Other ICE inhibitors include compounds of formula III:

kjer jewhere it is

R1 vodik, Ci-Cg-alkil ali benzil;R 1 is hydrogen, C 1 -C 8 alkyl or benzyl;

R2je -CHO, -CORaali -CN;R 2 is -CHO, -COR a or -CN;

vsak Ra je neodvisno vodik ali Ci-Cg-alkil;each R a is independently hydrogen or C 1 -C 8 alkyl;

X je vez, CH2, CHR5, NH, NR5 ab O;X is a bond, CH 2 , CHR 5 , NH, NR 5 ab O;

R3 je vodik, Ci-C6-alkil, aril ali -(CH2)n-aril;R 3 is hydrogen, C 1 -C 6 -alkyl, aryl or - (CH 2 ) n -aryl;

vsak nje neodvisno od 0 do 5;each independently from 0 to 5;

m je 1 ali 2;m is 1 or 2;

Z je odsoten ali je arilna, substituirana arilna, heteroarilna, substituirana heteroarilna, cikloalkilna, substituirana cikloalkilna, heterociklična ali substituirana heterociklična skupina, ki je pripojena na fenilno skupino, ki vsebuje Z kot substituent;Z is absent or is an aryl, substituted aryl, heteroaryl, substituted heteroaryl, cycloalkyl, substituted cycloalkyl, heterocyclic or substituted heterocyclic group attached to a phenyl group containing Z as a substituent;

R1 bi Rs sta vsak neodvisno vodik, Cj-Ce-alkil, hidroksi, halogen, trifluorometil, dialkilamino, -NO2, -CN, -CO2H, -CO2-alkil, -SO3H, -CHO, -CO-alkil, -CONH2, -CONH(CH2)n-aril, -CONH(CH2)„-substituban aril, -CONH-alkil, -CONHRq, -CON(alkil)2, -(CH2)n-NH2, -(CH2)n-NH-alkil, -NHRq, -NHCORq, -ORq, -SRq ali -(CH2)n-aril, inR 1 and R s are each independently hydrogen, C 1 -C 6 alkyl, hydroxy, halogen, trifluoromethyl, dialkylamino, -NO 2, -CN, -CO 2 H, -CO 2 -alkyl, -SO 3 H, -CHO, -CO-alkyl, - CONH2, -CONH (CH2) n-aryl, -CONH (CH2) '- substituted aryl, -CONH-alkyl, -CONHR q , -CON (alkyl) 2, - (CH 2 ) n -NH 2 , - (CH 2 ) n -NH-alkyl, -NHR q , -NHCOR q , -OR q , -SR q or - (CH 2 ) n -aryl, and

Rq je vodik ali Ci-C8-alkil, in njihove farmacevtsko sprejemljive soli, estre, amide in predzdravila.R q is hydrogen or C 1 -C 8 alkyl, and their pharmaceutically acceptable salts, esters, amides and prodrugs.

V prednostni izvedbi spojin s formulo III je Rf v orto položaju glede na X na fenilnem obroču in je R8 vodik.In a preferred embodiment of the compounds of formula III, R f is in the ortho position with respect to X on the phenyl ring and R 8 is hydrogen.

V prednostni izvedbi spojin s formulo III je Z vodik, m je 1, R5 je vodik in Ra je vodik.In a preferred embodiment of the compounds of formula III, Z is hydrogen, m is 1, R 5 is hydrogen and R a is hydrogen.

V prednostni izvedbi spojin s fonnulo III je spojina tribenzensulfonilamino-4-oksomaslena kislina.In a preferred embodiment of the compounds of Formula III, the compound is tribenzenesulfonylamino-4-oxobutyric acid.

Zgoraj opisane ICE inhibitorje, s sulfonamidi substituirano asparaginsko kislino, lahko na splošno naredimo takole:The ICE inhibitors of the sulfonamide substituted aspartic acid described above can generally be done as follows:

(1:4:sled)(1: 4: next)

NuNu

OOh

Nu = nldfiofilNu = nldfiofil

Drugi sulfonamidni ICE inhibitorji, ki jih lahko uporabimo v smislu izuma, so spojine s formulo IV:Other sulfonamide ICE inhibitors that can be used according to the invention are compounds of formula IV:

kjer je R1 where R is 1

R3 je vodik,R 3 is hydrogen,

Cj-Cg-alkil,C1-C8-alkyl,

-(CH2)„-aril ali -(CH2)n-heteroaril;- (CH 2 ) '- aryl or - (CH 2 ) n -heteroaryl;

R4 je CrC6-alkil,R 4 is C r C 6 -alkyl,

-(CH2)n-aril ali -(CH2)n-heteroaril;- (CH 2 ) n -aryl or - (CH 2 ) n -heteroaryl;

R5 in R6 sta vsak neodvisno vodik, Ci-C6-alkil,R 5 and R 6 are each independently hydrogen, C 1 -C 6 alkyl,

-(CH2)n-aril ali -(CH2)n-heteroaril;- (CH 2 ) n -aryl or - (CH 2 ) n -heteroaryl;

R7 je Ci-Ce-alkil,R 7 is C 1 -C 6 alkyl,

-(CH2)n-aril ali- (CH 2 ) n -aryl or

-(CH2)n-heteroaril; vsak nje O do 6; vsak m je O, 1, 2 ali 3;- (CH 2 ) n -heteroaryl; each n O to 6; each m is O, 1, 2 or 3;

A je alanin, levcin, izolevcin, prolin, fenilalanin, glicin, tirozin, serin, treonin, triptofan, cistein, metionin, valin, asparagin, glutamin, asparaginska kislina, lizin, glutaminska kislina, arginin ali histidin;A is alanine, leucine, isoleucine, proline, phenylalanine, glycine, tyrosine, serine, threonine, tryptophan, cysteine, methionine, valine, asparagine, glutamine, aspartic acid, lysine, glutamic acid, arginine or histidine;

R2je-(CH2)n-ZinR 2 is - (CH 2 ) n -Zin

Z je aril, heteroaril, cikloalkil, Ci-Cč-alkil, —Z is aryl, heteroaryl, cycloalkyl, C1-C6-alkyl, -

(CH2)nH <CH2>7 <R<\ ’(CH 2 ) n H < CH 2> 7 < R < \ '

n fluorenil, substituiran fluorenil, substituiran aril, substituiran heteroaril ali substituiran cikloalkil, in njihove farmacevtsko sprejemljive soli, estri, amidi in predzdravila. n fluorenyl, substituted fluorenyl, substituted aryl, substituted heteroaryl or substituted cycloalkyl, and pharmaceutically acceptable salts, esters, amides and prodrugs thereof.

V prednostni izvedbi spojin s formulo IV je R1 OIn a preferred embodiment of the compounds of formula IV, R 1 is O

R70‘ (A)mR 7 0 '( A ) m

V drugi prednostni izvedbi spojin s formulo IV je R1 OIn another preferred embodiment of the compounds of formula IV, R 1 is O

m je 0 in R7 je -(CH2)n-aril.m is 0 and R 7 is - (CH 2 ) n -aryl.

V drugi prednostni izvedbi spojin s formulo IV je R1 OIn another preferred embodiment of the compounds of formula IV, R 1 is O

m je 0 in R7 je -CH2-aril.m is 0 and R 7 is -CH 2 -aryl.

V drugi prednostni izvedbi spojin s formulo IV je R2 -(CH2)n-aril.In another preferred embodiment of the compounds of formula IV, R 2 is - (CH 2 ) n -aryl.

V drugi prednostni izvedbi spojin s formulo IV je aril fenil ali naftil.In another preferred embodiment of the compounds of formula IV, aryl is phenyl or naphthyl.

V drugi prednostni izvedbi spojin s formulo IV je R2 -(CH2)n-cikIoalkil.In another preferred embodiment of the compounds of formula IV, R 2 is - (CH 2 ) n -cycloalkyl.

V drugi prednostni izvedbi spojin s formulo IV je R1 In another preferred embodiment of the compounds of formula IV, R 1 is

O /(CITpH— fenil ali -SO2-fenil.O / (CITpH - phenyl or -SO 2 -phenyl.

V drugi prednostni izvedbi spojin s formulo IV je R2 In another preferred embodiment of the compounds of formula IV, R 2 is

V drugi prednostni izvedbi spojin s formulo IV je R2 In another preferred embodiment of the compounds of formula IV, R 2 is

Drugi sulfonamidni ICE inhibitorji vključujejo spojine s formulo V:Other sulfonamide ICE inhibitors include compounds of formula V:

kjer je R' -CH2-CH2-aril, -CH2-cikloalkiI, -CH2CH2-cikloalkil ali -CHjCHo-heteroaril;wherein R 'is -CH 2 -CH 2 -aryl, -CH 2 -cycloalkyl, -CH 2 CH 2 -cycloalkyl, or -CH 1 CH 2 -heteroaryl;

R jeR is

Ra R a

OOh

OOh

II bdi'II bdi '

ReO oR e O o

RL ;nR L ; n

OOh

RL o ch3 R L o ch 3

ali C.or C.

O oO o

OOh

Ra je -(CH2)n-aril ali -(CH2)n-heteroaril; Rb je aril ali heteroaril;R a is - (CH 2 ) n -aryl or - (CH 2 ) n -heteroaryl; R b is aryl or heteroaryl;

Rc je -CH2-aril ali aril;R c is -CH 2 -aryl or aryl;

Rd je vodik ali Ci-C6-alkil;R d is hydrogen or C 1 -C 6 alkyl;

Re je -CH2-aril ali -CH2-heteroaril, in njihove farmacevtsko sprejemljive soli, estre amide in predzdravila.R e is -CH 2 -aryl or -CH 2 -heteroaryl, and their pharmaceutically acceptable salts, amide esters and prodrugs.

V prednostni izvedbi spojin s formulo V je R1 In a preferred embodiment of the compounds of formula V, R 1 is

ReOR e O

V drugi prednostni izvedbi spojin s formulo V je R1 In another preferred embodiment of the compounds of formula V is R 1

OOh

II .s. ·II .s. ·

Rb^ll^ R oRb ^ ll ^ R o

V drugi prednostni izvedbi spojin s formulo V je Re -(CH2)n-aril.In another preferred embodiment of the compounds of formula V, R is - (CH 2 ) n -aryl.

V drugi prednostni izvedbi spojin s formulo V je aril fenil ali naftil.In another preferred embodiment of the compounds of formula V, aryl is phenyl or naphthyl.

V drugi prednostni izvedbi spojin s formulo V je Rb aril.In another preferred embodiment of the compounds of formula V, R b is aryl.

Prednostne spojine vključujejo:Preferred compounds include:

3-benziloksikarbonilamino-4-okso-5-(2-fenoksi-etansulfonilamino)-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5- (2-phenoxy-ethanesulfonylamino) -pentanoic acid;

3-benziloksikarbomlamino-4-okso-5-(3-fenil-propan-l-sulfonilamino)-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5- (3-phenyl-propane-1-sulfonylamino) -pentanoic acid;

3-benzensulfonilamino-4-okso-5-(2-feniletan-l-sulfonilainino)-pentanojsko kislino;3-Benzenesulfonylamino-4-oxo-5- (2-phenylethan-1-sulfonylainino) -pentanoic acid;

5-benzensulfonilamino-3-benziloksikarbonilamino-4-okso-pentanojsko kislino;5-Benzenesulfonylamino-3-benzyloxycarbonylamino-4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-metansulfonilamino-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5-methanesulfonylamino-4-oxo-pentanoic acid;

-benziloksikarbonilamino-5-(naftalen-1 -sulfonilamino)-4-okso-pentanoj sko kislino;-benzyloxycarbonylamino-5- (naphthalene-1-sulfonylamino) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(2-cikloheksil-etansulfonilamino)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (2-cyclohexyl-ethanesulfonylamino) -4-oxo-pentanoic acid;

-benziloksikarbonilamino-5-(2-naftalen-1 -il-etansulfonilamino)-4-okso-pentanoj sko kislino;-benzyloxycarbonylamino-5- (2-naphthalen-1-yl-ethanesulfonylamino) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(7,7-dimetil-2-okso-biciklo[2.2.1]hept-l-(R)ilmetansulfonilamino)-4-okso-pentanoj sko kislino;3-Benzyloxycarbonylamino-5- (7,7-dimethyl-2-oxo-bicyclo [2.2.1] hept-1- (R) ylmethanesulfonylamino) -4-oxo-pentanoic acid;

3-benziloksikarbomlamino-5-(indan-l-ilmetansulfonilamino)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (indan-1-ylmethanesulfonylamino) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(9-fluoro-9H-fluoren-9-ilmetansulfomlamino)-4-oksopentanojsko kislino;3-Benzyloxycarbonylamino-5- (9-fluoro-9H-fluoren-9-ylmethanesulfonylamino) -4-oxopentanoic acid;

3-benziloksikarbonilamino-5-(7,7-diinetil-2-okso-biciklo[2.2.1]hept-l-(S)ilmetansulfonilamino)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (7,7-diinethyl-2-oxo-bicyclo [2.2.1] hept-1- (S) ylmethanesulfonylamino) -4-oxo-pentanoic acid;

- [2-(2-benziloksikarbonilamino-3 -metil-butirilamino)-propionilamino]“4-okso-5-(2fenil-etansulfonilamino)-pentanoj sko kislino;- [2- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -propionylamino] 4-oxo-5- (2-phenyl-ethanesulfonylamino) -pentanoic acid;

3-[2-(2-benziloksikarbonilamino-4-karboksi-butirilamino)-3-metilbutirilamino]-4okso-5-(2-fenil-etansulfonilamino)-pentanojsko kislino;3- [2- (2-Benzyloxycarbonylamino-4-carboxy-butyrylamino) -3-methylbutyrylamino] -4-oxo-5- (2-phenyl-ethanesulfonylamino) -pentanoic acid;

- { 2-[4-karboksi-2-(3-fenil-propionilamino)-butirilamino]-3 -metilbutirilamino} -4okso-5-(2-fenil-etansulfonilamino)-pentanojsko kislino;- {2- [4-Carboxy-2- (3-phenyl-propionylamino) -butyrylamino] -3-methylbutyrylamino} -4-oxo-5- (2-phenyl-ethanesulfonylamino) -pentanoic acid;

3-(2-{2-[2-acetilamino-3-(4-hidroksi-feiul)-propionilamino]-4-karboksibutirilamino}3 -metil-butirilamino)-4-okso-5-(2-fenil-etansulfonilamino)-pentanoj sko kislino;3- (2- {2- [2-acetylamino-3- (4-hydroxy-phenyl) -propionylamino] -4-carboxybutyrylamino} 3-methyl-butyrylamino) -4-oxo-5- (2-phenyl-ethanesulfonylamino) -pentanoic acid;

3-(2-acetilamino-3-metil-butirilamino)-5-(7,7-dimetil-2-okso-biciklo[2.2.1]hept-l-(S) ilmetansulfonilamino)-4-okso-pentanojsko kislino;3- (2-acetylamino-3-methyl-butyrylamino) -5- (7,7-dimethyl-2-oxo-bicyclo [2.2.1] hept-1- (S) ylmethanesulfonylamino) -4-oxo-pentanoic acid;

3-(2-acetilamino-propilamino)-5-(7,7-dimetil-2-okso-biciklo[2.2.1]hept-l-(S)-ilmetan sulfonilamino)-4-okso-pentanoj sko kislino;3- (2-acetylamino-propylamino) -5- (7,7-dimethyl-2-oxo-bicyclo [2.2.1] hept-1- (S) -ylmethane sulfonylamino) -4-oxo-pentanoic acid;

3-[2-(2-benziloksikarbonilamino-3-metil-butirilamino)-propionilamino]-5-(7,7dimetil-2-okso-biciklo[2.2.1 ] hept-1 -ilmetansulfonilamino)-4-okso-pentanoj sko kislino;3- [2- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -propionylamino] -5- (7,7-dimethyl-2-oxo-bicyclo [2.2.1] hept-1-ylmethanesulfonylamino) -4-oxo-pentanoic acid acid;

3-{2-[4-karboksi-2-(3-fenil-propionilamino)-butirilamino]-3-metil-butirilamino}-5(7,7-dimetil-2-okso-biciklo[2.2.1]hept-l-ilmetansulfonilamino)-4-okso-pentanojsko kislino;3- {2- [4-carboxy-2- (3-phenyl-propionylamino) -butyrylamino] -3-methyl-butyrylamino} -5 (7,7-dimethyl-2-oxo-bicyclo [2.2.1] hept- 1-ylmethanesulfonylamino) -4-oxo-pentanoic acid;

-(2- { 2-[2-acetilamino-3 -(4-hidroksi-fenil)-propiomlamino]-4-karboksi-butirilamino } 3-metil-butirilamino)-5-(7,7-dimetil-2-okso-biciklo[2.2. ljhept-1ilmetansulfonilamino)-4-okso-pentanojsko kislino;- (2- {2- [2-acetylamino-3- (4-hydroxy-phenyl) -propionylamino] -4-carboxy-butyrylamino} 3-methyl-butyrylamino) -5- (7,7-dimethyl-2-oxo -bicyclo [2.2.hept-1ylmethanesulfonylamino) -4-oxo-pentanoic acid;

3-[2-(2-benziloksikarbonilamino-4-karboksi-butirilamino)-3-metil-butirilamino]-5(7,7-dimetil-2-okso-biciklo[2.2.1]hept-l-ibnetansulfonilamino)-4-okso-pentanojsko kislino;3- [2- (2-Benzyloxycarbonylamino-4-carboxy-butyrylamino) -3-methyl-butyrylamino] -5 (7,7-dimethyl-2-oxo-bicyclo [2.2.1] hept-1-ylmethanesulfonylamino) -4 -oxo-pentanoic acid;

3- (l,2,3,4-tetrahidro-l-okso-izokinolin-2-il)-acetanino-5-benzensulfonilamino-4hidroksi-pentanojsko kislino;3- (1,2,3,4-tetrahydro-1-oxo-isoquinolin-2-yl) -acetanino-5-benzenesulfonylamino-4-hydroxy-pentanoic acid;

(S)-5-(biciklo[2.2.1jhept-l-ilmetansulfonilamino)-4-okso-3-[2-(l-okso-3J4-dihidro1 H-izokinolin-2-il)-acetilamino]-pentanoj sko kislino; (S)-4-okso-3-[2-(l-okso-3,4-dihidro-lH-izokinolin-2-il)-acetilamino]-5-(2-feniletansulfonilamino)-pentanojsko kislino; in(S) -5- (bicyclo [2.2.1hept-1-ylmethanesulfonylamino) -4-oxo-3- [2- (1-oxo-3 J 4-dihydro-1H-isoquinolin-2-yl) -acetylamino] -pentanoic acid sko acid; (S) -4-Oxo-3- [2- (1-oxo-3,4-dihydro-1H-isoquinolin-2-yl) -acetylamino] -5- (2-phenylethanesulfonylamino) -pentanoic acid; and

4- okso-3 - [2-( 1-okso-3,4-dihidro-1 H-izokinolin-2-il)-acetilamino]-5fenibnetansulfonilamino-pentanojsko kislino.4- Oxo-3- [2- (1-oxo-3,4-dihydro-1H-isoquinolin-2-yl) -acetylamino] -5phenibnethanesulfonylamino-pentanoic acid.

Drugi sulfonamidni ICE inhibitorji vključujejo spojine s formulo VI:Other sulfonamide ICE inhibitors include compounds of formula VI:

.COOH.COOH

oo

CH· oCH · o

kjer je R'where R '

VIVI

ΟΟ

IIII

οο

C ο ch3 C ο ch 3

ο aliο or

ReOR e O

CC

OOh

Ra je -(CH2)n-aril ali -(CH2)n-heteroarilR a is - (CH 2 ) n -aryl or - (CH 2 ) n -heteroaryl

Rb je aril ali heteroarilR b is aryl or heteroaryl

Rc je -CH2-aril ali arilR c is -CH 2 -aryl or aryl

Rd je vodik ali Ci-C6-alkilR d is hydrogen or C 1 -C 6 -alkyl

Re je -CH2-aril ali -CH2-heteroaril, in njihove farmacevtsko sprejemljive soli, estre, amide in predzdravila.R e is -CH 2 -aryl or -CH 2 -heteroaryl, and their pharmaceutically acceptable salts, esters, amides and prodrugs.

V prednostni izvedbi spojin s formulo VI je R1 OIn a preferred embodiment of the compounds of formula VI, R 1 is O

V prednostni izvedbi spojin s formulo VI je R1 OIn a preferred embodiment of the compounds of formula VI, R 1 is O

IIII

V prednostni izvedbi spojin s formulo Vije Re -(CH2)n-aril.In a preferred embodiment of the compounds of formula VIe R is - (CH 2 ) n -aryl.

V prednostni izvedbi spojin s formulo Vije aril fenil ali naftil.In a preferred embodiment, the compounds of the formula are aryl phenyl or naphthyl.

V prednostni izvedbi spojin s formulo VI je Rb aril.In a preferred embodiment of the compounds of formula VI, R b is aryl.

Zgoraj opisane spojine s formulami IV, V ali VI lahko pripravimo na splošno s pretvorbo ustreznega izhodnega sulfonamida i v Boc-sulfonamid 2 z uporabo reagenta, kot je npr. di-terc.butil dikarbonat. Boc-sulfonamid 2 lahko nato reagira z ustrezno substituiranim asparaginska kislina bromometilketon β-terc.butil estrom 3 v prisotnosti baze, nato pa ga obdelamo s kislino, da dobimo želeni produkt 4.The compounds of formulas IV, V or VI described above can be prepared generally by converting the corresponding starting sulfonamide i into Boc sulfonamide 2 using a reagent such as e.g. di-tert.butyl dicarbonate. Boc sulfonamide 2 can then be reacted with the appropriately substituted aspartic acid bromomethylketone β-tert.butyl ester 3 in the presence of a base and then treated with acid to give the desired product 4.

Shema 1Scheme 1

OOh

H2N— S—R2 -► Boc—N n u q di terc.-butil dikarbonat n 1H 2 N - S - R 2 --► Boc - N nuq di tert.-butyl dicarbonate n 1

O uO u

-sII-sII

OOh

*>*>

JJ

O 11 oO 11 o

1. Boc—N—S—R2 1. Boc-N-S-R 2

H i' baza OH and 'base O

2. HCiaIiCF3COOH2. HCiaIiCF 3 COOH

Alternativno lahko spojine s formulami IV, V ali VI pripravimo na splošno z reakcijo ustrezno substituiranega aldehida asparaginske kisline j. z nitrometanom v prisotnosti baze, kot je kalijev terc.butoksid, da dobimo nitroalkohol 2. Z redukcijo 2 v amin 3 in nato z reakcijo z ustreznim sulfonilkloridom dobimo produkt 4, le-tega pa lahko oksidiramo v keton 5 z reagentom, kot je Dess Martinov perjodinan ali s Swemovo oksidacijo. S kislo deprotekcijo t-butil estra s HCI ali trifluoroocetno kislino dobimo želeni produkt 6.Alternatively, compounds of formulas IV, V or VI can be prepared generally by the reaction of a suitably substituted aspartic acid aldehyde j. with nitromethane in the presence of a base such as potassium tert.butoxide to give nitroalcohol 2. By reducing 2 to amine 3 and then reacting with the corresponding sulfonyl chloride to give product 4, which can be oxidized to ketone 5 with a reagent such as Dess Martin periodic or with Swem oxidation. Acid deprotection of t-butyl ester with HCl or trifluoroacetic acid gives the desired product 6.

Shema 2 ,1 H ,1 HScheme 2, 1 H, 1 H

R—N^COOMe R —N^COOH : £ Ξ—COOt-Bu COOt-Bu i hR — N ^ COOMe R —N ^ COOH: £ Ξ —COOt-Bu COOt-Bu ih

R1— K /CHOR 1 - K / CHO

R1— N^C^OH =—COOt-BuR 1 - N ^ C ^ OH = —COOt-Bu

OH , H ?H „ OH R N>A\/N02 rI—Nx/O_/-NH2 —COOt-Bu 1 —COOt-Bu 2OH, H? H „OH RN > A \ / N0 2 rI — N x / O _ / - NH 2 —COOt-Bu 1 —COOt-Bu 2

OH —COOt-Bu 3OH —COOt-Bu 3

R^-SO^Cl R1~N\rxk^/N~SO2—R2 R ^ -SO ^ Cl R 1 ~ N \ r xk ^ / N ~ SO 2 —R 2

-COOt-Bu rI S02 R2 R1——SO?—R2 -COOt-Bu rI S0 2 R 2 R 1 ——SO? —R 2

-—COOt-Bu 5 •a^H-—COOt-Bu 5 • a ^ H

Še druge ICE inhibitorske spojine, ki jih lahko uporabimo v smislu izuma vključujejo hidroksamatne spojme, vključno spojme s formulo VII:Other ICE inhibitor compounds that may be used in the invention include hydroxamate compounds, including compounds of formula VII:

ta (CH2)n—Qt a (CH 2 ) n —Q

VII kjer je R1 VII where R 1

οο

IIII

R4/ X(A)m r7o (A)R 4 / X (A) m r 7 o (A)

O 11 R \ /S. / ali llX(A)Jf r6^ o m vsak Rje neodvisno vodik ali Ci-Ce-alkil;O 11 R \ / S. / or 11 X (A) Jf r 6 ^ o m each R is independently hydrogen or C 1 -C 6 alkyl;

R3 je vodik, Ci-C6-alkil, -(CH2)n-aril, -(CH2)n-heteroaril, -(CH2)p-X-aril ali (CH2)p-X-heteroaril;R 3 is hydrogen, C 1 -C 6 -alkyl, - (CH 2 ) n -aryl, - (CH 2 ) n -heteroaryl, - (CH 2 ) p -X-aryl, or (CH 2 ) p -X-heteroaryl ;

R4 je Ci-Cfi-alkil, -(CH2)n-aril, -(CH2)n-heteroaril, -(CH2)rX-aril ali -(CH2)rXheteroaril;R 4 is C 1 -C 6 alkyl, - (CH 2 ) n -aryl, - (CH 2 ) n -heteroaryl, - (CH 2 ) r X-aryl, or - (CH 2 ) r Xheteroaryl;

R5 in R6 sta vsak neodvisno vodik, Cj-Cg-alkil, -(CH2)n-aril, -(CH2)n-heteroaril, (CH2)j-X-aril ali -(CH2)j-X-heteroaril;R 5 and R 6 are each independently hydrogen, C 1 -C 8 alkyl, - (CH 2 ) n -aryl, - (CH 2 ) n -heteroaryl, (CH 2 ) jX-aryl, or - (CH 2 ) jX-heteroaryl ;

R7 je Ci-C6-alkil, -(CH2)p-aril, -(CH2)p-heteroaril, -(CH2)j-X-aril ali -(CH2)j-Xheteroaril;R 7 is C 1 -C 6 -alkyl, - (CH 2 ) p- aryl, - (CH 2 ) p -heteroaryl, - (CH 2 ) jX-aryl, or - (CH 2 ) j-Xheteroaryl;

vsak nje neodvisno 0 do 6;each n is independently 0 to 6;

vsak p je neodvisno 1 do 6;each p is independently 1 to 6;

vsak j je neodvisno 2 do 6;each j is independently 2 to 6;

vsak m je 0 do 2;each m is 0 to 2;

A je alanin, valin, serin, treonin, glutaminska kislina, lizin, arginin, histidin, glutamin ali alfa amino maslena kislina;A is alanine, valine, serine, threonine, glutamic acid, lysine, arginine, histidine, glutamine or alpha amino butyric acid;

Ra je vodik, Ci-C6-alkil ali -(CH2)„-fenil;R a is hydrogen, C 1 -C 6 alkyl or - (CH 2 ) '- phenyl;

X je O ali S inX is O or S and

Q je Ci-C6-alkil, -(CH2)n-aril, -(CH2)n-heteroaril, in njihove farmacevtsko sprejemljive soli, estri, amidi in predzdravila.Q is C1-C6 alkyl, - (CH 2 ) n -aryl, - (CH 2 ) n -heteroaryl, and their pharmaceutically acceptable salts, esters, amides and prodrugs.

V eni izvedbi spojin s formulo VII je vsak R vodik.In one embodiment of the compounds of formula VII, each R is hydrogen.

V drugi izvedbi spojin s formulo Vlije R1 In another embodiment, compounds of formula Vlia R 1

ΟΟ

in m je 0.and m is 0.

V drugi izvedbi spojin s formulo VII je R1 oIn another embodiment of the compounds of formula VII, R 1 is

m je 0 in R7 je -(CH2)n-aril.m is 0 and R 7 is - (CH 2 ) n -aryl.

V drugi izvedbi spojin s formulo Vlije Q -(CH2)n-fenil ali (CH2)n-naftil.In another embodiment of the compounds of formula Vlia Q is - (CH 2 ) n -phenyl or (CH 2 ) n -naphthyl.

V drugi izvedbi spojin s formulo VII je Ra vodik ali metil.In another embodiment of the compounds of formula VII, R a is hydrogen or methyl.

V drugi izvedbi spojin s formulo Vlije Q -CH2-fenil, -CH2-naftil, -CH2CH2-fenil ali CH2CH2-naftil.In another embodiment of the compounds of formula Vlia Q is -CH 2 -phenyl, -CH 2 -naphthyl, -CH 2 CH 2 -phenyl, or CH 2 CH 2 -naphthyl.

Druge hidroksamatne ICE inhibitorske spojine vključujejo spojine s formulo VIIIOther hydroxamate ICE inhibitor compounds include compounds of formula VIII

kjer je Zwhere Z is

Cntn vsak g je neodvisno vodik, CrC6-alkil, CrC6-alkoksi, -(CH2)nCO2R, -(CH2)n-aril, aril, -(CH2)n-heteroaril ali -heteroaril;Cntn each g is independently hydrogen, C r C 6 -alkyl, C r C 6 -alkoxy, - (CH 2 ) n CO 2 R, - (CH 2 ) n -aryl, aryl, - (CH 2 ) n -heteroaryl or -heteroaryl;

UjeOaliCH2;U is O or CH 2 ;

'I r5\ /S ali r6^ o m vsak Rje neodvisno vodik ali Ci-C6-alkil;'I R5 \ / S or R 6 of m ^ each R is independently hydrogen or a Ci-C 6 -alkyl;

R3 je vodik, Ci-C6-alkil, -(CH2)n-aril, -(CH2)n-heteroaril, -(CH2)p-X-aril ali -(CH2)p-X-heteroaril;R 3 is hydrogen, C 1 -C 6 -alkyl, - (CH 2 ) n -aryl, - (CH 2 ) n -heteroaryl, - (CH 2 ) p -X-aryl, or - (CH 2 ) p -X- heteroaryl;

R4 je Ci-C6-alkil, -(CH2)„-aril, -(CH2)n-heteroaril, -(CH2)j-X-aril ali -(CH2)j-Xheteroaril;R 4 is C 1 -C 6 alkyl, - (CH 2 ) '- aryl, - (CH 2 ) n -heteroaryl, - (CH 2 ) jX-aryl, or - (CH 2 ) j-Xheteroaryl;

R5 in R6 sta vsak neodvisno vodik, Ci-C6-alkil, -(CH2)n-aril, -(CH2)n-heteroaril, (CH2)j-X-aril ali -(CH2)j-X-heteroaril;R 5 and R 6 are each independently hydrogen, C 1 -C 6 -alkyl, - (CH 2 ) n -aryl, - (CH 2 ) n -heteroaryl, (CH 2 ) jX-aryl, or - (CH 2 ) jX- heteroaryl;

R7 je Ci-C6-alkil, -(CH2)p-aril, -(CH2)p-heteroaril, -(CH2)j-X-aril ali -(CH2)j-Xheteroaril;R 7 is C 1 -C 6 -alkyl, - (CH 2 ) p- aryl, - (CH 2 ) p -heteroaryl, - (CH 2 ) jX-aryl, or - (CH 2 ) j-Xheteroaryl;

vsak n je neodvisno 0 do 6;each n is independently 0 to 6;

vsak p je neodvisno 1 do 6;each p is independently 1 to 6;

vsak j je neodvisno 2 do 6;each j is independently 2 to 6;

vsak m je 0 do 2;each m is 0 to 2;

A je alanin, valin, serin, treonin, glutaminska kislina, lizin, arginin, histidin, glutamin ali alfa amino maslena kislina inA is alanine, valine, serine, threonine, glutamic acid, lysine, arginine, histidine, glutamine or alpha amino butyric acid, and

X je O ali S in njihove farmacevtsko sprejemljive soli, estri, amidi in predzdravila.X is O or S and their pharmaceutically acceptable salts, esters, amides and prodrugs.

V eni izvedbi spojin s formulo VIII je Z OIn one embodiment of the compounds of formula VIII is Z O

g g in vsak g je vodik.g g and each g is hydrogen.

V drugi izvedbi spojin s formulo VIII je R o r7oIn another embodiment of the compounds of formula VIII is R or 7 o

(A) τη in m je 0.(A) τη and m is 0.

V eni izvedbi spojin s formulo VIII je R1 r7o m je 0 in R7 je -(CH2)n-aril.In one embodiment of the compounds of formula VIII, R 1 is r 7 om is 0 and R 7 is - (CH 2 ) n -aryl.

V eni izvedbi spojin s formulo Vilije R7 -(CH2)n-fenil.In one embodiment of the compounds of the formula William R 7 - (CH 2 ) n -phenyl.

V prednostni izvedbi spojin s formulo VIII je ZIn a preferred embodiment of the compounds of formula VIII is Z

in vsak g je vodik.and each g is hydrogen.

Prednostne hidroksamatne ICE inhibitorske spojine vključujejo:Preferred hydroxamate ICE inhibitor compounds include:

3-benziloksikarbonil-amino-4-okso-5-fenilacetilaminooksi-pentanojsko kislino; 3-benziloksikarbonilamino-4-okso-5-(2-okso-pirolidin-l-iloksi)-pentanojsko kislino; 3-benziloksikarbonilamino-5-(3,5-diokso-10-oksa-4-aza-triciklo[5.2.1.02,6]dek-8-en-4 iloksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonyl-amino-4-oxo-5-phenylacetylaminooxy-pentanoic acid; 3-Benzyloxycarbonylamino-4-oxo-5- (2-oxo-pyrrolidin-1-yloxy) -pentanoic acid; 3-Benzyloxycarbonylamino-5- (3,5-dioxo-10-oxa-4-aza-tricyclo [5.2.1.0 2,6 ] dec-8-en-4 yloxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(2-okso-2,3-dihidro-indol-l-iloksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (2-oxo-2,3-dihydro-indol-1-yloxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(7-metoksikarbonilmetil-2-okso-oktahidro-indol-liloksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (7-methoxycarbonylmethyl-2-oxo-octahydro-indole-lyloxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-(2-okso-oktahidro-indol-l-iloksi)-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5- (2-oxo-octahydro-indol-1-yloxy) -pentanoic acid;

3-[2-(2-benziloksikarbonilamino-3-metil-butirilamino)-propionilamino]-5-(7metoksikarbonilmetil-2-okso-oktahidro-indol-l-iloksi)-4-okso-pentanojsko kislino; 3-[2-(2-benziloksikarbonilamino-3-metil-butirilamino)-propionilamino]-4-okso-5-(2okso-2,3-dihidro-indol- l-iloksi)-pentanojsko kislino;3- [2- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -propionylamino] -5- (7methoxycarbonylmethyl-2-oxo-octahydro-indol-1-yloxy) -4-oxo-pentanoic acid; 3- [2- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -propionylamino] -4-oxo-5- (2-oxo-2,3-dihydro-indol-1-yloxy) -pentanoic acid;

3-benziloksikarbonilamino-5-(2,5-diokso-pirolidin-l-iloksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (2,5-dioxo-pyrrolidin-1-yloxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-(2,2,3-trinietil-5-okso-pirolidin-l-iloksi)pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5- (2,2,3-trinethyl-5-oxo-pyrrolidin-1-yloxy) pentanoic acid;

3-benziloksikarbonilamino-5-(l,3-diokso-oktahidro-izoindol-2-iloksi)-4-oksopentanojsko kislino;3-Benzyloxycarbonylamino-5- (1,3-dioxo-octahydro-isoindol-2-yloxy) -4-oxopentanoic acid;

3-benziloksikarbonilamino-5-(l,3-diokso-l,3-dihidro-izoindol-2-iloksi)-4-oksopentanojsko kislino;3-Benzyloxycarbonylamino-5- (1,3-dioxo-1,3-dihydro-isoindol-2-yloxy) -4-oxopentanoic acid;

3-benziloksikarbonilamino-5-[3-(4-bromo-fenil)-2,5-diokso-2,5-dihidro-pirol-liloksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- [3- (4-bromo-phenyl) -2,5-dioxo-2,5-dihydro-pyrrol-lyloxy] -4-oxo-pentanoic acid;

3- benziloksikarbonilamino-5-(3,5-diokso-4-aza-triciklo[5.2.1.02,6]dec-8-en-4-iloksi)4- okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (3,5-dioxo-4-aza-tricyclo [5.2.1.0 2,6 ] dec-8-en-4-yloxy) 4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(2,4-diokso-3-aza-spiro[5.5]undec-3-iloksi)-4-oksopentanojsko kislino;3-Benzyloxycarbonylamino-5- (2,4-dioxo-3-aza-spiro [5.5] undec-3-yloxy) -4-oxopentanoic acid;

5- (2-bifenil-4-il-5-okso-pirolidin-l-iloksi)-4-okso-3-(2-propenil-penta-2,4dieniloksikarbonil amino)-pentanojsko kislino;5- (2-Biphenyl-4-yl-5-oxo-pyrrolidin-1-yloxy) -4-oxo-3- (2-propenyl-penta-2,4-dienyloxycarbonyl amino) -pentanoic acid;

5-benzoilaminooksi-3-benziloksikarbonilamino-4-okso-pentanojsko kislino;5-Benzoylaminooxy-3-benzyloxycarbonylamino-4-oxo-pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-(3-fenil-propionil-aniinooksi)-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5- (3-phenyl-propionyl-aninoxy) -pentanoic acid;

3-benziloksikarbonilamino-5-(2-naftalen-l-il-acetil-aminooksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (2-naphthalen-1-yl-acetyl-aminooxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(3-naftalen-l-il-propionilaminooksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (3-naphthalen-1-yl-propionylaminooxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[metil-(3-feml-propionil)-aminooksi]-4-oksopentanojsko kislino;3-Benzyloxycarbonylamino-5- [methyl- (3-phenyl-propionyl) -aminoxy] -4-oxopentanoic acid;

5-(benzoil-metil-aminooksi)-3-benziloksikarbonilamino-4-okso-pentanojsko kislino; 3-benziloksikarbonilamino-5-[metil-(3-naftalen-l-il-propionil)-aminooksi]-4-oksopentanojsko kislino;5- (Benzoyl-methyl-aminooxy) -3-benzyloxycarbonylamino-4-oxo-pentanoic acid; 3-Benzyloxycarbonylamino-5- [methyl- (3-naphthalen-1-yl-propionyl) -aminoxy] -4-oxopentanoic acid;

3-benziloksikarbonilamino-5-[metil-(naftalen-l-il-acetil)-aminooksi]-4-oksopentanojsko kislino;3-Benzyloxycarbonylamino-5- [methyl- (naphthalen-1-yl-acetyl) -aminoxy] -4-oxopentanoic acid;

3-benziloksikarbonilamino-5-[benzil-(3-fenil-propioml)-aminooksi]-4-oksopentanojsko kislino;3-Benzyloxycarbonylamino-5- [benzyl- (3-phenyl-propionyl) -aminoxy] -4-oxopentanoic acid;

5-[benzil-(3 -naftalen-1 -il-propionil)-aminooksi]-3 -benziloksikarbonilamino-4-21 pentanojsko kislino;5- [Benzyl- (3-naphthalen-1-yl-propionyl) -aminoxy] -3-benzyloxycarbonylamino-4-21 pentanoic acid;

5-(3-benzil-2-okso-pirolidin-l-iloksi)-4-okso-3-(2-propenil-penta-2,4dieniloksikarbonilaminoj-pentanojsko kislino;5- (3-Benzyl-2-oxo-pyrrolidin-1-yloxy) -4-oxo-3- (2-propenyl-penta-2,4-dienyloxycarbonylamino-pentanoic acid;

5-(3-metil-2-okso-pirolidin-l-iloksi)-4-okso-3-(2-propenil-penta-2,4dieniloksikarbonilamino)-pentanoj sko kislino;5- (3-Methyl-2-oxo-pyrrolidin-1-yloxy) -4-oxo-3- (2-propenyl-penta-2,4-dienyloxycarbonylamino) -pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-[metil-(fenilacetil)-aminooksi]-pentanojsko kislino ali3-Benzyloxycarbonylamino-4-oxo-5- [methyl- (phenylacetyl) -aminoxy] -pentanoic acid or

3-benziloksikarbonilamino-4-okso-5-( 1-okso-l,3-dihidro-izoindol-2-iloksi)pentanojsko kislino.3-Benzyloxycarbonylamino-4-oxo-5- (1-oxo-1,3-dihydro-isoindol-2-yloxy) pentanoic acid.

Hidroksamatne ICE inhibitorje, kot so opisani zgoraj, lahko npr. pripravimo, kot je opisano v Primeru 12.Hydroxamate ICE inhibitors as described above may e.g. prepared as described in Example 12.

Še nadaljnji tipi ICE inhibitorjev, ki jih lahko uporabimo v smislu izuma, vključujejo aspartatne estrske inhibitorje, vključno spojine s formulo IX:Still further types of ICE inhibitors that can be used according to the invention include aspartate ester inhibitors, including compounds of formula IX:

IX kjer je R1 R3OC(O)-,IX where R 1 R 3 is OC (O) -,

R3CO-, r3so2-,R 3 CO-, r 3 are 2 -,

R5N(Ra)CHR6CO-,R 5 N (R a ) CHR 6 CO-,

ΟΟ

ο ·νη2 οο · νη 2 ο

ιιιι

C οC ο

ο —cο —c

ιιιι

C οC ο

ιιιι

Ο vsak Ra je neodvisno vodik, Ci-Cč-alkil ali -(CH2)n-aril; R2 je-(CRR)„-aril,R each R a is independently hydrogen, C 1 -C 6 alkyl or - (CH 2 ) n -aryl; R 2 is - (CRR) '- aryl,

-(CRR)„-X-aril,- (CRR) '- X-aryl,

-(CRR)n-heteroaril,- (CRR) n- heteroaryl,

-(CRR)n-X-heteroaril,- (CRR) n -X-heteroaryl,

-(CRR)n-(substituiran heteroaril), -(CRR)n-(substituiran aril), -(CRR)n-X-(substituiran aril),- (CRR) n - (substituted heteroaryl), - (CRR) n - (substituted aryl), - (CRR) n -X- (substituted aryl),

-(CRR)n-aril-aril,- (CRR) n -aryl-aryl,

-(CRR)n-aril-heteroaril,- (CRR) n- aryl-heteroaryl,

-(CRR)n-aril-(CH2)n-aril,- (CRR) n- aryl- (CH 2 ) n -aryl,

-(CRR)„-CH(aril)2,- (CRR) '- CH (aryl) 2 ,

-(CRR)„-cikloalkil,- (CRR) '- cycloalkyl,

-(CRR)n-X-cikloalkil,- (CRR) n -X-cycloalkyl,

-(CRR)n-heterocikel,- (CRR) n -heterocycle,

-(CRR)n-X-heterocikel,- (CRR) n -X-heterocycle,

-(CRR)n-substituiran heterocikel,- (CRR) n-substituted heterocycle,

-(CRR)-CH /CH;,) —aril (CH2)n—aril.- (CRR) -CH / CH;) -aryl (CH 2) n -aryl .

— substituiran aril- substituted aryl

-(CRR) — CH (CH^-aril- (CRR) - CH (CH ^ -aryl

O (CRR)-NO (CRR) -N

,(ch2)/, (ch 2 ) /

-(CRR)-CH — heteroaril (CH2)—,- (CRR) -CH - heteroaryl ( CH 2) -,

OOh

OOh

N—S—[aril ali substituiran aril) , 'II ON-S- [aryl or substituted aryl), 'II O

HH

N—CO(CH2)—[ aril ali substituiran aril) O νΛ N-CO (CH 2 ) - [aryl or substituted aryl) O ν Λ

N- aru f N- aru f

a „γΚ°(εΗ2)ηΗτΐι —(CRR)—Na „γΚ ° (εΗ 2 ) η Ητΐι - (CRR) —N

- (CRR)nCH- (CRR) n CH

alior

vsak Rje neodvisno vodik, Ci-C6-alkil, halogen ali hidroksi; Xje O ali S;each R is independently hydrogen, Ci-C 6 -alkyl, halogen or hydroxy; X is O or S;

R3 je Ci-Cfi-alkil, aril, heteroaril,R 3 is C 1 -C 6 alkyl, aryl, heteroaryl,

-(CHR)n-aril,- (CHR) n -aryl,

-(CHR)n-heteroaril,- (CHR) n -heteroaryl,

-(CHR)n-substituiran heteroaril,- (CHR) n -substituted heteroaryl,

-(CHR)n-substituiran aril,- (CHR) n -substituted aryl,

-(CRR)nC(O)ORa,- (CRR) n C (O) ORa,

-(CRR)nS(CH2)n-aril, cikloalkil, substituiran cikloalkil, heterocikel, substituiran heterocikel,- (CRR) n S (CH 2 ) n -aryl, cycloalkyl, substituted cycloalkyl, heterocycle, substituted heterocycle,

-(CRR)nC(O)NRaRa,- (CRR) n C (O) NR a R a ,

-(CRR)n-SO2-(CH2)„-aril,- (CRR) n -SO 2 - (CH 2 ) '- aryl,

-(CRR)n-SO2-CrC6-alkil,- (CRR) n -SO 2 -C r C 6 -alkyl,

J-CH2C(Ra)H-,J-CH 2 C (R a ) H-,

-CHR6C(O)-heteroaril,-CHR 6 C (O) -heteroaryl,

-(CRR)nS(CH2)„C(O)ORa,- (CRR) n S (CH 2 ) „C (O) OR a ,

-(CRR)n-SO2-(CH2)nC(O)ORa,- (CRR) n -SO 2 - (CH 2 ) n C (O) OR a ,

-(CRR)nS(CH2)n-aril,- (CRR) n S (CH 2 ) n -aryl,

-(CRR)n-SO2-(CH2)n-aril,- (CRR) n -SO 2 - (CH 2 ) n -aryl,

-(CRR)nSC(O)CrC6-alkil,- (CRR) n SC (O) C r C 6 -alkyl,

-(CRR)nS(O)(CH2)n-aril,- (CRR) n S (O) (CH 2 ) n -aryl,

-(CRR)nS(O)(CH2)nCO2Ra,- (CRR) n S (O) (CH 2 ) n CO 2 R a ,

-(CH2)nNHC(O)CrC6-alkil- (CH 2 ) n NHC (O) C r C 6 -alkyl

-(CH2)nC(O)NRbRb.- (CH 2 ) n C (O) NR b R b .

O RO R

ΛV(CH2)„" V (CH 2 )"

ο ιι aril —Sο ιι aryl —S

OOh

IIII

I'^jrC_<CRR,“ ali ^rilI '^ jr C_ <CRR, ' or ^ ril

0=S=0 I 0 N. 11 vsak Rje neodvisno Ci-C6-alkil, Ci-Cg-alkilaril, aril ali vodik;O = S = O I 0 N. 11 each R is independently C 1 -C 6 alkyl, C 1 -C 8 alkylaryl, aryl or hydrogen;

vsak J je neodvisno -CO2Rb,each J is independently -CO 2 R b ,

-CONRbRb,-CONR b R b ,

-SO2NRbRb ali -SO2Rb;-SO 2 NR b R b or -SO 2 R b ;

vsak Rb je neodvisno vodik, Ci-C6-alkil, aril, substituiran aril; arilalkil, heteroarilalkil, substituiran arilalkil ali substituiran heteroarilalkil;each R b is independently hydrogen, C 1 -C 6 -alkyl, aryl, substituted aryl; arylalkyl, heteroarylalkyl, substituted arylalkyl or substituted heteroarylalkyl;

R4 je vodik,R 4 is hydrogen,

Cj-Ce-alkil,C1-C6-alkyl,

CH3OC(O)-,CH 3 OC (O) -,

-fenil ali-phenyl or

CrC6-alkil C(O)-;C r C 6 -alkyl C (O) -;

R5 je Ci-C6-alkil-CO-,R 5 is C 1 -C 6 -alkyl-CO-,

-(CH2)n-aril,- (CH 2 ) n -aryl,

CrC6-alkil-OC(O)-,C r C 6 -alkyl-OC (O) -,

Ci-C6-alkil-X-(CH2)nCO,Ci-C 6 -alkyl-X- (CH 2) n CO,

C1-C6-alkil-X-(CH2)nOC(O)-,C 1 -C 6 -alkyl-X- (CH 2 ) n OC (O) -,

-C(O)(CRR)„-aril,-C (O) (CRR) '- aryl,

-C(O)NRaRa,-C (O) NR a R a ,

-SO2-Ci-C6-alkil,-SO 2 -C 1 -C 6 alkyl,

-C(O)(CH2)nC(O)NRaRa,-C (O) (CH 2 ) n C (O) NR a R a ,

-C(O)O(CH2)n-aril,-C (O) O (CH 2 ) n -aryl,

-C(O)O(CH2)n-substituiran aril,-C (O) O (CH 2 ) n -substituted aryl,

-C(O)(CRR)nNHC(O)O(CH2)n-aril,-C (O) (CRR) n NHC (O) O (CH 2 ) n -aryl,

-(CH2)nX(CH2)n-aril, -Ci-C6-alkil-X-Ci-C6-alkil aril ali- (CH 2 ) n X (CH 2 ) n -aryl, -C 1 -C 6 alkyl-X-C 1 -C 6 alkyl aryl, or

0 00 0

II II UII II U

-C-CH-NHC-CH-NHCCJ-C6 alkil-C-CH-NHC-CH-NHCCJ-C6 alkyl

I I (CH2)n CH2-heteroaril III (CH 2) n CH 2 - heteroaryl I

CO2Ra CO 2 R a

R5ajeR 5a is

C(O)CrC6-alkil,C (O) C r C 6 -alkyl,

-C(O)OC,-C6-alkil,-C (O) OC, -C 6 -alkyl,

Ο Ο β ηΟ Ο β η

-C-CH-NHCCi-C6 alkil (CH2)n aril ali substituiran aril,-C-CH-NHCCI-C 6 alkyl (CH 2 ) n aryl or substituted aryl,

C(O)O(CH2)„-aril,C (O) O (CH 2 ) '- aryl,

C(O)(CH2)n-aril ali O 0C (O) (CH 2 ) n -aryl or O 0

I! IIAnd! II

CCHNHCCi-C<5 alkil ICCHNHCCl-C5 alkyl I

CH2 heteroarilCH 2 heteroaryl

R6 je vodik,R 6 is hydrogen,

Ci-C6-alkil, -(CH2)„-aril, -(CH2)nCO2Ra, s hidroksilom substituiran Ci-C6-alkil ali z imidazolom substituiran Ci-C6-alkil;C 1 -C 6 alkyl, - (CH 2 ) '- aryl, - (CH 2 ) n CO 2 R a , hydroxyl substituted C 1 -C 6 alkyl or imidazole substituted C 1 -C 6 alkyl;

vsak n je neodvisno 0 do 3, in njihove farmacevtsko sprejemljive soli, estre, amide in predzdravila.each n is independently 0 to 3, and their pharmaceutically acceptable salts, esters, amides and prodrugs.

V eni izvedbi spojin s formulo IX je R1 fenil-CH2-OC(O)-.In one embodiment of the compounds of formula IX, R 1 is phenyl-CH 2 -OC (O) -.

V drugi izvedbi spojin s formulo IX je R1 fenil-SO2-.In another embodiment of the compounds of formula IX, R 1 is phenyl-SO 2 -.

V drugi izvedbi spojin s formulo IX je R1 CH3-OC(O)-.In another embodiment of the compounds of formula IX, R 1 is CH 3 -OC (O) -.

V drugi izvedbi spojin s formulo IX je R1 fenil-CH2CH2-CO-.In another embodiment of the compounds of formula IX, R 1 is phenyl-CH 2 CH 2 -CO-.

V drugi izvedbi spojin s formulo IX je R1 In another embodiment of the compounds of formula IX, R 1 is

V drugi izvedbi spojin s formulo IX je R1 In another embodiment of the compounds of formula IX, R 1 is

V drugi izvedbi spojin s formulo IX je R1 fenil-CH2-CO-.In another embodiment of the compounds of formula IX, R 1 is phenyl-CH 2 -CO-.

V drugi izvedbi spojin s formulo IX je R1 In another embodiment of the compounds of formula IX, R 1 is

V drugi izvedbi spojin s formulo IX je vsak Ra vodik.In another embodiment of the compounds of formula IX, each R a is hydrogen.

V drugi izvedbi spojin s formulo IX je R2 -(CH2)n-fenil.In another embodiment of the compounds of formula IX, R 2 is - (CH 2 ) n -phenyl.

V eni izvedbi spojin s formulo IX je R2 -(CH2)n-naftil.In one embodiment of the compounds of formula IX, R 2 is - (CH 2 ) n- naphthyl.

V drugi izvedbi spojin s formulo IX je R2 -(CH2)n-O-fenil.In another embodiment of the compounds of formula IX, R 2 is - (CH 2 ) n -O-phenyl.

V drugi izvedbi spojni s formulo IX je R2 -(CH2)n-O-naftil.In another embodiment, the compound of formula IX is R 2 - (CH 2 ) n -O-naphthyl.

V drugi izvedbi spojin s formulo IX je R -(CH2)n-S-fenil. ·In another embodiment of the compounds of formula IX, R is - (CH 2 ) n -S-phenyl. ·

V drugi izvedbi spojin s formulo IX je R2 -(CH2)n-CH-(fenil)2.In another embodiment of the compounds of formula IX, R 2 is - (CH 2 ) n -CH- (phenyl) 2 .

V drugi izvedbi spojin s formulo IX je vsak Ra vodik; R1 je benziloksikarbonil; R2 je aril-X(CRR)n-, aril-(CRR)n-, heteroaril-(CRR)n- ali cikloalkil-(CRR)n-; nje 1, 2 ali 3; Xje O ali S; in Rje vodik, metil ali benzil.In another embodiment of the compounds of formula IX, each R a is hydrogen; R 1 is benzyloxycarbonyl; R 2 is aryl-X (CRR) n -, aryl- (CRR) n -, heteroaryl- (CRR) n - or cycloalkyl- (CRR) n -; n is 1, 2 or 3; X is O or S; and R is hydrogen, methyl or benzyl.

V drugi izvedbi spojin s formulo IX je vsak Ra vodik;In another embodiment of the compounds of formula IX, each R a is hydrogen;

R1 je benziloksikarbonil in R2 je-(CH2)n-naftil,R 1 is benzyloxycarbonyl and R 2 is- (CH 2 ) n- naphthyl,

-(CH2)„-fenil,- (CH 2 ) '- phenyl,

-(CH2)n-cikloalkil,- (CH 2 ) n -cycloalkyl,

-(CH2)nO(CH2)n-naftil,- (CH 2 ) n O (CH 2 ) n- naphthyl,

-(CH2)„O(CH2)n-fenil ali -(CH2)nS(CH2)n-fenil.- (CH 2 ) 'O (CH 2 ) n -phenyl or - (CH 2 ) n S (CH 2 ) n -phenyl.

V drugi izvedbi spojin s formulo IX je vsak Ra vodik; R1 je benziloksikarbonil in R2 je -CFk-naftil.In another embodiment of the compounds of formula IX, each R a is hydrogen; R 1 is benzyloxycarbonyl and R 2 is -CFk-naphthyl.

V drugi izvedbi spojin s formulo IX je vsak Ra vodik; R2 je benziloksikarbonil,In another embodiment of the compounds of formula IX, each R a is hydrogen; R 2 is benzyloxycarbonyl,

OOh

OOh

II —c—CH—NHC—CHNHC-CHNHCC,-C<alkil,II-c-CH-NHC-CHNHC-CHNHCC, -C <alkyl,

I \ .I \.

CH^CH3 CH2CH2CO2H CH2heteroaril —C—CH—NHC—CHNHC CHNHCC,-Cz-alkil,CH ^ CH 3 CH 2 CH 2 CO 2 H CH 2 heteroaryl- C-CH-NHC-CHNHC CHNHCC, -C 2 -alkyl,

I \ , I pu arn ΊI \, I pu arn Ί

CH3 ch3 CH2CH2CO2H 2CH 3 ch 3 CH 2 CH 2 CO 2 H 2

-C-CH-CH2-S-aril ali I ch3 o o-C-CH-CH2-S-aryl or I ch 3 oo

II IIII II

-C-CHCH2-S-aril.-C-CHCH 2 -S-aryl.

I II ch3 oI II ch 3 o

Druge aspartatne estrske ICE inhibitorske spojine, ki jih lahko uporabimo v smislu izuma, vključujejo spojine s formulo X:Other aspartate ester ICE inhibitor compounds that can be used according to the invention include compounds of formula X:

/CO0H r 2 O/ CO 0 H r 2 O

OOh

X kjer je R1 X where R is 1

-C(O)OCH2-fenil,-C (O) OCH 2 -phenyl,

-SO2-fenil,-SO 2 -phenyl,

-C(O)OCH3,-C (O) OCH 3 ,

C(O)CH2CH2-fenil,C (O) CH 2 CH 2 -phenyl,

O O i «O O i «

Č-CHNHCCH3, ch3 Č-CHNHCCH3, ch 3

-C(O)CH2-tienil,-C (O) CH 2 -thienyl,

-C(O)CrC6-alkil,-C (O) C r C 6 -alkyl,

-(CH2)3-fenil,- (CH 2 ) 3 -phenyl,

OOh

C —C—CH-NHCOCH2 fenil h3c xch3 0 0C-C-CH-NHCOCH 2 phenyl h 3 c x ch 3 0 0

-CCH-NHS-CH3,-CCH-NHS-CH3,

I II ch3 oI II ch 3 o

000 II II II000 II II II

-C-CH-NH-C-CH-NHCCH3, ch3 (ch2)2 fenil-C-CH-NH-C-CH-NHCCH3, ch 3 (ch 2 ) 2 phenyl

00

-C-CH-NHCCH3, ch2 ch3 -C-CH-NHCCH3, ch 2 ch 3

0 00 0

D II IID II II

-CCHNHC(CH2)3CNH2 ch3 -CCHNHC (CH 2 ) 3CNH 2 ch 3

Ο ΟΟ Ο

II IIII II

C-CHCH2S-fenil,C-CHCH 2 S-phenyl,

I βI β

CH3 0CH 3 0

ΟΟ

-C-CH-NHCNH2, ch3 ο ιι-C-CH-NHCNH 2 , ch 3 ο ιι

C—CHi ι -ο.C — CHi ι -ο.

-CCH-C- tienil,-CCH-C- thienyl,

I ch3 ο οI ch 3 ο ο

II βII β

-c-chch2-s-ch3 -c-chch 2 -s-ch 3

I i ch3 ο ο οI i ch 3 ο ο ο

II βII β

-C(CH2)2CNH2, ο ο-C (CH 2 ) 2CNH 2 , ο ο

II IIII II

-C(CH2)3CNH2,-C (CH 2 ) 3 CNH 2 ,

Ο ΟΟ Ο

II III I

-cchch2cnh2, ch3 -cchch 2 cnh 2 , ch 3

-S(CH2)nSCH3,-S (CH 2 ) n SCH 3 ,

U II o o o oIn II o o o o

-cchch2sch3} ch3 o-cchch 2 sch 3} ch 3 o

-CCHNHC-CHNHCOCHnfenil,-CCHNHC-CHNHCOCHnphenyl,

I II 2 ch3 o o o —C—CH—NHCOCH, fenilI II 2 ch 3 ooo-C-CH-NHCOCH, phenyl

ΛΛ

H3Cz xCH3 fenilH 3 C with x CH 3 phenyl

O=S=O 0 0 ΛO = S = O 0 0 Λ

II II N —cch2ch2c—/ \II II N —ch 2 ch 2 c— / \

0 00 0

II II IIII II II

C-CH-NHC-CHNHCCH3,C-CH-NHC-CHNHCCH 3 ,

CH3 (CH2)2CH 3 (CH 2 ) 2

II

C02H χC0 2 H χ

Č-CH—N N- fenilN-CH-N N-phenyl

I V_7 CH,I V_7 CH,

IIII

IIII

-CCH-SCH2 fenil,-CCH-SCH 2 phenyl,

I ch3 oI ch 3 o

II •c0II • c0

XX

CH-N N- fenilCH-N N-phenyl

U ,U,

CHCH

IIII

-cO-cO

IIII

OOh

IIII

CH—NHC— CH-NHCOCH/enil h3cCH-NHC-CH-NHCOCH / enyl h 3 c

CH, (CH2)2 co2hCH, (CH 2 ) 2 co 2 h

OOh

II oII o

IIII

OOh

II —C—CH—NHC—CH—NHCCHNHCCH, h3c ch3 II — C — CH — NHC — CH — NHCCHNHCCH, h 3 c ch 3

IIII

OHOH

OOh

II —cII —c

cnh46cnh46

ΟΟ

-C-CH-NHC(CH2)2 fenil, I-C-CH-NHC (CH 2 ) 2 phenyl, I

CH3 CH 3

OOh

IIII

-c•CH—NHC—CH 1 xch2ch3 -c • CH — NHC — CH 1 x ch 2 ch 3

CH,CH,

OOh

IIII

-cO-cO

IIII

OOh

IIII

CH—NHC— CH —NHCCHNHCCH, h3cCH — NHC— CH —NHCCHNHCCH, h 3 c

CH,CH,

O OO O

II IIII II

-C—CH—NHCCH, (CH2)2 CH2 CO2H imidazoil h3c-C-CH-NHCCH, (CH 2 ) 2 CH 2 CO 2 H imidazoyl h 3 c

OHOH

O OO O

II IIII II

-CCHCH2CNH(CH2)2 fenil, I ch3 o-CCHCH 2 CNH (CH 2 ) 2 phenyl, I ch 3 o

II oII o

IIII

OOh

IIII

C—CH—NHC—CH—NHCCHNHCCHh3cC — CH — NHC — CH — NHCCHNHCCHh 3 c

CH,CH,

OHOH

ΒΒ

CCH-CH2-S-fenil,CCH-CH 2 -S-phenyl,

I ch3 o oI ch 3 oo

BB

CCHCH2-S-fenil,CCHCH 2 -S-phenyl,

I B ch3 oIB ch 3 o

IIII

C-CHCH2-S-(CH2)2 fenil,C-CHCH 2 -S- (CH 2 ) 2 phenyl,

I ch3 o oI ch 3 oo

II IIII II

-C-CH-CH2-S(CH2)2 fenil,-C-CH-CH 2 -S (CH 2 ) 2 phenyl,

I II ch3 o oI II ch 3 oo

IIII

-C-CHCH2SCH2 fenil,-C-CHCH 2 SCH 2 phenyl,

I ch3 I ch 3

O OO O

II UII U

-C-CH-CH2-S(CH2)2 fenil,-C-CH-CH 2 -S (CH 2 ) 2 phenyl,

I II ch3 o o o » III II ch 3 ooo »II

-C-CH—SCH2 fenil,-C-CH-SCH 2 phenyl,

I II ch3 o o o —C—CH—NHCCH9CH9 fenilI II ch 3 ooo-C-CH-NHCCH 9 CH 9 phenyl

ΛΛ

Η3σΥΗ3 Η 3 σΥΗ 3

-S-CHCH2SCH3,-S-CHCH 2 SCH 3 ,

II I II o ch3 oII I II o ch 3 o

O oO o

II IIII II

-cchch2scch3, ch3 o-cchch 2 scch 3 , ch 3 o

IIII

-cchch2co2h,-cchch 2 co 2 h,

I ch3 I ch 3

IIII

-CCHCH2S-(CH2)3- fenil,-CCHCH 2 S- (CH 2 ) 3 - phenyl,

I ch3 o oI ch 3 oo

II II :C-CH-CH2S-(CH2)3 fenil, ' I II ch3 oII II: C-CH-CH 2 S- (CH 2 ) 3 phenyl, 'I II ch 3 o

C-CH-CH2S(CH2)2 CO2H, ch3 C-CH-CH 2 S (CH 2) 2 CO 2 H, ch 3

O OO O

II IIII II

C-CHCH2S(CH2)2CO2H aliC-CHCH2S (CH2) 2CO 2 H or

I II ch3 o oI II ch 3 oo

-CCHCH2S-(CH2)2CO2H in-CCHCH 2 S- (CH 2 ) 2CO 2 H in

I II ch3 oI II ch 3 o

R2jeR 2 is

-CH2CH2-fenil,-CH 2 CH 2 -phenyl,

-CH2-naftil,-CH 2 -naphthyl,

-CH2CH2-cikloheksil,-CH 2 CH 2 -cyclohexyl,

-CH2O-naftil,-CH 2 O-naphthyl,

-CH2O-fenil,-CH 2 O-phenyl,

-CH2S-fenil,-CH 2 S-phenyl,

-CH2-substituiran naftil,-CH 2 -substituted naphthyl,

-CH2CH(fenil)2,-CH 2 CH (phenyl) 2 ,

-CH2-imidazol,-CH 2 -imidazole,

-(CH2)3-fenil,- (CH 2 ) 3 -phenyl,

-C(CH3)H-naftil,-C (CH 3 ) H-naphthyl,

-CH[CH2-fenil]2,-CH [CH 2 -phenyl] 2 ,

-C(OH)H-naftil,-C (OH) H-naphthyl,

-CH2-NH-fenil, /-CH 2 -NH-phenyl, /

- CH9—CH 4 \- CH 9 - CH 4 \

CH2 substituiran fenil naftilCH 2 substituted phenyl naphthyl

-CH2-naftil-fenil,-CH 2 -naphthyl-phenyl,

-CH2-fluorenil,-CH 2 -fluorenyl,

-CH2-naftil-tienil,-CH 2 -naphthyl-thienyl,

Ο II ,N-S— substituiran fenil, 0Ο II, N-S - substituted phenyl, 0

OOh

II ,N—COCH2 fenil,II, N-COCH2 phenyl,

-CH2-benzofuranil, -CH2-benzotienil, -CH2-naftil-CH2-fenil, -CH2-substituiran fenil,-CH 2 -benzofuranyl, -CH 2 -benzothienyl, -CH 2 -naphthyl-CH 2 -phenyl, -CH 2 -substituted phenyl,

-CH2- substituiran indolil,-CH2- substituted indolyl,

OOh

C— fenilC- phenyl

OOh

COCHo 1 2 fenilCOCHO 1 2 phenyl

Z — CH9—CH z \ fenilZ - CH 9 - CH z \ phenyl

CH2 fenil fenilCH 2 phenyl phenyl

ZZ

vsak n je neodvisno O do 3, in njihove farmacevtsko sprejemljive soli, estre, amide in predzdravila.each n is independently O to 3, and pharmaceutically acceptable salts, esters, amides and prodrugs thereof.

Prednostne aspartat estrske ICE inhibitorske spojine vključujejo:Preferred aspartate ester ICE inhibitor compounds include:

3-benziloksikarbonilamino-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino; 3-benziloksikarbonilamino-4-okso-5-(3-fenil-propioniloksi)-pentanojsko kislino; 3-benziloksikarbonilamino-5-(3-cikloheksil-propioniloksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; 3-Benzyloxycarbonylamino-4-oxo-5- (3-phenyl-propionyloxy) -pentanoic acid; 3-Benzyloxycarbonylamino-5- (3-cyclohexyl-propionyloxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(naftalen-l-il-oksi)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(naphthalen-1-yl-oxy) -acetoxy] -4-oxo-pentanoic acid;

-benziloksikarbonilamino-4-okso-5-fenoksiacetoksi-pentanoj sko kislino; 3-beziloksikarbonilamino-4-okso-5-fenilsulfanilacetoksi-pentanojsko kislino; 3-benziloksikarbonilamino-5[(6-metoksi-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;-benzyloxycarbonylamino-4-oxo-5-phenoxyacetoxy-pentanoic acid; 3-bezyloxycarbonylamino-4-oxo-5-phenylsulfanylacetoxy-pentanoic acid; 3-Benzyloxycarbonylamino-5 [(6-methoxy-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(nafitalen-2-il-acetoksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (naphthalen-2-yl-acetoxy) -4-oxo-pentanoic acid;

3-benziloksikarbomlamino-5-(3-naftalen-2-il-propioniloksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (3-naphthalen-2-yl-propionyloxy) -4-oxo-pentanoic acid;

-benziloksikarbonilamino-5-(3,3 -difenil-propioniloksi)-4-okso-pentanojsko kislino; 3-benziloksikarbonilamino-5-[(lH-indol-3-il)-acetoksi]-4-okso-pentanojsko kislino;-benzyloxycarbonylamino-5- (3,3-diphenyl-propionyloxy) -4-oxo-pentanoic acid; 3-Benzyloxycarbonylamino-5 - [(1H-indol-3-yl) -acetoxy] -4-oxo-pentanoic acid;

-benziloksikarbonilamino-5-(indol-1 -il-acetoksi)-4-okso-pentanoj sko kislino;-benzyloxycarbonylamino-5- (indol-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-benzilksikarbonilamino-5-(2-naftalen-l-il-propiomloksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (2-naphthalen-1-yl-propiomyloxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-[(2-okso-pirolidin-l-il)-acetoksi]-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5 - [(2-oxo-pyrrolidin-1-yl) -acetoxy] -pentanoic acid;

5-[(acetil-fenil-amino)-acetoksi]-3-benziloksikarbonil-amino-4-okso-pentanojsko kislino;5 - [(acetyl-phenyl-amino) -acetoxy] -3-benzyloxycarbonyl-amino-4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(2-benzil-3-fenil-propioniloksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (2-benzyl-3-phenyl-propionyloxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(hidroksi-naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (hydroxy-naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-[(fenil-amino)-acetoksi]-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5 - [(phenyl-amino) -acetoxy] -pentanoic acid;

3-benziloksikarbonilamino-5-[(6-hidroksi-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(6-hydroxy-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[3-(4-hidroksi-fenil)-2-naftalen-l-il-propioniloksi)-4okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- [3- (4-hydroxy-phenyl) -2-naphthalen-1-yl-propionyloxy) -4-oxo-pentanoic acid;

(S)-3-benziloksikarbonilamino-4-okso-5-fenilacetoksi-pentanojsko kislino; (S)-3-benziloksikarbonilamino-4-okso-5-(4-fenil-butiriloksi)-pentanojsko kislino; 3-benziloksikarbonilamino-4-okso-5-[(4-fenil-naftalen-l-il)-acetoksi]-pentanojsko kislino;(S) -3-Benzyloxycarbonylamino-4-oxo-5-phenylacetoxy-pentanoic acid; (S) -3-Benzyloxycarbonylamino-4-oxo-5- (4-phenyl-butyryloxy) -pentanoic acid; 3-Benzyloxycarbonylamino-4-oxo-5 - [(4-phenyl-naphthalen-1-yl) -acetoxy] -pentanoic acid;

3-benziloksikarbonilamino-5-[(4-metil-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(4-methyl-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-[(4-tiofen-2-il-naftalen-l-il)-acetoksi]pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5 - [(4-thiophen-2-yl-naphthalen-1-yl) -acetoxy] pentanoic acid;

3-benziloksikarbonilamino-5-[(4-fluoro-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(4-fluoro-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(2-metil-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(2-methyl-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(2-fluoiO-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(2-fluoro-N-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

5-(benzofuran-4-il-acetoksi)-3-benziloksikarbonilamino-4-okso-pentanojsko kislino;5- (Benzofuran-4-yl-acetoxy) -3-benzyloxycarbonylamino-4-oxo-pentanoic acid;

5-(benzo[b]tiofen-7-il-acetoksi)-3-benziloksikarbonilamino-4-okso-pentanojsko kislino;5- (Benzo [b] thiophen-7-yl-acetoxy) -3-benzyloxycarbonylamino-4-oxo-pentanoic acid;

5-(benzo[b]tiofen-4-il-acetoksi)-3-beiLzilokstkarbonilamino-4-okso-pentanojsko kislino;5- (Benzo [b] thiophen-4-yl-acetoxy) -3-benzyloxycarbonylamino-4-oxo-pentanoic acid;

5-[(4-benzil-naftalen-l-il)-acetoksi]-3-benziloksikarbonilarnino-4-okso-pentanojsko kislino;5 - [(4-Benzyl-naphthalen-1-yl) -acetoxy] -3-benzyloxycarbonylarnino-4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(3,4-dLhidro-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(3,4-dihydro-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(5-bromo-lH-indol-3-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(5-bromo-1H-indol-3-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-(3,4-difenil-butiriloksi)-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5- (3,4-diphenyl-butyryloxy) -4-oxo-pentanoic acid;

-benziloksikarbonilamino-4-okso-5-(3 -fenil-3 -fenilamino-propioniloksi)-pentanoj sko kislino;-benzyloxycarbonylamino-4-oxo-5- (3-phenyl-3-phenylamino-propionyloxy) -pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-[(l,2,3,4-tetrahidro-naftalen-2-il)-acetoksi]pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5 - [(1,2,3,4-tetrahydro-naphthalen-2-yl) -acetoxy] pentanoic acid;

3-benziloksikarbonilammo-5-[(l-metansulfonil-piperidm-4-il)-acetoksi]-4-oksopentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(1-methanesulfonyl-piperidin-4-yl) -acetoxy] -4-oxopentanoic acid;

3-benziloksikarbonilamino-4-okso-5-[(273,5,6-tetrametil-fenil)-acetoksi]-pentanojsko kislino;3-benzyloxycarbonylamino-4-oxo-5 - [(2 7 3,5,6-tetramethyl-phenyl) acetoxy] -pentanoic acid;

5-(benzotiazol-4-il-acetoksi)-3-benziloksikarbonilamino-4-okso-pentanojsko kislino;5- (Benzothiazol-4-yl-acetoxy) -3-benzyloxycarbonylamino-4-oxo-pentanoic acid;

5-(benzofuran-3-il-acetoksi)-3-benziloksikarbonilammo-4-okso-pentanojsko kislino;5- (Benzofuran-3-yl-acetoxy) -3-benzyloxycarbonylamino-4-oxo-pentanoic acid;

5-(benzo[b]tiofen-3-il-acetoksi)-3-benziloksikarbonilamino-4-okso-pentanojsko kislino;5- (Benzo [b] thiophen-3-yl-acetoxy) -3-benzyloxycarbonylamino-4-oxo-pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-(3-fenil-3-piridin-2-il-propioniloksi)-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5- (3-phenyl-3-pyridin-2-yl-propionyloxy) -pentanoic acid;

3-benziloksikarbonilamino-5-[(2,3-dikloro-fenil)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(2,3-dichloro-phenyl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(5-metil-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(5-methyl-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(2-jodo-fenil)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(2-iodo-phenyl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-(3-piridin-3-il-propioniloksi)-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5- (3-pyridin-3-yl-propionyloxy) -pentanoic acid;

3-benziloksikarbonilamino-5-[(5-metoksi-nafitalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(5-methoxy-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(8-metil-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(8-methyl-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(9H-fluoren-9-il)-acetoksi]-4-okso-pentanojsko kislino; 3-benziloksikarbonilamino-5-[(10Jll-dihidro-5H-dibenzo[a,d]ciklohepten-5-il)acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(9H-fluoren-9-yl) -acetoxy] -4-oxo-pentanoic acid; 3-benzyloxycarbonylamino-5 - [(10 J-dihydro-5H-dibenzo [a, d] cyclohepten-5-yl) acetoxy] -4-oxo-pentanoic acid;

5-okso- l-(toluen-4-sulfonil)-pbolidin-2-karboksibia kislina3-benziloksikarbonilamino-4-karboksi-2-okso-butil ester;5-Oxo-1- (toluene-4-sulfonyl) -pbolidine-2-carboxylic acid 3-benzyloxycarbonylamino-4-carboxy-2-oxo-butyl ester;

5-okso-pirolidin-l,2-dikarboksilna kislina 1-benzil ester 2-(3benziloksikarbonilamino-4-karboksi-2-okso-butil)-ester;5-Oxo-pyrrolidine-1,2-dicarboxylic acid 1-benzyl ester 2- (3-benzyloxycarbonylamino-4-carboxy-2-oxo-butyl) -ester;

-benzoil-pirolidin-2-karboksilna kislina 3 -benziloksikarbonilamino-4-karboksi-2okso-butil ester;-benzoyl-pyrrolidine-2-carboxylic acid 3-benzyloxycarbonylamino-4-carboxy-2-oxo-butyl ester;

pirolidin-l,2-dikarboksilna kislina 1-benzil ester 2-(3-benziloksikarbonilamino-4karboksi-2-okso-butil)ester;pyrrolidine-1,2-dicarboxylic acid 1-benzyl ester 2- (3-benzyloxycarbonylamino-4carboxy-2-oxo-butyl) ester;

3-benziloksikarbonilamino-5-(2-benzil-3-fenil-propioniloksi)-4-okso-pentanoj sko kislino;3-Benzyloxycarbonylamino-5- (2-benzyl-3-phenyl-propionyloxy) -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-5-[(5-ciano-naftalen-l-il)-acetoksi]-4-okso-pentanojsko kislino;3-Benzyloxycarbonylamino-5 - [(5-cyano-naphthalen-1-yl) -acetoxy] -4-oxo-pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-(3-fenil-3-pnidin-3-il-propioniloksi)-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5- (3-phenyl-3-pyridin-3-yl-propionyloxy) -pentanoic acid;

3-benziloksikarbonilamino-4-okso-5-(3-fenil-3-piridin-4-il-propioniloksi)-pentanojsko kislino; in3-Benzyloxycarbonylamino-4-oxo-5- (3-phenyl-3-pyridin-4-yl-propionyloxy) -pentanoic acid; and

3-benziloksikarbonilamino-4-okso-5-[(l-okso-3,4-dihidro-lH-izokinolin-2-il)acetoksij-pentanojsko kislino;3-Benzyloxycarbonylamino-4-oxo-5 - [(1-oxo-3,4-dihydro-1H-isoquinolin-2-yl) acetoxy-pentanoic acid;

3-benzensulfonilainino-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino;3-Benzenesulfonylainino-5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

-metoksikarbonilamino-5-(naftalen-1 -il-acetoksi)-4-okso-pentanoj sko kislino; 5-(naftalen-l-il-acetoksi)-4-okso-3-(3-fenil-propionilamino)-pentanojsko kislino; 3-metoksikarbonilamino-4-okso-5-fenoksiacetoksi-pentanojsko kislino; in 3-(2-metansulfonil-1 -metil-etilsulfanilamino)-5-(naftalen-1 -il-acetoksi)-4-oksopentanojsko kislino;-methoxycarbonylamino-5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; 5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- (3-phenyl-propionylamino) -pentanoic acid; 3-methoxycarbonylamino-4-oxo-5-phenoxyacetoxy-pentanoic acid; and 3- (2-methanesulfonyl-1-methyl-ethylsulfanylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

[S-(R*,R*)]-3-(2-acetilamino-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;[S- (R *, R *)] - 3- (2-acetylamino-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

5-(naftalen-l-il-acetoksi)-4-okso-3-[(tiofen-3-karbonil)-amino]-pentojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3 - [(thiophene-3-carbonyl) -amino] -pentoic acid;

- [(furan-3 -karbonil)-amino]-5-(naftalen-1 -il-acetoksi)-4-okso-pentanoj sko kislino;- [(furan-3-carbonyl) -amino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

5-(naftalen-l-il-acetoksi)-4-okso-3-[2-(4-fenil-butirilamino)-propilamino]-pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- [2- (4-phenyl-butyrylamino) -propylamino] -pentanoic acid;

3-(2-metansulfonilamino-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2-Methanesulfonylamino-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-[2-(2-acetilamino-4-fenil-butirilamino)-propionilamino]-5-(naftalen-l-il-acetoksi)-4okso-pentanojsko kislino;3- [2- (2-Acetylamino-4-phenyl-butyrylamino) -propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(2-acetilamino-butirilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino; 3-[2-(4-karbamoil-butirilamino)-propionilamino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2-acetylamino-butyrylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; 3- [2- (4-Carbamoyl-butyrylamino) -propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(2-benziloksikarbonilamino-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2-Benzyloxycarbonylamino-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

5-(naftalen-1 -il-acetoksi)-4-okso-3 -(2-ureido-propionilamino)-pentanoj sko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- (2-ureido-propionylamino) -pentanoic acid;

3-(2-acetilamino-propionilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino;3- (2-acetylamino-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-[(l-acetil-pirolidm-2-karbonil)-ammo]-5-(naftalen-l-il-acetoksi)-4--oksopentanojsko kislino;3 - [(1-acetyl-pyrrolidine-2-carbonyl) -amino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(2-metil-3-okso-3-tiofen-2-il-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2-methyl-3-oxo-3-thiophen-2-yl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(2-acetilamino-acetilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino;3- (2-acetylamino-acetylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

-(2-acetilamino-propionilamino)-5-(3,3-difenil-propioniloksi)-4-okso-pentanoj sko kislino;- (2-acetylamino-propionylamino) -5- (3,3-diphenyl-propionyloxy) -4-oxo-pentanoic acid;

3-[2-(2-acetilanaino-4-karboksi-butirilamino)“propionilamino]-5-(naftalen-l-ilacetoksi)-4-okso-pentanojsko kislino;3- [2- (2-Acetylanoic-4-carboxy-butyrylamino) propionylamino] -5- (naphthalen-1-ylacetoxy) -4-oxo-pentanoic acid;

5-(naftalen-l-il-acetoksi)-4-okso-3-[2-(3-fenil-propionilamino)-propionilamino]pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- [2- (3-phenyl-propionylamino) -propionylamino] pentanoic acid;

3-[2-(3-metil-butirilamino)-propionilamino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- [2- (3-Methyl-butyrylamino) -propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-[(l-acetil-4-benziloksi-pirolidm-2-karbonil)-amino]-5-(naftalen-l-il-acetoksi)-4okso-pentanojsko kislino;3 - [(1-acetyl-4-benzyloxy-pyrrolidine-2-carbonyl) -amino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(4-karbamoil-butirilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino; in 3-[2-(l-metil-lH-imidazol-4-il)-acetilamino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (4-Carbamoyl-butyrylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; and 3- [2- (1-methyl-1H-imidazol-4-yl) -acetylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

(S)-5-(naftalen-l-il-acetoksi)-4-okso-3-fenilacetilamino-pentanojsko kislino; (S)-5-(naftalen-l-il-acetoksi)-4-okso-3-(2-tiofen-2-il-acetilamino)-pentanojsko kislino; 3-[(2-karbamoil-ciklopentankarbonil)-aniino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;(S) -5- (Naphthalen-1-yl-acetoxy) -4-oxo-3-phenylacetylamino-pentanoic acid; (S) -5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- (2-thiophen-2-yl-acetylamino) -pentanoic acid; 3 - [(2-Carbamoyl-cyclopentanecarbonyl) -anino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-[(3-karbamoil-biciklo[2.2.1]heptan-2-karbonil)-amino]-5-(naftalen-l-il-acetoksi)-4okso-pentanojsko kislino;3 - [(3-Carbamoyl-bicyclo [2.2.1] heptane-2-carbonyl) -amino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(3-metansulfonil-2-metil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (3-Methanesulfonyl-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(3-benzensulfonil-2-metil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (3-Benzenesulfonyl-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

-butirilammo-5-(naftalen-2-il-acetoksi)-4-okso-pentanoj sko kislino;-butyrylamino-5- (naphthalen-2-yl-acetoxy) -4-oxo-pentanoic acid;

3-acetilamino-5-(naftalen- l-il-acetoksi)-4-okso-pentanojsko kislino;3-acetylamino-5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(3-metansulfonil-2-metil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (3-Methanesulfonyl-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(3-metil-butirilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino; 3-(3-karbamoil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino; [S-(R ,R )]-3-(3-acetilsulfanil-2-metil-propionilamino)-5-(naftalen- l-il-acetoksi)-4okso-pentanojsko kislino; in /ra«5-3-[(3-karbamoil-ciklopentankarbonil)-amino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino3- (3-methyl-butyrylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; 3- (3-Carbamoyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; [S- (R, R)] -3- (3-acetylsulfanyl-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; and N &apos; 5-3 - [(3-Carbamoyl-cyclopentanecarbonyl) -amino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid

3-( 1,2,3,4-tetrahidro-1 -okso-izokinolin-2-il)-acetamino-5-(naftalen- l-il-acetoksi)-4okso-pentanojsko kislino;3- (1,2,3,4-tetrahydro-1-oxo-isoquinolin-2-yl) -acetamino-5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(2-metil-3-fenetilkarbamoil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2-methyl-3-phenethylcarbamoyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

5-(naftalen-2-il-acetoksi)-4-okso-3-[2-(2-okso-6-fenil-piperidin-l-il)-acetilamino]pentanojsko kislino;5- (Naphthalen-2-yl-acetoxy) -4-oxo-3- [2- (2-oxo-6-phenyl-piperidin-1-yl) -acetylamino] pentanoic acid;

5-(naftalen-l-il-acetoksi)-4-okso-3-[2-(2-okso-6-fenil-piperidin-l-il)-acetilamino]pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- [2- (2-oxo-6-phenyl-piperidin-1-yl) -acetylamino] pentanoic acid;

3-[3-metil-2-(3-fenil-propionilamino)-butirilamino]-4-okso-5-[(l-okso-l, 2,3,4tetrahidro-nafitalen-2-il)-acetoksi]-pentanojsko kislino; 5-(naftalen-2-il-acetoksi)-4-okso-3-[2-(l-okso-3,4-dihidro-lH-izokinolin-2-il)acetilaminoj-pentanojsko kislino;3- [3-methyl-2- (3-phenyl-propionylamino) -butyrylamino] -4-oxo-5 - [(1-oxo-1,2,3,4tetrahydro-naphthalen-2-yl) -acetoxy] - pentanoic acid; 5- (Naphthalen-2-yl-acetoxy) -4-oxo-3- [2- (1-oxo-3,4-dihydro-1H-isoquinolin-2-yl) acetylamino-pentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-4-okso-3-[2-(l-okso-3,4-dihidro-lH-izokinolin-2il)-acetilamino]-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -4-oxo-3- [2- (1-oxo-3,4-dihydro-1H-isoquinolin-2yl) -acetylamino] -pentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-4-okso-3-[2-(2-okso-6-fenil-piperidin-l-il)acetil amin o]-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -4-oxo-3- [2- (2-oxo-6-phenyl-piperidin-1-yl) acetylamino] -pentanoic acid;

5-(naftalen-l-il-acetoksi)-4-okso-3-[2-(l-okso-l,2,3,4-tetrahidro-naftalen-2-il)acetilamino]-pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- [2- (1-oxo-1,2,3,4-tetrahydro-naphthalen-2-yl) acetylamino] -pentanoic acid;

5-(naftalen-l-il-acetoksi)-4-okso-3-[2-(l-okso-3,4-dihidro-lH-izokinolin-2-il)propiomlaminoj-pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- [2- (1-oxo-3,4-dihydro-1H-isoquinolin-2-yl) propiolaminic-pentanoic acid;

5-(naftalen-2-il-acetoksi)-4-okso-3-[2-( 1 -okso-3,4-dihidro-1 H-izokinolin-2-il)propionilaminoj-petanojsko kislino;5- (Naphthalen-2-yl-acetoxy) -4-oxo-3- [2- (1-oxo-3,4-dihydro-1H-isoquinolin-2-yl) propionylamino-petanoic acid;

3- [4-( 1-benzensulfonil- lH-pirol-2-il)-4-okso-butirilamino]-5-(naftalen-1 -il-acetoksi)4- okso-pentanojsko kislino;3- [4- (1-Benzenesulfonyl-1H-pyrrol-2-yl) -4-oxo-butyrylamino] -5- (naphthalen-1-yl-acetoxy) 4-oxo-pentanoic acid;

5- (2-benzil-3-fenil-propioniloksi)-4-okso-3-[2-(l-okso-l,2,3,4-tetrahidronaftalen-2-il)acetilaminoj-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -4-oxo-3- [2- (1-oxo-1,2,3,4-tetrahydronaphthalen-2-yl) acetylamino-pentanoic acid;

5-(2-benzil-3 -fenil-propioniloksi)-4-okso-3 -[2-( 1 -okso-3,4-dihidro-1 H-izokinolin-2il)-propionilamino]-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -4-oxo-3- [2- (1-oxo-3,4-dihydro-1H-isoquinolin-2yl) -propionylamino] -pentanoic acid;

4-okso-3-[2-( 1 -okso-3,4-dihidro-1 H-izokmolin-2-il)-propionilamino]-5-[( 1 -oksol,2,3,4-tetrahidro-naftalen-2-il)-acetoksi]-pentanojsko kislino;4-oxo-3- [2- (1-oxo-3,4-dihydro-1H-isoquinolin-2-yl) -propionylamino] -5 - [(1-oxole, 2,3,4-tetrahydro-naphthalene) -2-yl) -acetoxy] -pentanoic acid;

-[4-( 1 -benzensulfonil-1 H-pirol-2-il)-4-okso-butirilamino]-5-(2-benzil-3 -fenilpropioniloksi)-4-okso-pentanoj sko kislino;- [4- (1-Benzenesulfonyl-1H-pyrrol-2-yl) -4-oxo-butyrylamino] -5- (2-benzyl-3-phenylpropionyloxy) -4-oxo-pentanoic acid;

4- okso-5-[(l-okso-l, 2,3,4-tetrahidro-naftalen-2-il)-acetoksi]-3-[2-(l-okso-l, 2,3,4tetrahidro-naftalen-2-il)-acetilamino]-pentanojsko kislino;4- oxo-5 - [(1-oxo-1,2,3,4-tetrahydro-naphthalen-2-yl) -acetoxy] -3- [2- (1-oxo-1,2,3,4tetrahydro- Naphthalen-2-yl) -acetylamino] -pentanoic acid;

5- (naftalen-l-il-acetoksi)-4-okso-3-[2-(2-okso-3-fenil-imidazolidin-l-il)propionilamino]-pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- [2- (2-oxo-3-phenyl-imidazolidin-1-yl) propionylamino] -pentanoic acid;

5-(naftalen-1 -il-acetoksi)-4-okso-3 - [2-(2-okso-3 -fenil-tetrahidropirimidin-1 -il)propioiiilamino]-pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- [2- (2-oxo-3-phenyl-tetrahydropyrimidin-1-yl) propioylamino] -pentanoic acid;

5-(naftalen-l-il-acetoksi)-4-okso-3-[2-(2-okso-3-fenil-tetrahidropirimidin-l-il)acetilamino]-pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- [2- (2-oxo-3-phenyl-tetrahydropyrimidin-1-yl) acetylamino] -pentanoic acid;

-(2-acetilamino-3 -metilbutirilamino)-5-(naftalen-1 -il-acetoksi)-4-okso-pentanoj sko kislino;- (2-acetylamino-3-methylbutyrylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(2-acetilamino-3-metil-butirilamino)-5-(2-benzil-3-fenilpropioniloksi)-4-oksopentanojsko kislino;3- (2-acetylamino-3-methyl-butyrylamino) -5- (2-benzyl-3-phenylpropionyloxy) -4-oxopentanoic acid;

3-(2-acetilammo-3-metilbutirilamino)-5-(3-benzil-4-fenilbutiriloksi)-4-oksopentanojsko kislino;3- (2-acetylamino-3-methylbutyrylamino) -5- (3-benzyl-4-phenylbutyryloxy) -4-oxopentanoic acid;

3-(2-acetilamino-3-metil-butirilaimno)-5-(4-benzil-5-fenil-pentanoiloksi)-4-oksopentanojsko kislino;3- (2-acetylamino-3-methyl-butyrylamino) -5- (4-benzyl-5-phenyl-pentanoyloxy) -4-oxopentanoic acid;

3-(2-acetilamino-3-metil-butirilamino)-4-okso-5-[(l-okso-l,2,3,4-tetrahidro-naftalen3- (2-acetylamino-3-methyl-butyrylamino) -4-oxo-5 - [(1-oxo-1,2,3,4-tetrahydro-naphthalene)

2- il)-acetoksi]-pentanoj sko kislino;2-yl) -acetoxy] -pentanoic acid;

5-(3-benzil-4-fenil-butiriloksi)-3-[3-metil-2-(3-fenil-propionilamino)-butirilamino]-4 okso-pentanojsko kislino;5- (3-Benzyl-4-phenyl-butyryloxy) -3- [3-methyl-2- (3-phenyl-propionylamino) -butyrylamino] -4-oxo-pentanoic acid;

3- [2-(3-acetilamino-2-okso-2H-piridin-l-il)-acetilamino]-5-(3,3-difenilpropioniloksi)-4-okso-pentanojsko kislino; in3- [2- (3-acetylamino-2-oxo-2H-pyridin-1-yl) -acetylamino] -5- (3,3-diphenylpropionyloxy) -4-oxo-pentanoic acid; and

3-[2-(3-acetilamino-2-okso-2H-piridin-l-il)-acetilamino]-5-(2-benzil-3-fenilpropioniloksi)-4-okso-pentanojsko kislino;3- [2- (3-acetylamino-2-oxo-2H-pyridin-1-yl) -acetylamino] -5- (2-benzyl-3-phenylpropionyloxy) -4-oxo-pentanoic acid;

3-[2-(2-benziloksikarbonilamino-4-karboksi-butirilamino)-3-metil-butirilaniino]-5(naftalen- l-il-acetoksi)-4-okso-pentanojsko kislino;3- [2- (2-Benzyloxycarbonylamino-4-carboxy-butyrylamino) -3-methyl-butyrylanilino] -5 (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-[2-(2-benziloksikarbonilamino-3-metil-butirilaniino)-propionilamino]-5-(naftalen-l· il-acetoksi)-4-okso-pentanojsko kislino;3- [2- (2-Benzyloxycarbonylamino-3-methyl-butyrylanilino) -propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(2-acetilamino-3-metil-butirilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino;3- (2-acetylamino-3-methyl-butyrylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-[2-(2-benziloksikarbonilamino-3-metil-butirilamino)-propiomlaniino]-5-(3,3-difenil propioniloksi)-4-okso-pentanoj sko kislino;3- [2- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -propionylamino] -5- (3,3-diphenyl propionyloxy) -4-oxo-pentanoic acid;

3-[2-(2-benziloksikarbonilamino-3-metil-butirilamino)-piOpionilamino]-5-(2-benzil-3· fenil-propioniloksi)-4-okso-pentanoj sko kislino;3- [2- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -pyropionylamino] -5- (2-benzyl-3 · phenyl-propionyloxy) -4-oxo-pentanoic acid;

3-[2-(2-benziloksikarbonilamino-3-metil-butirilamino)-propionilamino]-5-(naftalen-lil-acetoksi)-4-okso-pentanojsko kislino;3- [2- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

5-(2-benzil-3 -fenil-propioniloksi)-3 - { 2- [4-karboksi-2-(3 -fenil-propionilamino)butirilaniino]-3-metil-butirilamino } -4-okso-pentanoj sko kislino; 3-(2-benziloksikarbonilamino-3-metil-butirilamino)-5-(3,3-difenil-propiomloksi)-4okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- {2- [4-carboxy-2- (3-phenyl-propionylamino) butyrylanilino] -3-methyl-butyrylamino} -4-oxo-pentanoic acid ; 3- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -5- (3,3-diphenyl-propiomyloxy) -4-oxo-pentanoic acid;

-(2-acetilamino-3 -hidroksi-butirilamino)-5-(naftalen-1 -il-acetoksi)-4-oksopentanojsko kislino;- (2-acetylamino-3-hydroxy-butyrylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(2-acetilamino-3-hidroksi-butirilamino)-5-(3,3-difenil-propioniloksi)-4-oksopentanojsko kislino;3- (2-acetylamino-3-hydroxy-butyrylamino) -5- (3,3-diphenyl-propionyloxy) -4-oxopentanoic acid;

3-(2-{2-[2-acetilamino-3-(lH-indol-3-il)-proponilamino]-4-karboksi-butirilan]ino}-3metil-butirilaniino)-5-(2-benzil-3-feml-piOpioniloksi)-4-okso-pentanojsko kislino; in 5-(3,3-difenil-propioniloksi)-4-okso-3-[2-(4-fenil-butirilamino)-proponilamino]pentanojsko kislino;3- (2- {2- [2-acetylamino-3- (1H-indol-3-yl) -proponylamino] -4-carboxy-butyrylane ]ino} -3methyl-butyrylanilino) -5- (2-benzyl-3 -phenyl-pyrroloxy) -4-oxo-pentanoic acid; and 5- (3,3-diphenyl-propionyloxy) -4-oxo-3- [2- (4-phenyl-butyrylamino) -proponylamino] pentanoic acid;

3-(2-( 2-[2-acetilamino-3-( 1 H-indol-3 -il)-proponilamino]-4-karboksi-butirilamino }-3metil-butirilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino; in 3-(2-( 2-[2-acetilamino-3 -(4-hidroksi-fenil)-proponilamino]-4-karboksi-butirilamino} 3-metil-butirilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino; 3-[(2-karboksi-cikloheksankarbonil)-amino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2- (2- [2-acetylamino-3- (1H-indol-3-yl) -proponylamino] -4-carboxy-butyrylamino} -3-methyl-butyrylamino) -5- (naphthalen-1-yl- acetoxy) -4-oxo-pentanoic acid; and 3- (2- (2- [2- [acetylamino-3- (4-hydroxy-phenyl) -proponylamino] -4-carboxy-butyrylamino} 3-methyl-butyrylamino) - 5- (Naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; 3 - [(2-carboxy-cyclohexanecarbonyl) -amino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-[(2-metoksikarbonil-cikloheksankarbonil)-amino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino; in3 - [(2-methoxycarbonyl-cyclohexanecarbonyl) -amino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid; and

3-[(2-karbamoil-cikloheksankarbonil)-amino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3 - [(2-Carbamoyl-cyclohexanecarbonyl) -amino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(3-benzilsulfanil-2-metil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (3-Benzylsulfanyl-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(2-metil-3-fenilmetansulfonil-propionilanimo)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2-methyl-3-phenylmethanesulfonyl-propionylanino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-[3-(2-karboksi-etansulfanil)-2-metil-propionilamino]-5-(naftalen-l-il-acetoksi)-4okso-pentanojsko kislino;3- [3- (2-Carboxy-ethanesulfanyl) -2-methyl-propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

5-(2-benzil-3 -fenil-propioniloksi)-3 - [3 -(2-karboksi-etansulfonil)-2-metilpropionilamino]-4-okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- [3- (2-carboxy-ethanesulfonyl) -2-methylpropionylamino] -4-oxo-pentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-[3-(3-karboksi-propan-l-sulfmil)-2-metilpropionilamino]-4-okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- [3- (3-carboxy-propane-1-sulfinyl) -2-methylpropionylamino] -4-oxo-pentanoic acid;

5-(naftalen-l-il-acetoksi)-4-okso-3-(2-fenilmetansulfanil-propionilamino)-pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- (2-phenylmethanesulfanyl-propionylamino) -pentanoic acid;

3-(2-metil-3-fenilsulfanil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2-methyl-3-phenylsulfanyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-(2-metil-3-fenilsulfanil-propionilamino)-4-oksopentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- (2-methyl-3-phenylsulfanyl-propionylamino) -4-oxopentanoic acid;

3-(2-metil-3-fenetilsulfanil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2-methyl-3-phenethylsulfanyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-(2-metil-3-fenetilsulfanil-propionilamino)-4-oksopentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- (2-methyl-3-phenethylsulfanyl-propionylamino) -4-oxopentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-(3-benzilsulfanil-2-metil-propionilamino)-4-oksopentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- (3-benzylsulfanyl-2-methyl-propionylamino) -4-oxopentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-(2-benzilsulfanil-propionilamino)-4-oksopentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- (2-benzylsulfanyl-propionylamino) -4-oxopentanoic acid;

3-[2-metil-3-(3-fenil-propilsulfanil)-propiomlamino]-5-(naftalen-l-il-acetoksi)-4okso-pentanojsko kislino;3- [2-methyl-3- (3-phenyl-propylsulfanyl) -propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(3-benzensulfonil-2-metil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (3-Benzenesulfonyl-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(3-benzensulfonil-2-metil-propionilamino)-5-(2-benzil-3-fenil-propioniloksi)-4okso-pentanojsko kislino;3- (3-Benzenesulfonyl-2-methyl-propionylamino) -5- (2-benzyl-3-phenyl-propionyloxy) -4-oxo-pentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-[2-metil-3-(2-fenil-etansulfbnil)-propionilamino]4- okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- [2-methyl-3- (2-phenyl-ethanesulfonyl) -propionylamino] 4- oxo-pentanoic acid;

3-[2-metil-3-(2-fenil-etansulfonil)-propionilamino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- [2-methyl-3- (2-phenyl-ethanesulfonyl) -propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

5- (naftalen-l-il-acetoksi)-4-okso-3-(2-fenilmetansulfonil-propionilamino)-pentanojsko kislino;5- (Naphthalen-1-yl-acetoxy) -4-oxo-3- (2-phenylmethanesulfonyl-propionylamino) -pentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-(2-metil-3-femlmetansulfonil-propionilamino)-4okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- (2-methyl-3-phenylmethanesulfonyl-propionylamino) -4-oxo-pentanoic acid;

5-(2-benzil-3-feml-propioniloksi)-4-okso-3-(2-fenilmetansulfonil-propionilamino)pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -4-oxo-3- (2-phenylmethanesulfonyl-propionylamino) pentanoic acid;

3-[2-metil-3-(3-fenil-propan-l-sulfonil)-propionilamino]-5-(naftalen-l-il-acetoksi)-4okso-pentanojsko kislino;3- [2-methyl-3- (3-phenyl-propane-1-sulfonyl) -propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-[2-metil-3-(3-fenil-propan-l-sulfonil)propionilamino]-4-okso-pentanoj sko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- [2-methyl-3- (3-phenyl-propane-1-sulfonyl) propionylamino] -4-oxo-pentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-[3-(2-karboksi-etilsulfanil)-2-metilpropionilamino]-4-okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- [3- (2-carboxy-ethylsulfanyl) -2-methylpropionylamino] -4-oxo-pentanoic acid;

3-[3-(3-karboksi-propilsulfanil)-2-metil-propionilamino]-5-(naftalen-l-il-acetoksi)-4okso-pentanojsko kislino;3- [3- (3-Carboxy-propylsulfanyl) -2-methyl-propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-[3-(3-karboksi-propilsufanil)-2-metilpropionilamino]-4-okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- [3- (3-carboxy-propylsulfanyl) -2-methylpropionylamino] -4-oxo-pentanoic acid;

3- (3-karboksimetilsulfanil-2-metil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (3-carboxymethylsulfanyl-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

5-(2-benzil-3-fenil-propioniloksi)-3-(3-karboksimetilsulfanil-2-metil-propionilamino)4- okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- (3-carboxymethylsulfanyl-2-methyl-propionylamino) 4- oxo-pentanoic acid;

3-[3-(2-karboksi-etansulfonil)-2-metil-propionilamino]-5-(nafalen-l-il-acetoksi)-4okso-pentanojsko kislino;3- [3- (2-Carboxy-ethanesulfonyl) -2-methyl-propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-[3-(3-karboksi-propan-1-sulfonil)-2-metil-propionilamino]-5-(naftalen-1-ilacetoksi)-4-okso-pentanojsko kislino;3- [3- (3-Carboxy-propane-1-sulfonyl) -2-methyl-propionylamino] -5- (naphthalen-1-ylacetoxy) -4-oxo-pentanoic acid;

3-(3-karboksrnietansulfonil-2-metil-propionilainino)-5-(nafialen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (3-carboxyethanesulfonyl-2-methyl-propionylainino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

5- (2-benzil-3-fenil-propioniloksi)-3-[3-(3-karboksi-propan-l-sulfonil)-2-metilpropionilamino]-4-okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- [3- (3-carboxy-propane-1-sulfonyl) -2-methylpropionylamino] -4-oxo-pentanoic acid;

5-(2-benzil-3-feml-propioniloksi)-3-(3-karboksimetansulfonil-2-metilpropionilamino)-4-okso-pentanojsko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- (3-carboxymethanesulfonyl-2-methylpropionylamino) -4-oxo-pentanoic acid;

3- [3-(3-karboksi-propan-l-sulfmil)-2-metil-propionilamino]-5-(nafitalen-l-il-acetoksi)3- [3- (3-Carboxy-propane-1-sulfinyl) -2-methyl-propionylamino] -5- (naphthalen-1-yl-acetoxy)

4- okso-pentanojsko kislino;4- oxo-pentanoic acid;

3-[2-metil-3-(3-fenil-propan-l-sulfmil)-propionilamino]-5-(naftalen-l-il-acetoksi)-4okso-pentanojsko kislino; in3- [2-methyl-3- (3-phenyl-propane-1-sulfinyl) -propionylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; and

5- (2-benzil-3 -fenil-propioniloksi)-3 - [2-metil-3 -(3 -fenil-propan-1 -sulfmil)propionilamino]-4-okso-pentanoj sko kislino;5- (2-Benzyl-3-phenyl-propionyloxy) -3- [2-methyl-3- (3-phenyl-propane-1-sulfonyl) propionylamino] -4-oxo-pentanoic acid;

3-[3-metil-2-(fenetilkarbamoil-metil)-butirilamino ]-5-(naftalen-l-il-acetoksi)-4-okso pentanojsko kislino; in3- [3-methyl-2- (phenethylcarbamoyl-methyl) -butyrylamino] -5- (naphthalen-1-yl-acetoxy) -4-oxo pentanoic acid; and

3-(3-karboksi-2-metil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino;3- (3-carboxy-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(2-metil-3-sulfamoil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino;3- (2-methyl-3-sulfamoyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(3-karbamoil-2-metil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino;3- (3-Carbamoyl-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

-(2-benziloksikarbonilamino-3 -metil-naftalen-1 -il-acetoksi)-4-okso-pentanoj sko kislino;- (2-Benzyloxycarbonylamino-3-methyl-naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-[(2-karbamoil-ciklopentankarbonil)-amino]-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3 - [(2-Carbamoyl-cyclopentanecarbonyl) -amino] -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-[(l-karbamoil-pirolidin-2-karbonil)-aminol-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3 - [(1-Carbamoyl-pyrrolidine-2-carbonyl) -aminol-5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(2-{2-[2-acetilamino-3-(4-hidroksi-fenil)-propionilamino]-4-karboksibutbilamino}3-metil-butirilamino)-5-(2-benzil-3-fenil-propioniloksi)-4-okso-pentanojsko kislino; 3-(3-karbamoil-2-metil-propionilamino)-5-(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino;3- (2- {2- [2-acetylamino-3- (4-hydroxy-phenyl) -propionylamino] -4-carboxybutylamino} 3-methyl-butyrylamino) -5- (2-benzyl-3-phenyl-propionyloxy) -4-Oxo-pentanoic acid; 3- (3-Carbamoyl-2-methyl-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid;

3-(2-karbamoilmetil-3-metil-butirilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (2-Carbamoylmethyl-3-methyl-butyrylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-(3-benziloksi-2-ureido-propionilamino)-5-(naftalen-l-il-acetoksi)-4-oksopentanojsko kislino;3- (3-Benzyloxy-2-ureido-propionylamino) -5- (naphthalen-1-yl-acetoxy) -4-oxopentanoic acid;

3-[2-(2-benziloksikarbomlamino-4-karboksi-butirilammo)-3-metil-butinlamino]-5-(2benzil-3-fenil-propioniloksi)-4-okso-pentanojsko kislino;3- [2- (2-Benzyloxycarbonylamino-4-carboxy-butyrylamino) -3-methyl-butynlamino] -5- (2-benzyl-3-phenyl-propionyloxy) -4-oxo-pentanoic acid;

- {2-[4-karboksi-2-(3 -fenil-propionilamino)-butirilamino]-3 -metil-butirilamino } -5(naftalen-l-il-acetoksi)-4-okso-pentanojsko kislino; in- {2- [4-carboxy-2- (3-phenyl-propionylamino) -butyrylamino] -3-methyl-butyrylamino} -5 (naphthalen-1-yl-acetoxy) -4-oxo-pentanoic acid; and

3-[2-(2-acetilammo-4-karboksi-butirilamino)-3-metil-butirilamino]-5-(naftalen-l-ilacetoksi)-4-okso-pentanoj sko kislino.3- [2- (2-Acetylamino-4-carboxy-butyrylamino) -3-methyl-butyrylamino] -5- (naphthalen-1-ylacetoxy) -4-oxo-pentanoic acid.

Zgoraj opisane aspartat estrske ICE inhibitorje lahko naredimo po spodnjih shemah 1 doli:The aspartate ester ICE inhibitors described above can be made according to Schemes 1 below:

Stopnja A rco2h, baza (KF ali K2CO3) DMFLevel A rco 2 h, base (KF or K 2 CO 3 ) DMF

3-benziloksikarbonilamino-5-bromo-4-okso-pentozojska kislina terc.butil ester, znan tudi kot Z-Asp(OtBu)-bromometil keton, lahko kupimo na tržišču ali pripravimo po postopku: Dolle et al., J. Med. Chem., 1994:37:563-564. Metilbromo keton obdelamo z ustrezno substituirano karboksilno kislino in bazo, kot npr. s kalijevim fluoridom. Alternativno bi lahko uporabili druge baze, kot npr. kalijev karbonat, cezijev karbonat ali kalijev t-butoksid. Reagente je treba zmešati v dimetil formamidu (DMF), dimetilacetamidu (DMA), dimetil sulfoksidu (DMSO), acetonitrilu ali drugem primernem topilu, nato pa jih mešamo pri sobni temperaturi 8 do 24 ur. t-butil estrsko zaščitno skupino lahko odstranimo v kislem mediju, prednostno trifluoroocetni kislini, da proizvedemo karbobenzoksi aspartil estre, prikazane na shemi 1.3-Benzyloxycarbonylamino-5-bromo-4-oxo-pentanoic acid tert-butyl ester, also known as Z-Asp (OtBu) -bromomethyl ketone, can be commercially available or prepared by the process of: Dolle et al., J. Med. Chem., 1994: 37: 563-564. The methyl bromo ketone is treated with a suitably substituted carboxylic acid and a base such as e.g. with potassium fluoride. Alternatively, other bases could be used, such as. potassium carbonate, cesium carbonate or potassium t-butoxide. The reagents should be mixed in dimethyl formamide (DMF), dimethylacetamide (DMA), dimethyl sulfoxide (DMSO), acetonitrile or other suitable solvent and then stirred at room temperature for 8 to 24 hours. The t-butyl ester protecting group may be removed in an acidic medium, preferably trifluoroacetic acid, to produce the carbobenzoxy aspartyl esters shown in Scheme 1.

bbbb

Shema 2Scheme 2

alior

ROCOCIROCOCI

Zmes ustrezno substituiranega aciloksimetil ketona karbobenzoksi aspartil t-butil estra hidrogeniramo z ekvivalentom klorovodikove ali druge kisline v prisotnosti katalizatorja, kot npr. paladija na aktivnem oglju, da dobimo aminsko sol. Sol lahko aciliramo z ustrezno substituiranim izocianatom, sulfonilkloridom, kloroformiatom ali fenil propionilkloridom, da dobimo N-substituirane derivate. Te izocianate, sulfonil kloride ali kloro formiate lahko kupimo na tržišču ali sintetiziramo z metodami, opisanimi v kemijski literaturi, t-butilestrsko zaščitno skupino lahko odstranimo v končni stopnji z uporabo kislega medija, prednostno trifluoroocetne kisline, da proizvedemo aciloksimetil ketonske derivate, prikazane na shemi 2.A mixture of the appropriately substituted acyloxymethyl ketone carbobenzoxy aspartyl t-butyl ester is hydrogenated with an equivalent of hydrochloric or other acid in the presence of a catalyst, such as e.g. palladium on charcoal to give amine salt. The salt may be acylated with suitably substituted isocyanate, sulfonyl chloride, chloroformate or phenyl propionyl chloride to give N-substituted derivatives. These isocyanates, sulfonyl chlorides or chloro formates can be commercially available or synthesized by methods described in the chemical literature, and the t-butyl ester protecting group can be ultimately eliminated using an acidic medium, preferably trifluoroacetic acid, to produce the acyloxymethyl ketone derivatives shown in the shemi derivatives 2.

Shema 3Scheme 3

Stopnja ALevel A

HCI · H2NHCI · H 2 N

CO2 1Bu pripojitveni reagent HOBT, bazaCO 2 1 Bu coupling reagent HOBT, base

Stopnja B cf3co2hLevel B cf 3 co 2 h

RR

Sintetiziramo aminsko sol aciloksimetil ketona Z-Asp(Ot-Bu)OH in obdelamo z ustrezno substituirano karboksilno kislino in pripojitvenim reagentom. Pripojitveni reagentni so lahko, vendar neomejujoče, npr.: 1,3-dicikloheksilkarbodiimid (DCC), 1(3-dimetilaminopropil)-3-etilkarbodiimid hidroklorid (EDCI), Ι,Γ-karbonildiimidazol (CDI), l,r-karbonilbis(3-metilimidazolijev)triflat (CBMIT), izobutilkloroformiat, benzotriazol-l-iloksitris(dimetilamino)-fosfonijev heksafluorofosfat (BOP), 2-(3,4dihidro-4-okso- l,2,3-benzotriazin-3-il)-1,1,3,3-tetrametiluronijev tetrafluoroborat (TDBTU) in 2-(lH-benzotriazol-l-il)-l, 1,3,3-tetrametiluronijev heksafluorofosfat (HBTU). 1-hidroksibenzotriazol hidrat je treba dodati reakcijski zmesi, da izboljšamo dobitek in omejimo izomerizacijo, bazo, prednostno amin, npr. kot trimetilamin ali metil morfolin, pa je treba dodati kot odstranjevalec kisline. Dobljeni amidni produkt obdelamo s kislim medijem, prednostno trifluoroocetno kislino, da odstranimo t-butil ester in proizvedemo končne produkte, kot je prikazano na shemi 3.The amine salt of acyloxymethyl ketone Z-Asp (Ot-Bu) OH is synthesized and treated with the appropriately substituted carboxylic acid and the coupling reagent. Coupling reagents may, but are not limited to, for example: 1,3-dicyclohexylcarbodiimide (DCC), 1 (3-dimethylaminopropyl) -3-ethylcarbodiimide hydrochloride (EDCI), Ι, Γ-carbonyldiimidazole (CDI), 1,1'-carbonylbis ( 3-methylimidazolium) triflate (CBMIT), isobutylchloroformate, benzotriazol-1-yloxytris (dimethylamino) -phosphonium hexafluorophosphate (BOP), 2- (3,4-dihydro-4-oxo-1,2,3-benzotriazin-3-yl) - 1,1,3,3-tetramethyluronium tetrafluoroborate (TDBTU) and 2- (1H-benzotriazol-1-yl) -1,3,3,3-tetramethyluronium hexafluorophosphate (HBTU). 1-Hydroxybenzotriazole hydrate should be added to the reaction mixture to improve yield and limit the isomerization, base, preferably amine, e.g. such as trimethylamine or methyl morpholine, however, should be added as an acid remover. The resulting amide product is treated with an acidic medium, preferably trifluoroacetic acid, to remove the t-butyl ester and produce the final products as shown in Scheme 3.

Stopnja ALevel A

ΖσΟΧ (X=C1,F) — -----—►ΖσΟΧ (X = C1, F) - -----— ►

Stopnja B cf3co9h --—►Level B cf 3 co 9 h --— ►

Sintetiziramo aminsko sol aciloksimetil ketona Cbz-Asp(OtBu)OH in obdelamo z ustrezno substituiranim kislinskim kloridom ali kislinskim fluoridom, da proizvedemo amidni produkt. Kislinske kloride kupimo na tržišču ali jih pripravimo z obdelovanjem karboksilnih kislin s sredstvi, kot npr. tionil kloridom, fosforjevim tribromidom ali oksalil kloridom/DMF. Kislinske fluoride pripravimo z obdelovanjem karboksilne kisline s fluoridom cianurjeve kisline. Predzadnji amidni produkt obdelamo s kislim medijem, prednostno trifluoroocetno kislino, da odstranimo t-butil ester ter dobimo končne produkte, kot je prikazano na shemi 4.The amine salt of acyloxymethyl ketone Cbz-Asp (OtBu) OH is synthesized and treated with appropriately substituted acid chloride or acid fluoride to produce the amide product. Acid chlorides are commercially available or prepared by treating carboxylic acids with agents such as e.g. thionyl chloride, phosphorus tribromide or oxalyl chloride / DMF. Acid fluorides are prepared by treating the carboxylic acid with cyanuric acid fluoride. The penultimate amide product is treated with an acidic medium, preferably trifluoroacetic acid, to remove the t-butyl ester to give the final products as shown in Scheme 4.

Shema 5Scheme 5

Stopnja ALevel A

1. idcc^H, pripojitveni reagent1. idcc ^ H, coupling reagent

------2. NaOH------ 2. NaOH

RR

Stopnja B Stopnja CLevel B Level C

Hidrokloridno sol H-Asp(OtBu)OMe obdelamo z ustrezno substituirano karboksilno kislino in pripojitvenim reagentom. 1-hidroksibenzotriazolni hidrat je treba dodati reakcijski zmesi, da izboljšamo dobitek in omejimo izomerizacijo, bazo, prednostno amin, kot npr. trimetilamin ali metilmorfolin, pa je treba dodati kot kislinski odstranjevalec. Dobljeni amidni produkt obdelamo z alkalnim reagentom, kot npr. natrijevim hidroksidom, da hidroliziramo metil ester v karboksilno kislino. Dobljeno kislino obdelamo s kloroformiatom, kot npr. izobutilkloroformiatom, nato pa z diazometanom in nato z bromovodikovo kislino, da dobimo metil bromo keton. Z obdelovanjem metilbromo ketona z ustrezno substituirano karboksilno kislino in bazo, kot npr. s kalijevim fluoridom proizvedemo želene aciloksimetil ketone, ki jih deprotektiramo s trifluoroocetno kislino, da dobimo končne spojine, kot je prikazano na shemi 5.The hydrochloride salt of H-Asp (OtBu) OMe is treated with the appropriately substituted carboxylic acid and the coupling reagent. 1-Hydroxybenzotriazole hydrate should be added to the reaction mixture to improve yield and limit the isomerization, base, preferably amine, such as e.g. trimethylamine or methylmorpholine, however, should be added as an acid scavenger. The resulting amide product is treated with an alkaline reagent such as e.g. sodium hydroxide to hydrolyze the methyl ester into the carboxylic acid. The resulting acid is treated with chloroformate, such as e.g. isobutyl chloroformate followed by diazomethane and then hydrobromic acid to give methyl bromo ketone. By treating methyl bromo ketone with a suitably substituted carboxylic acid and base such as e.g. potassium fluoride produces the desired acyloxymethyl ketones which are deprotected with trifluoroacetic acid to give the final compounds as shown in Scheme 5.

Shema 6Scheme 6

Stopnje A-D Stopnja ELevels A-D Level E

i. pripajanje Cbz-AA li. odstranjevanje Qby.i. annexation of Cbz-AA li. removing Qby.

iii. pripajanje Cbz-AA iv. etc.iii. annexation of Cbz-AA iv. etc.

tvorba bromo metil ketona '— --►formation of bromo methyl ketone '- --►

Stopnja FLevel F

RCO2H, KF. DMF --*RCO 2 H, KF. DMF - *

PP

Stopnja G odstranitev preostalih estrskih_ zaščitnih skupin = zaščitna skupinaLevel G removal of remaining ester_ protecting groups = protecting group

Hidrokloridno sol H-Asp(OtBu)OMe obdelamo z ustrezno zaščiteno amino kislino in pripojitvenim reagentom. 1-hidroksibenzotriazolni hidrat je treba dodati reakcijski zmesi, da izboljšamo dobitek in omejimo izomerizacijo, bazo, prednostno amin, kot npr. trimetilamin ali metil morfolin, pa je treba dodati kot kislinski odstranjevalec. Dobljeni amidni produkt obdelamo z alkalnim reagentom, kot npr. z natrijevim hidroksidom, da hidroliziramo metil ester v karboksilno kislino. Cbz-aminsko zaščitno skupino odstranimo z uporabo standardnih pogojev za katalitično hidrogeniranje, pripajanje druge zaščitene aminske kisline pa lahko izvedemo, kot je opisano zgoraj. Ta postopek ponavljamo, dokler peptid nima želene dolžine. Dobljeni peptidni produkt obdelamo z alkalnim reagentom, kot npr. z natrijevim hidroksidom, da hidroliziramo metil ester v karboksilno kislino. Dobljeno kislino nato obdelamo s kloroformiatom, kot npr. izobutilkloroformiatom, nato pa z diazometanom in nato z bromovodikovo kislino, da dobimo metilbromo keton. Z obdelovanjem metilbromo ketona z ustrezno substituirano karboksilno kislino in bazo, kot npr. s kalijevim fluoridom, proizvedemo želene aciloksimetil ketone, ki je deprotektiramo s trifluoroocetno kislino, da dobimo končne spojine, kot je opisano na shemi 6.The hydrochloride salt of H-Asp (OtBu) OMe is treated with an appropriately protected amino acid and a coupling reagent. 1-Hydroxybenzotriazole hydrate should be added to the reaction mixture to improve yield and limit the isomerization, base, preferably amine, such as e.g. trimethylamine or methyl morpholine, however, should be added as an acid scavenger. The resulting amide product is treated with an alkaline reagent such as e.g. with sodium hydroxide to hydrolyze the methyl ester into the carboxylic acid. The Cbz-amine protecting group is removed using standard conditions for catalytic hydrogenation, and coupling of another protected aminic acid can be carried out as described above. This procedure is repeated until the peptide has the desired length. The resulting peptide product is treated with an alkaline reagent such as e.g. with sodium hydroxide to hydrolyze the methyl ester into the carboxylic acid. The resulting acid is then treated with chloroformate, such as e.g. isobutyl chloroformate, followed by diazomethane and then hydrobromic acid to give methyl bromo ketone. By treating methyl bromo ketone with a suitably substituted carboxylic acid and base such as e.g. with potassium fluoride, the desired acyloxymethyl ketones are produced, which is deprotected with trifluoroacetic acid to give the final compounds as described in Scheme 6.

Shema 7Scheme 7

Stopnja ALevel A

H2,20% Pd/C -h2n-aaH 2 , 20% Pd / C -h 2 n-aa

pripojitveni reagentthe coupling reagent

Stopnja B rco2h,Level B rco 2 h,

Stopnja C cf3co2hLevel C cf 3 co 2 h

Sintetiziramo ustrezno substituiran aciloksimetil keton zaščitene amino kisline. Cbzaminsko zaščitno skupino odstranimo z uporabo standardnih pogojev za katalitično hidrogeniranje, aminski produkt pa obdelamo z ustrezno substituirano karboksilno kislino in pripojitvenim reagetom. 1-hidroksibenzotriazolni hidrat je treba dodati reakcijski zmesi, da izboljšamo dobitek in omejimo izomerizacijo, bazo, prednostno amin, kot npr. trimetilamin ali metil morfolin, pa je treba dodati kot kislinski odstranjevalec. Predzadnji amidni produkt obdelamo s kislim medijem, prednostno trifluoroocetno kislino, da odstranimo t-butil ester in dobimo končne produkte, kot je prikazano na shemi 7.The appropriately substituted acyloxymethyl ketone of the protected amino acid is synthesized. The cbzamine protecting group is removed using standard conditions for catalytic hydrogenation, and the amine product is treated with the appropriately substituted carboxylic acid and the coupling reagent. 1-Hydroxybenzotriazole hydrate should be added to the reaction mixture to improve yield and limit the isomerization, base, preferably amine, such as e.g. trimethylamine or methyl morpholine, however, should be added as an acid scavenger. The penultimate amide product is treated with an acidic medium, preferably trifluoroacetic acid, to remove the t-butyl ester to give the final products as shown in Scheme 7.

Shema 8Scheme 8

HCI·HCI ·

Anhidrid trans- 1,2-cikloheksandikarboksilne kisline obdelamo z aminsko soljo ustrezno substituiranega aciloksimetil ketona aspartil t-butil estra v prisotnosti piridina in 4-dimetilaminopiridina (DMAP), da dobimo amidni produkt. Karboksilno kislino lahko fimkcionaliziramo z ustrezno substituiranimi amini ali alkoholi in standardnimi pripojitvenimi reagenti, da dobimo amidne in estrske produkte. Predzadnji produkt obdelamo s kislim medijem, prednostno s trifluoroocetno kislino, da odstranimo t-butil ester in dobimo končne produkte, kot je prikazano na shemi 8.Trans-1,2-cyclohexanedicarboxylic acid anhydride is treated with the amine salt of the appropriately substituted acyloxymethyl ketone aspartyl t-butyl ester in the presence of pyridine and 4-dimethylaminopyridine (DMAP) to give the amide product. The carboxylic acid can be fimctionalized with appropriately substituted amines or alcohols and standard coupling reagents to give amide and ester products. The penultimate product is treated with an acid medium, preferably trifluoroacetic acid, to remove the t-butyl ester to give the final products as shown in Scheme 8.

Shema 9Scheme 9

MeMe

2. CF3CO7H2. CF 3 CO 7 H

I. oksidacijaI. oxidation

Metil metakrilat obdelamo z anionom ustrezno substituiranega sulfida, da dobimo Michaelov adukt, ki ga hidroliziramo v bazičnem mediju, kot npr. v natrijevem hidroksidu, da proizvedemo karboksilno kislino. To kislino združimo z aminsko soljo aciloksimetil ketona aspartil t-butil estra in pripojitvenim reagentom, da dobimo amidni produkt. Če je želeni produkt sulfid (kjer je n=0), potem ne uporabimo oksidacijske stopnje in amid t-butil ester deprotektiramo v kislem mediju, prednostno trifluoroocetni kislini, da dobimo končni produkt. Alternativno pa, kadar je končni produkt sulfoksid (n = 1) ali sulfon (n = 2), amidni intermediat obdelamo z oksidacijskim sredstvom, ki je lahko, vendar neomejujoče, m-kloroperbenzojska kislina, kalijev monoperoksisulfat ali natrijev perborat, da dobimo želeni oksidirani produkt, t-butil ester predzadnjega intermediata deprotektiramo v kislem mediju, prednostno trifluoroocetni kislini, da dobimo končne spojine, kot je prikazano na shemi 9.Methyl methacrylate is treated with the anion of the appropriately substituted sulfide to give a Michael adduct which is hydrolyzed in a basic medium, such as e.g. in sodium hydroxide to produce carboxylic acid. This acid is combined with the amine salt of acyloxymethyl ketone aspartyl t-butyl ester and the coupling reagent to give the amide product. If the desired product is sulfide (where n = 0) then no oxidation step is used and the t-butyl ester amide is deprotected in an acidic medium, preferably trifluoroacetic acid, to give the final product. Alternatively, when the end product is sulfoxide (n = 1) or sulfone (n = 2), the amide intermediate is treated with an oxidizing agent, which can be, but is not limited to, m-chloroperbenzoic acid, potassium monoperoxysulfate or sodium perborate to obtain the desired oxidized the product, the t-butyl ester of the penultimate intermediate, is deprotected in an acidic medium, preferably trifluoroacetic acid, to give the final compounds as shown in Scheme 9.

R.R.

Shema 10 0Anh i. n-BuLi.-78°C ^Jt^R, .Scheme 10 0 A nh i. n-BuLi.-78 ° C ^ Jt ^ R ,.

R ii. R,CH2COCl R ii. R, CH 2 COCl

H ° </,,·Ύ LiOH.H2O2. t H ° </ ,, · Ύ LiOH.H 2 O 2 . t

H ’ R X'CO2 tBu THFvoda H ' R X ' CO 2 t Bu THF ' water

HCI-H2N\^X ξύ oHCI-H 2 N \ ^ X ξ ύ o

‘BuO.'BuO.

NaN(SiMe3)2, -78°CNaN (SiMe 3 ) 2 , -78 ° C

-—---», ii. BrCH2CO2 lBu-—--- », ii. BrCH 2 CO 2 l Bu

R,R,

i. lBuO2Ci. l BuO 2 C

co2h pripojitveni reagent O Ji o o v Όco 2 h coupling reagent O Ji oov Ό

i.cf3co2hi.cf 3 co 2 h

1. PhSiH3,Pd(PPh3)4 1. PhSiH 3 , Pd (PPh 3 ) 4

2. tvorba bromo metil ketona2. Bromo methyl ketone formation

3. R9COoH, KF, DMF O fl3. R 9 CO o H, KF, DMF O fl

Ck ^PhCk ^ Ph

2. R3R2NH ali2. R 3 R 2 NH or

PhCH2ONH2.PhCH 2 ONH second

pripojitveni reagentthe coupling reagent

1. PhSiH3,Pd(PPh3)4 1. PhSiH 3 , Pd (PPh 3 ) 4

2. tvorba bromo metil ketona2. Bromo methyl ketone formation

3. R2CO2H, KF, DMF r3n3. R 2 CO 2 H, KF, DMF r 3 n

O »1 OO »1 O

O o lBuOO o l BuO

CL ^PhCL ^ Ph

H, cf3co2hH, cf 3 co 2 h

2. tvorba estra2. ester formation

3. Ho, 20% Pd/C3. H o , 20% Pd / C

O fl O o o co2hO fl O oo co 2 h

4-substituiran-2-oksozolidinonsko kiralno pomožno sredstvo, kot ga opisujejo Evans et al., J.Org. Chem,, 1985;50:1830 zmešamo z bazo, kot je npr., vendar neomejujoče, n-butil litij, nato pa obdelamo z ustrezno substituiranim kislinskim kloridom ali drugo aktivirano karboksilno kislino, da dobimo N-aciliran produkt. Produkt nato obdelamo z bazo, kot npr., vendar neomejujoče, z natrijevim bis(trimetilsilil)amidom in t-butil bromoacetatom, da proizvedemo alkiliran kiralni produkt. Kiralno pomožno sredstvo odstranimo z uporabo litijevega hidroksida in vodikovega peroksida, da dobimo kiralno kislino. Z obdelovanjem kisline z aminsko soljo H-Asp(OBz)O-alila in pripojitvenim reagentom dobimo sukcinil amidni produkt.A 4-substituted-2-oxosolidinone chiral auxiliary as described by Evans et al., J.Org. Chem ,, 1985; 50: 1830 is mixed with a base such as, but not limited to, n-butyl lithium, and then treated with the appropriately substituted acid chloride or other activated carboxylic acid to give the N-acylated product. The product is then treated with a base such as, but not limited to, sodium bis (trimethylsilyl) amide and t-butyl bromoacetate to produce an alkylated chiral product. The chiral auxiliary is removed using lithium hydroxide and hydrogen peroxide to give chiral acid. Treatment of the acid with the H-Asp (OBz) O-allyl amine salt and the coupling reagent yields the succinyl amide product.

V tej stopnji postopka lahko predelujemo produkt na enega od dveh načinov. Po prvem t-butil ester odstranimo v kislem mediju, prednostno trifluoroocetni kislini in dobljeno kislino spojimo z ustrezno substituiranim aminom v prisotnosti pripojitvenega reagenta, da tvorimo nov amidni produkt. Alil ester odstranimo s fenilsilanom in tetrakis(trifenil-fosfm)paladijem ali drugim katalizatorjem Pd(0), da dobimo karboksilno kislino, kislino pa pretvorimo v metilbromo keton in nato aciloksimetil keton. Predzadnji intermediat izpostavimo katalitičnemu hidrogeniranju, da odstranimo benzil ester in dobimo končne amidne produkte, kot je prikazano na shemi 10.At this stage of the process, we can process the product in one of two ways. After the first t-butyl ester is removed in an acidic medium, preferably trifluoroacetic acid, and the resulting acid is combined with a suitably substituted amine in the presence of a coupling reagent to form a new amide product. The allyl ester is removed with phenylsilane and tetrakis (triphenylphosphine) palladium or other catalyst Pd (0) to give carboxylic acid and the acid is converted to methyl bromo ketone and then acyloxymethyl ketone. The penultimate intermediate is subjected to catalytic hydrogenation to remove the benzyl ester to give the final amide products, as shown in Scheme 10.

Alternativno pa pri drugem načinu za končne produkte odstranimo alil ester z uporabo fenilsilana in tetrakistetrakis(trifenilfosfm)paladija ali drugega katalizatorja Pd(0), da dobimo karboksilno kislino. To kislino pretvorimo v metilbromo keton in nato aciloksimetil keton. Z odstranitvijo t-butil estra aciloksimetil ketona s trifluorokislo kislino in nato pretvorbo dobljene karboksilne kisline v ester dobimo nov estrski produkt. Esterifikacijo lahko izvedemo z uporabo različnih literatumih tehnik, ki vključujejo, vendar neomejujoče, obdelovanje karboksilne kisline z ustrezno substituiranim alkoholom v prisotnosti pripojitvenega reagenta. Predzadnji intermediat izpostavimo katalitičnemu hidrogeniranju, da odstranimo benzil ester in dobimo končne estrske produkte, kot je prikazano na shemi 10.Alternatively, in the second end product method, the allyl ester is removed using phenylsilane and tetrakistetrakis (triphenylphosphine) palladium or another Pd (0) catalyst to give the carboxylic acid. This acid is converted to methyl bromo ketone and then acyloxymethyl ketone. Removal of the acyloxymethyl ketone t-butyl ester with trifluoroacetic acid and then conversion of the resulting carboxylic acid to ester gives a new ester product. The esterification can be carried out using various literatum techniques, which include, but are not limited to, treatment of the carboxylic acid with the appropriately substituted alcohol in the presence of a coupling reagent. The penultimate intermediate is subjected to catalytic hydrogenation to remove the benzyl ester to give the final ester products as shown in Scheme 10.

Shema 11 > crScheme 11> cr

O*_ ,θO * _, θ

RiRi

CO2CH2PhCO 2 CH 2 Ph

Rj l.PhCH2Br,Rj l.PhCH 2 Br,

DBUDBU

Y ^^co2hO 2. Cl2 (plin)Y ^^ co 2 hO 2. Cl 2 (gas)

EtOH:CCI4(l:9)EtOH: CCI 4 (l: 9)

1. SOC12 ali fluorid ciuranove kisline ,2. H-Asp^Buj-OMe-HCI NMM, CH2C12 1. SOC1 2 or cyanic acid fluoride, 2. H-Asp ^ Buj-OMe-HCl NMM, CH 2 C1 2

3. NaOH, H2, EtOH3. NaOH, H 2 , EtOH

R.R.

HH

1.. tvorba bromo metil ketona1 .. formation of bromo methyl ketone

2. RCO2H, KF, DMF2. RCO 2 H, KF, DMF

N^xC02H CO9 1BuN ^ xC0 2 H CO 9 1 Bu

Ustrezno substituirano S-acetil merkapto karboksilno kislino obdelamo z benzil bromidom in l,8-diazobiciklo[5.4.0]undec-7-enom (DBU), da proizvedemo benzil ester, ki ga nato izpostavimo reakciji s plinastim klorom, da dobimo sulfonil klorid. Sulfonil klorid obdelamo z N,N-bis(p-metoksibenzil)aminom, da dobimo sulfonamid, ki ga izpostavimo katalitičnemu hidrogeniranju, da dobimo intermediatno karboksilno kislino. Kislino aktiviramo z uporabo ciuranovega fluorida, ki ga nato zmešamo z aminsko soljo H-Asp(Ot-Bu)OM, da proizvedemo amidni produt. Metil ester hidroliziramo z natrijevim hidroksidom in karboksilno kislino predelamo v aciloksimetil keton. p-metoksibenzil zaščitne skupine sulfonamida odstranimo pri oksidacijskih razmerah, prednostno, vendar neomejujoče, s cerijevim amonijevim nitratom, t-butil estrsko zaščitno skupino pa odstranimo v kislem mediju, prednostno s trifluoroocetno kislino, da dobimo želene sulfonamidne produkte, kot je prikazano na shemi 11.The appropriately substituted S-acetyl mercapto carboxylic acid is treated with benzyl bromide and 1,8-diazobicyclo [5.4.0] undec-7-ene (DBU) to produce the benzyl ester which is then subjected to the reaction with chlorine gas to give sulfonyl chloride . The sulfonyl chloride is treated with N, N-bis (p-methoxybenzyl) amine to give sulfonamide, which is subjected to catalytic hydrogenation to give the intermediate carboxylic acid. The acid is activated by the use of cyuran fluoride, which is then mixed with the amine salt H-Asp (Ot-Bu) OM to produce the amide prodrug. The methyl ester is hydrolyzed with sodium hydroxide and the carboxylic acid is converted to acyloxymethyl ketone. The p-methoxybenzyl sulfonamide protecting group is removed under oxidation conditions, preferably but not limiting, with cerium ammonium nitrate, and the t-butyl ester protecting group is removed in acidic medium, preferably with trifluoroacetic acid, to give the desired sulfonamide products, as shown in Scheme 11 .

Kot uporabljamo tukaj, pomeni izraz alkil ogljikovodik z ravno ali razvejeno verigo. Reprezentativni primeri alkilnih skupin so: metil, etil, propil, izopropil, izobutil, butil, terc.butil, sek.butil, pentil in heksil.As used herein, the term alkyl is a straight or branched chain hydrocarbon. Representative examples of alkyl groups are: methyl, ethyl, propyl, isopropyl, isobutyl, butyl, tert-butyl, sec-butyl, pentyl and hexyl.

Izraz alkoksi pomeni alkilno skupino, vezano na atom kisika. Reprezentativni primeri alkoksi skupin vključujejo: metoksi, etoksi, terc.butoksi, propoksi in izobutoksi.The term alkoxy means an alkyl group attached to an oxygen atom. Representative examples of alkoxy groups include: methoxy, ethoxy, tert-butoxy, propoxy and isobutoxy.

Izraz halogen vključuje klor, fluor, brom in jod.The term halogen includes chlorine, fluorine, bromine and iodine.

Izraz aril pomeni aromatski ogljikovodik. Reprezentativni primeri arilnih skupin vključujejo fenil in naftil.The term aryl means an aromatic hydrocarbon. Representative examples of aryl groups include phenyl and naphthyl.

Izraz heteroatom vključuje kisik, dušik, žveplo in fosfor.The term heteroatom includes oxygen, nitrogen, sulfur and phosphorus.

Izraz heteroaril pomeni arilno skupino, kjer je eden ali več atomov ogljika aromatskega ogljikovodika nadomeščenih s heteroatomi. Primeri heteroarilnih skupin vključujejo: furan, tiofen, pirol, tiazol, piridin, pirimidin, pirazin, benzofuran, indol, kumarin, kinolin, izokinolin in naftiridin.The term heteroaryl means an aryl group in which one or more aromatic hydrocarbon carbon atoms are replaced by heteroatoms. Examples of heteroaryl groups include: furan, thiophene, pyrrole, thiazole, pyridine, pyrimidine, pyrazine, benzofuran, indole, coumarin, quinoline, isoquinoline and naphthyridine.

Izraz cikloalkil pomeni ciklično alkilno skupino. Primeri cikloalkilnih skupin vključujejo: ciklopropan, ciklobutan, ciklopentan in cikloheksan.The term cycloalkyl means a cyclic alkyl group. Examples of cycloalkyl groups include: cyclopropane, cyclobutane, cyclopentane and cyclohexane.

Izraz heterocikel pomeni cikloalkilno skupino, v kateri je eden ali več atomov ogljika nadomšČenih s heteroatomom. Primeri heterociklov vključujejo piperazin, morfolin in piperidin.The term heterocycle means a cycloalkyl group in which one or more carbon atoms are replaced by a heteroatom. Examples of heterocycles include piperazine, morpholine, and piperidine.

Arilna, heteroarilna ali cikloalkilna skupina je lahko substituirana z enim ali več substituenti, ki so lahko enaki ali različni. Primeri za prikladne substituente vključujejo: alkil, alkoksi, tioalkoksi, hidroksi, halogen, trifluorometil, amino, alkilamino, dialkilamino, -NO2-, -CN, -CO2H, -CO2alkil, -SO3H, -CHO, -COalkil, CONH2, -CONH-alkil, -CONHRq, -CON(alkil)2, -(CH2)n-NH2, -OH, -CF3, -OCrC6alkil, -(CH2)n-NH-alkil, -NHRq, -NHCORq, fenil, -(CH2)nOH, -(CH2)nC(O)NH2, ali (CH2)nCO2H, kjer je n 1 do 5 in je Rq vodik ali alkil.The aryl, heteroaryl or cycloalkyl group may be substituted by one or more substituents which may be the same or different. Examples of suitable substituents include: alkyl, alkoxy, thioalkoxy, hydroxy, halogen, trifluoromethyl, amino, alkylamino, dialkylamino, -NO 2 -, -CN, -CO 2 H, -CO 2 alkyl, -SO 3 H, -CHO. -COalkyl, CONH 2 , -CONH-alkyl, -CONHR q , -CON (alkyl) 2, - (CH 2) n-NH 2, -OH, -CF 3, -OC 1 -C 6 alkyl, - (CH 2) n-NH-alkyl, - NHR q , -NHCOR q , phenyl, - (CH2) n OH, - (CH 2 ) n C (O) NH 2 , or (CH 2 ) n CO 2 H, where n is 1 to 5 and R q is hydrogen or alkyl.

Simbolpomeni vez.Symbolic embroidery.

Primeri za druge inhibitorje kaspazne družine, ki so potrjeni za uporabo v smislu izuma, vključujejo Ich-1 inhibitorje, kot tiste, opisane v PCT-objavi 97/27220.Examples of other caspase family inhibitors approved for use according to the invention include Ich-1 inhibitors, such as those described in PCT Publication 97/27220.

Izraz fosfodiesterazni IV inhibitor je namenjen, da se nanaša na sredstva, ki inhibirajo aktivnost encim fosfodiesteraze IV. Primeri fosfodiesteraznih IV inhibitorjev so znani v tehniki in vključujejo: 4-arilpirolidinone, kot npr. rolipram (glej npr. Sekut L. et al. (1995) Ciin. Exp. Immunol. 100:126-132), nitrakvazon (glej npr. Van Wauwe J. et al. (1995) Inflamm. Res. 44:400-405), denbufilin, tibenelast (glej npr. Banner K.H. et al. (1996) Br. J. Pharmacol. 119:1255-1261), CP-80633 (glej npr. Cohan V.L. et al. (1996) J. Pharmacol. Exp. Therap. 278:1356-1361) in kinazolindione, kot npr. CP-77059 (glej npr. Sekut L. et al. (1995) Ciin. Exp. Immunol. 100:126-132),The term phosphodiesterase IV inhibitor is intended to refer to agents that inhibit the activity of the phosphodiesterase IV enzyme. Examples of phosphodiesterase IV inhibitors are known in the art and include: 4-arylpyrrolidinones such as e.g. rolipram (see, e.g., Sekut L. et al. (1995) Ciin. Exp. Immunol. 100: 126-132), nitroquazone (see, e.g., Van Wauwe J. et al. (1995) Inflamm. Res. 44: 400- 405), denbufilin, tibenelast (see, e.g., Banner KH et al. (1996) No. J. Pharmacol. 119: 1255-1261), CP-80633 (see, e.g., Cohan VL et al. (1996) J. Pharmacol. Exp. Therap. 278: 1356-1361) and quinazolindione, e.g. CP-77059 (see, e.g., Sekut L. et al. (1995) Ciin. Exp. Immunol. 100: 126-132),

Izraz beta-2-agonist je namenjen, da se nanaša na sredstva, ki stimulirajo beta-2adrenergični receptor. Primeri za beta-2-agoniste so znani v tehniki in vključujejo salmeterol (glej npr. Sekut L. et al. (1995) Ciin. Exp. Immunol 99:461-466). fenoterol in izoproterenol (glej npr. Severin A. et al. (1992)7. Immunol. 148:3441-3445).The term beta-2-agonist is intended to refer to agents that stimulate the beta-2 adrenergic receptor. Examples of beta-2-agonists are known in the art and include salmeterol (see, e.g., Sekut L. et al. (1995) Ciin. Exp. Immunol 99: 461-466). phenoterol and isoproterenol (see, e.g., Severin A. et al. (1992) 7. Immunol. 148: 3441-3445).

Izraz STAT4 je namenjen, da se nanaša na transkripcijski faktor, vključen v IL-12 odzive (glej npr. Thierfelder W.E. et al. (1996) Nature 382:171-174: Kaplan M.H. et al. (1996) Nature 382:174-177). Izraz STAT4 inhibitor se nanaša na sredstvo, ki inhibira aktivnost STAT4 transkripcijskega faktorja, tako da se inhibirajo odzivi na IL12.STAT4 expression is intended to refer to the transcription factor involved in IL-12 responses (see, e.g., Thierfelder WE et al. (1996) Nature 382: 171-174: Kaplan MH et al. (1996) Nature 382: 174- 177). The term STAT4 inhibitor refers to an agent that inhibits the activity of the STAT4 transcription factor by inhibiting responses to IL12.

Izraz protitelo, kot ga uporabljamo tukaj, se nanaša na imunoglobulinske molekule in imunološko aktivne determinante imunoglobulinskih molekul, tj. molekule, ki vsebujejo antigensko vezavno mesto, ki specifično veže (imunsko reagira z njim) antigen. Izraz protitelo je nadalje namenjen, da vključuje bispecifične in kimeme molekule, ki imajo vsaj eno antigensko vezavno determinanto, izvedeno iz protitelesne molekule. Čeprav H- in L-verige Fv-ffagmenta kodirajo ločeni geni, pa lahko naredimo sintetični liriker, ki omogoča le-tem, da jih naredimo kot enojno proteinsko verigo (znano kot protitelo z enojno verigo, sAb; Bird et al. 1988 Science 242:423-426 in Huston et al. 1988 PNAS 85:5879-5883) z rekombinantnimi metodami. Taka protitelesa z enojno verigo so prav tako zajeta v izrazu protitelo in jih lahko uporabimo kot vezavne determinante v modelu in pri konstruiranju multispecifične vezavne molekule.The term antibody as used herein refers to immunoglobulin molecules and immuno-active determinants of immunoglobulin molecules, i. molecules that contain an antigen binding site that specifically binds (reacts with it) to the antigen. The term antibody is further intended to include bispecific and chimeric molecules having at least one antigen binding determinant derived from an antibody molecule. Although the H and L chains of the Fv-fagment are encoded by separate genes, a synthetic lyricer can be made that allows them to be made as a single protein chain (known as a single-chain antibody, sAb; Bird et al. 1988 Science 242 : 423-426 and Huston et al 1988 PNAS 85: 5879-5883) by recombinant methods. Such single chain antibodies are also covered by the term antibody and can be used as binding determinants in the model and in constructing a multispecific binding molecule.

Izraz protitelesih fragment, kot ga uporabljamo tukaj, se nanaša na aktivni fragment protitelesa, ki ohrani sposobnost, da veže (imunsko reagira z njim) antigen. Primeri za protitelesne fragmente vključujejo: Fab-fragment, ki je sestavljen iz VL-, VH-, Cl- in Cni-domen, Fd-fragment, ki je sestavljen iz VH- in Cm-domen, Fv-fragment, ki je sestavljen iz VL- in Vn-domen enojnega kraka protitelesa, dAb-fragment (Ward et al., 1989 Nature 341:544-546), kije sestavljen iz Vn-domene, izolirana regija, ki določa komplementarnost (CDR), in F(ab')2-fragment, bivalenten fragment, ki obsega Fab'80 fragmenta, vezana z disulfidnim mostom pri gibljivi regiji. Te protitelesne fragmente dobimo z uporabo konvencionalnih tehnik, dobro znanih strokovnjakom, fragmente pa selekcioniramo za uporabo na enak način kot intaktna protitelesa.The term antibody fragment, as used herein, refers to an active antibody fragment that retains the ability to bind (react with it) antigen. Examples of antibody fragments include: the Fab fragment consisting of the V L -, V H -, Cl- and Cni domains, the Fd fragment consisting of the V H - and Cm domains, the Fv fragment which consists of the V L - and Vn domains of the single arm of the antibody, the dAb fragment (Ward et al., 1989 Nature 341: 544-546), which consists of the Vn domain, an isolated complementarity determining region (CDR), and F (ab ') 2 fragment, a bivalent fragment comprising a Fab'80 fragment bound by a disulfide bridge at a moving region. These antibody fragments are obtained using conventional techniques well known to those skilled in the art, and fragments are selected for use in the same manner as intact antibodies.

Izraz konstruiran vezavni protein, kot ga uporabljamo tukaj, je namenjen, da vključuje molekule, izvedene iz protitelesa ali drugo vezavno molekulo (npr. receptor ali ligand), ki ohrani želeno vezavno specifičnost, vendar pa je konstruiran z rekombinantnimi DNA-tehnikami in/ali izražen z uporabo rekombinantnih DNAtehnik. Primeri za konstruirane vezavne proteine vključuje topne in skrajšane oblike receptorjev, dimerov receptorjev (npr. p40 IL-12 receptorski dimeri) in modificirane ali mutirane oblike protiteles, ligandov ali receptorjev, izbrane z uporabo kombinatornih knjižnic (npr. tehnike fagne prikazovalne knjižnice).The term engineered binding protein as used herein is intended to include molecules derived from an antibody or other binding molecule (e.g., receptor or ligand) that retains the desired binding specificity but is constructed by recombinant DNA techniques and / or expressed using recombinant DNA techniques. Examples of engineered binding proteins include soluble and truncated forms of receptors, receptor dimers (e.g., p40 IL-12 receptor dimers), and modified or mutated forms of antibodies, ligands, or receptors selected using combinatorial libraries (eg, phage display techniques).

Izraz NK-celični antagonist kot ga uporabljamo tukaj, je namenjen, da vključuje protitelesa, protitelesne fragmente in konstruirane vezavne proteine, ki so sposobni, da osiromašijo NK-/NK podobne celice, kadar jih damo subjektu. Primeri za NK celične antagoniste vključujejo protitelesa antiasialo-GMl in protitelesa NK1.1.The term NK cell antagonist as used herein is intended to include antibodies, antibody fragments and engineered binding proteins capable of depleting NK- / NK-like cells when administered to a subject. Examples of NK cell antagonists include antiasialo-GMl antibodies and NK1.1 antibodies.

Izraza steroidno odporna bolezen in steroidno odporen subjekt kot ju uporabljamo tukaj, sta namenjana, da se nanašata na bolezni in subjekte, ki se ne odzivajo znatno na kortikosteroidno terapijo pred zdravljenjem po metodah v smislu izuma. Steroidna odpornost se prav tako nanaša na steroidno neodzivnost.The terms steroid-resistant disease and the steroid-resistant subject as used herein are intended to refer to diseases and subjects that do not significantly respond to corticosteroid therapy prior to treatment according to the methods of the invention. Steroid resistance also refers to steroid resistance.

Izraz imunoinflamatoma bolezen ali motnja je namenjen, da vključuje vnetne bolezni in motnje, pri katerih so imunske celice in/ali citokini vpleteni v patiofiziologijo bolezni ali motnje. Izraz akutna vnetna motnja je namenjen, da vključuje motnje in epizode motenj, označene s hitrim nastankom simptomov, povezanih z vnetnim odzivom in relativno kratkim trajanje simptomov, medtem ko je izraz kronična vnetna motnja namenjen, da vključuje motnje, označene s kontinuimo prisotnostjo simptomov, povezanih z vnetnim odzivom in nadaljevanjem trajanja simptomov.The term immunoinflammatory disease or disorder is intended to include inflammatory diseases and disorders in which immune cells and / or cytokines are involved in the pathophysiology of the disease or disorder. The term acute inflammatory disorder is intended to include disorders and episodes of disorders characterized by the rapid onset of symptoms associated with an inflammatory response and the relatively short duration of symptoms, while the term chronic inflammatory disorder is intended to include disorders characterized by the continued presence of associated symptoms with an inflammatory response and continued duration of symptoms.

I. Metode v smislu izumaI. Methods of the Invention

V eni izvedbi zagotavlja izum metodo za moduliranje odzivnosti na kortikosteroid v subjektu, ki obsega dajanja subjektu:In one embodiment, the invention provides a method for modulating corticosteroid responsiveness in a subject comprising administering to the subject:

- sredstvo, ki antagonizira tarčo, ki regulira proizvajanje interferona-γ (IFN-γ) v subjektu, pri čemer sredstvo damo v dozi in na način, ki zadostujeta, da se inhibira proizvajanje IFN-γ v subjektu, in- a target antagonizing agent that regulates interferon-γ (IFN-γ) production in the subject, the agent being administered at a dose and in a manner sufficient to inhibit IFN-γ production in the subject, and

- kortikosteroid, tako da je modulirana odzivnost subjekta na kortikosteroid, v primerjavi s tem, ko damo subjektu samo kortikosteroid.- a corticosteroid such that the response of the subject to the corticosteroid is modulated as compared to when the subject is administered a corticosteroid alone.

V eni izvedbi vključuje metoda dajanje sredstva, ki je IL-18 antagonist. IL-18 antagonist damo subjektu v dozi in na način, ki zadostujeta, da se inhibira IL-18aktivnost v subjektu. IL-18 antagonist lahko deluje npr. z inhibiranjem IL-18 sinteze v subjektu, z inhibiranjem IL-18 citokinske aktivnosti v subjektu, z inhibiranjem interakcije IL-18 z IL-18 receptorjem ali z inhibiranjem aktivnosti IL-18 receptorja.In one embodiment, the method comprises administering an agent that is an IL-18 antagonist. The IL-18 antagonist is administered to the subject at a dose and in a manner sufficient to inhibit IL-18 activity in the subject. The IL-18 antagonist may function e.g. by inhibiting IL-18 synthesis in the subject, inhibiting IL-18 cytokine activity in the subject, inhibiting the interaction of IL-18 with the IL-18 receptor, or inhibiting the activity of the IL-18 receptor.

V prednostni izvedbi je IL-18 antagonist inhibitor proteaze kaspazne družine. Proteaze kaspazne družine, posebno ICE, predelajo prekurzorsko obliko IL-18 v zrelo (tj. aktivno) obliko (npr. Primer 4). Za inhibitor proteaze kaspazne družine smatramo, čeprav ni namen, da bi omejevali z mehanizmom, da antagonizira IL-18-aktivnost z inhibiranjem predelovanja IL-18 iz njegove prekurzorske oblike v njegovo zrelo (tj. aktivno) obliko. Prednostni inhibitor proteaze kaspazne družine za uporabo v metodah v smislu izuma je ICE inhibitor. Dodatno ali alternativno so lahko inhibirane tudi druge proteaze kaspazne družine, ki so sposobne cepljenja prekurzorja IL-18 v zreli IL-18 (kot npr. Ich-2 (kaspaza-4) in ICEreiIII (kaspaza-5)). Kemijska sredstva, ki lahko inhibirajo aktivnost ICE in drugih proteaz kaspazne družine, so znana v tehniki, vključno peptidilni derivati, analogi azaasparaginske kisline in gamapiron-3-ocetna kislina (glej npr. US-patent št. 5,411,985, US-patent št. 5,430,128, US-patent št. 5,434,248, US-patent Št. 5,565,430, US-patent št. 5,416,013, PCT-objavo WOIn a preferred embodiment, the IL-18 antagonist is a caspase family protease inhibitor. Proteases of the caspase family, especially ICE, convert the precursor form of IL-18 to a mature (i.e., active) form (e.g., Example 4). A caspase family protease inhibitor is considered, although not intended to be restricted by a mechanism, to antagonize IL-18 activity by inhibiting the processing of IL-18 from its precursor form into its mature (i.e., active) form. A preferred caspase family protease inhibitor for use in the methods of the invention is an ICE inhibitor. Other caspase family proteases capable of grafting IL-18 precursor into mature IL-18 (such as Ich-2 (caspase-4) and ICE re iIII (caspase-5)) may be inhibited additionally or alternatively. Chemical agents that can inhibit the activity of ICE and other proteases of the caspase family are known in the art, including peptidyl derivatives, azaaspartic acid analogues, and gamapirone-3-acetic acid (see, e.g., U.S. Patent No. 5,411,985, U.S. Patent No. 5,430,128 , U.S. Patent No. 5,434,248, U.S. Patent No. 5,565,430, U.S. Patent No. 5,416,013, PCT Publication WO

94/00154, PCT-objavo WO 93/16710, PCT-objavo WO 93/14777, PCT-objavo WO 93/05071, PCT-objavo WO 95/35308, evropsko patentno prijavo EP 547 699 in evropsko patentno prijavo EP 519 748). Dodatni prikladni inhibitorji ICE in drugi inhibitorji kaspazne družine so prikazani v US-prijavi serijska št. 08/700,716 in USprovizoričnih prijavah, serijske št. 60/028,322, 60/028,324, 60/028,313 in 60/028,323. Natančne doze in režim za dajanje inhibitorja ICE ali ICE proteazne družine so nujno odvisni od potreb subjekta, ki ga je treba zdraviti, tipa zdravljenja, učinkovitosti spojine in stopnje resnosti bolezni v subjektu. Vendar pa je neomejujoč primer dozirnega območja za inhibitor ICE in druge proteaze kaspazne družine od približno 0,05 do približno 150 mg/kg telesne mase/dan.94/00154, PCT Publication WO 93/16710, PCT Publication WO 93/14777, PCT Publication WO 93/05071, PCT Publication WO 95/35308, European Patent Application EP 547 699 and European Patent Application EP 519 748) . Additional suitable ICE inhibitors and other caspase family inhibitors are shown in US application serial no. No. 08 / 700,716 and US Provisional Applications Serial no. 60 / 028,322, 60 / 028,324, 60 / 028,313 and 60 / 028,323. The exact doses and regimen for administration of an ICE or ICE protease inhibitor family necessarily depend on the needs of the subject to be treated, the type of treatment, the efficacy of the compound, and the severity of the disease in the subject. However, the non-limiting example of a dosage range for an ICE inhibitor and other proteases of the caspase family is from about 0.05 to about 150 mg / kg body weight / day.

V drugih izvedbah je IL-18 antagonist protitelo, protitelesih fragment ali konstruiran vezavni protein, ki veže IL-18 ali IL-18 receptor. Taka vezavna sredstva lahko pripravimo s standardnimi metodami, znanimi v tehniki za izdelavo poli- in monoklonalnih protiteles in rekombinantnih vezavnih proteinov, in so opisana nadalje npr.v: evropski patentni prijavi 692 536, evropski patentni prijavi 712 931, PCTobjavi WO 97/24441 in PCT-objavi WO 97/44468.In other embodiments, the IL-18 antagonist is an antibody, antibody fragment or engineered binding protein that binds the IL-18 or IL-18 receptor. Such binding agents can be prepared by standard methods known in the art for the production of poly- and monoclonal antibodies and recombinant binding proteins, and are further described, for example, in: European Patent Application 692 536, European Patent Application 712 931, PCPublication WO 97/24441, and PCT Publication WO 97/44468.

V drugi izvedbi vključuje metoda v smislu izuma dajanje sredstva, ki je IL-12 antagonist. IL-12 antagonist damo subjektu v dozi in na način, ki zadostujeta, da se inhibira IL-12-aktivnost v subjektu. IL-12 antagonist lahko deluje npr. z inhibiranjem IL-12 sinteze v subjektu, z inhibiranjem IL-12 citokinske aktivnosti v subjektu, z inhibiranjem interakcije IL-12 z IL-12 receptorjem ali z inhibiranjem aktivnosti IL-12 receptorja.In another embodiment, the method of the invention comprises administering an agent that is an IL-12 antagonist. The IL-12 antagonist is administered to the subject at a dose and in a manner sufficient to inhibit IL-12 activity in the subject. The IL-12 antagonist may function e.g. by inhibiting IL-12 synthesis in a subject, inhibiting IL-12 cytokine activity in a subject, inhibiting the interaction of IL-12 with the IL-12 receptor, or inhibiting IL-12 receptor activity.

V eni izvedbi je IL-12 antagonist protitelo, protitelesih fragment ali konstruiran vezavni protein, ki veže IL-12 ali IL-12 receptor. Prednostni IL-12 antagonist je anriIL-12 monoklonsko prohtelo. Taka protitelesa so opisana v tehniki (npr.: Chizzonite R. et al. (1991) J. Immunol. 147:1548-1556). Sposobnost anti-IL-2 monoklonskih protiteles, da inhibirajo bolezenske odzive, je prav tako opisana v tehniki (npr.: Leonard J.P. et al. (1995) J. Exp. Med. 181:381-386; Neurath M.F. et al. (1995) J. Exp. Med. 182:1281-1290). Drugi hp IL-12 antagonista je p40 homodimer (npr.:In one embodiment, the IL-12 antagonist is an antibody, antibody fragment, or engineered binding protein that binds the IL-12 or IL-12 receptor. The preferred IL-12 antagonist is anriIL-12 monoclonal antibody. Such antibodies are described in the art (e.g., Chizzonite R. et al. (1991) J. Immunol. 147: 1548-1556). The ability of anti-IL-2 monoclonal antibodies to inhibit disease responses is also described in the art (e.g., Leonard JP et al. (1995) J. Exp. Med. 181: 381-386; Neurath MF et al. ( 1995) J. Exp Med 182: 1281-1290). Another hp IL-12 antagonist is the p40 homodimer (e.g.:

Gillessen S. et al. (1995) Eur. J. Immunol. 25:200-206; Gately M.K. et al. (1996) Ann. NY Acad. Sci. 795:1-12; Ling P. et al. (1995) J. Immunol. 154:116-127). Še nadaljnji tip IL-12 antagonista je nizkoafmitetna oblika IL-12 receptorja, kot je opisano v evropski patentni prijavi EP 638 644 in US-patentu št. 5,536,657.Gillessen S. et al. (1995) Eur. J. Immunol. 25: 200-206; Gately M.K. et al. (1996) Ann. NY Acad. Sci. 795: 1-12; Ling P. et al. (1995) J. Immunol. 154: 116-127). A further type of IL-12 antagonist is the low-affinity form of the IL-12 receptor, as described in European Patent Application EP 638 644 and U.S. Pat. No. 5,536,657.

Neomejujoči primeri IL-12 antagonistov za uporabo v metodah v smislu izuma vključujejo mono- in poliklonalna protitelesa in njihove fragmente, kimema protitelesa in njihove fragmente, topne IL-12 receptorje in njihove fragmente, reaktivne peptide ali njihove fragmente, kemijsko ali genetsko modificirane peptide IL-12, podenote IL12 in njihovih fragmentov, homopolimere IL-12 podenot in njihovih fragmentov in majhne organske molekule, oblikovane, da inhibirajo bioaktivnost IL-12 ali IL-12 receptorjev. Priprava IL-12 antagonistov, vključno: (i) vrsto, ki veže IL-12 ali njihove biološko aktivne fragmente in (ii) vrsto, ki interferira z vezavo IL-12 na receptorje ali druge vezavne proteine, je opisana v tehniki (npr. PCT-objava WO 95/24918, Leonard et al., vsebine le-teh pa so izrecno grajene tukaj z referenco; prav tako tudi Presky D.H. etal. (1995)Res. Immunol. 146:439-445).Non-limiting examples of IL-12 antagonists for use in the methods of the invention include mono- and polyclonal antibodies and fragments thereof, chimeric antibodies and fragments thereof, soluble IL-12 receptors and fragments thereof, reactive peptides or fragments thereof, chemically or genetically modified peptides of IL -12, IL12 subunits and fragments thereof, homopolymers of IL-12 subunits and fragments thereof, and small organic molecules designed to inhibit the bioactivity of IL-12 or IL-12 receptors. The preparation of IL-12 antagonists, including: (i) a species that binds IL-12 or their biologically active fragments and (ii) a species that interferes with the binding of IL-12 to receptors or other binding proteins is described in the art (e.g. PCT Publication WO 95/24918, Leonard et al., The contents of which are expressly incorporated herein by reference; and also Presky DH et al. (1995) Res. Immunol. 146: 439-445).

V drugi izvedbi je IL-12 antagonist, uporabljen v metodi v smislu izuma, sredstvo, ki stimulira proizvajanje cikličnega AMP (cAMP) v celicah, ki proizvajajo IL-12. Za proizvajanje IL-12 je prikazano, da ga inhibira povečano intracelulamo proizvajanje cAMP (npr.: van der Pouw Kraan et al. (1995) J. Exp. Med. 181:775-779). Primeri za sredstva, ki jih lahko uporabimo za stimuliranje proizvajanja intracelulamega cAMP vključujejo fosfodiesterazne IV inhibitorje in beta-2 agonista. Kot je prikazano v Primeru 3, dajanje fosfodiesteraznega IV inhibitorja v modelu septičnega šoka inhibira produkcijo IL-12, inducirano z LPS. Primeri za prikladne fosfodiesterazne IV inhibitorje za uporabo v metodah v smislu izuma vključujejo rolipram, denbufilin, tibenelast, nitrakvazon in CP-80633. Primeri za beta-2 agoniste za uporabo v metodah v smislu izuma vključujejo salmeterol, fenoterol in izoproterenol. Natančna doza in režim za dajanje fosfodiesteraznega IV inhibitorja ali beta-2 agonista sta nujno odvisna od potrebe subjekta, ki ga je treba zdraviti, tipa zdravljenja, učinkovitosti spojine in stopnje resnosti bolezni v subjektu. Vsekakor pa je neomejujoč primer dozirnega območja za fosfodiesterazne IV inhibitorje ali beta-2 agoniste od približnoIn another embodiment, the IL-12 antagonist used in the method of the invention is an agent that stimulates the production of cyclic AMP (cAMP) in IL-12-producing cells. IL-12 production has been shown to be inhibited by increased intracellular cAMP production (e.g., van der Pouw Kraan et al. (1995) J. Exp. Med. 181: 775-779). Examples of agents that can be used to stimulate the production of intracellular cAMP include phosphodiesterase IV inhibitors and beta-2 agonists. As shown in Example 3, administration of a phosphodiesterase IV inhibitor in a septic shock model inhibits LPS-induced IL-12 production. Examples of suitable phosphodiesterase IV inhibitors for use in the methods of the invention include rolipram, denbufilin, tibenelast, nitroquasone, and CP-80633. Examples of beta-2 agonists for use in the methods of the invention include salmeterol, phenoterol and isoproterenol. The exact dosage and regimen for administration of a phosphodiesterase IV inhibitor or beta-2 agonist necessarily depend on the need of the subject to be treated, the type of treatment, the efficacy of the compound, and the severity of the disease in the subject. However, a non-limiting example of a dosage range for phosphodiesterase IV inhibitors or beta-2 agonists of ca.

0,05 do približno 150 mg/kg telesne mase/dan. V prednostni izvedbi damo sredstvo, ki stimulira proizvajanje cikličnega AMP (cAMP) (npr. fosfodiesterazni IV inhibitor ali beta-2 agonist), sistemsko (npr. oralno ali intravenozno), da inhibiramo proizvajanje IL-12 sistemsko z monociti in makrofagi.0.05 to about 150 mg / kg body weight / day. In a preferred embodiment, an agent that stimulates the production of cyclic AMP (cAMP) (e.g., phosphodiesterase IV inhibitor or beta-2 agonist) is administered systemically (e.g., orally or intravenously) to inhibit IL-12 production systemically by monocytes and macrophages.

V drugi izvedbi je IL-12 antagonist, uporabljen v metodi v smislu izuma, STAT4 inhibitor. STAT4 je transkripcijski faktor, za katerega je prikazano, da je vključen v IL-12-odzive (npr.: Thierfelder W.E. et al. (1996) Nature 382:171-174). Kaplan M.H. et al. (1996) Nature 382: 174-177). Tako lahko IL-12-odzive v subjektu inhibiramo z dajanjem STAT4 inhibitorja.In another embodiment, the IL-12 antagonist used in the method of the invention is an STAT4 inhibitor. STAT4 is a transcription factor that has been shown to be involved in IL-12 responses (e.g., Thierfelder W.E. et al. (1996) Nature 382: 171-174). Kaplan M.H. et al. (1996) Nature 382: 174-177). Thus, IL-12 responses in a subject can be inhibited by administration of a STAT4 inhibitor.

Druge inhibitorje IL-12-aktivnosti, ki so znani v tehniki, prav tako lahko uporabimo v metodah v smislu izuma. PCT objava WO 96/40093 prikazuje bifenilne derivate za antagoniziranje imunskih odzivov, induciranih z IL-12. Take bifenilne derivate lahko uporabimo kot IL-12 antagoniste v metodah v smislu izuma.Other IL-12 activity inhibitors known in the art can also be used in the methods of the invention. PCT Publication WO 96/40093 discloses biphenyl derivatives for antagonizing IL-12 induced immune responses. Such biphenyl derivatives can be used as IL-12 antagonists in the methods of the invention.

V drugi izvedbi vključuje metoda v smislu izuma dajanje sredstva, ki je NK-celični antagonist. NK-celični antagonist damo subjektu v dozi in na način, ki zadostujeta, da se inhibira IFN-γ aktivnost v subjektu. Prednostno je NK-celični antagonist protitelo, protitelesih fragment ali konstruiran vezavni protein, ki specifično veže na NK-/NK podobne celice, tako da so celice osiromašene ali eliminirane v subjektu. Tako prednostni NK-celični antagonisti vežejo na specifične površinske markerje, prisotne na NK-/NK podobnih celicah. Posebno prednostni NK-celični antagonisti so protitelesa antiasialo-GMl in protitelesa NK 1.1, za katera je prikazano, da so efektivna pri siromašenju NK-/NK podobne aktivnosti v subjektu (Primer 10; Axelsson L.G. et al. (1996) Inflamm. Res. 45:181-191; Heremans H. et al. (1994) Eur. J. Immunol. 24:1155-1160).In another embodiment, the method of the invention comprises administering an agent that is an NK cell antagonist. The NK cell antagonist is administered to the subject at a dose and in a manner sufficient to inhibit IFN-γ activity in the subject. Preferably, the NK cell antagonist is an antibody, antibody fragment, or engineered binding protein that specifically binds to NK- / NK-like cells so that the cells are depleted or eliminated in the subject. Thus, preferred NK cell antagonists bind to specific surface markers present on NK- / NK-like cells. Particularly preferred NK cell antagonists are antiasialo-GMl antibodies and NK 1.1 antibodies, which have been shown to be effective in depleting NK- / NK-like activity in a subject (Example 10; Axelsson LG et al. (1996) Inflamm. Res. 45: 181-191; Heremans H. et al. (1994) Eur. J. Immunol. 24: 1155-1160).

Druga protitelesa, ki so usmerjena v površinske markerje, ki identificirajo NK-/NK podobne celice, vključujejo tista, ki so reaktivna z Fc-IgG receptorji B73.1 in Leu 11 (CD16) (Lancer L.L. et al. (1983) J. Immunol. 131:1789-1796; Perussia B. et al.Other antibodies that target surface markers that identify NK- / NK-like cells include those that are reactive with the Fc-IgG receptors B73.1 and Leu 11 (CD16) (Lancer LL et al. (1983) J. Immunol 131: 1789-1796; Perussia B. et al.

(1983) J. Immunol. 130:2133-2141), Leu 7 (anti-HNKl, ki identificira 40-60 % NK celic, Abo T. in Balch C.M. (1981) J. Immunol. 127:1024-1029) in OKT11 (CD2, ki identificira 50 % ali več NK-celic; Lancer, L.L. et al. supra; Perussia, B. et al., supra). Drugi NK-celični specifični površinski antigeni in protitelesa, ki so opisana, vključujejo DXl-antigen (PCT-objava WO 95/02611), PEN5-alfa in PEN5-beta glikoproteinski par (PCT-objava WO 95/06247) in NKBl-antigen (PCT-objava WO 95/20604).(1983) J. Immunol. 130: 2133-2141), Leu 7 (anti-HNKl identifying 40-60% NK cells, Abo T. and Balch CM (1981) J. Immunol. 127: 1024-1029) and OKT11 (CD2 identifying 50 % or more NK cells; Lancer, LL et al. supra; Perussia, B. et al., supra). Other NK-cell specific surface antigens and antibodies described include DX1-antigen (PCT release WO 95/02611), PEN5-alpha and PEN5-beta glycoprotein pair (PCT release WO 95/06247) and NKBl-antigen (PCT Publication WO 95/20604).

Točna doza in režim za dajanje NK-celičnega antagonista sta nujno odvisna od potreb subjekta, ki ga je treba zdraviti, tipa zdravljenja, učinkovitosti spojine in stopnje resnosti bolezni pri subjektu. Vsekakor pa je neomejujoč primer dozirnega območja za anti-NK-/NK podobna celična protitelesa od približno 0,01 do približno 150 mg/kg telesne mase/dan. Posamezna doza protitelesa lahko zadostuje, da osiromaši ali eliminira NK-/NK podobno celično aktivnost ali pa lahko alternativno damo multiple doze, kot je treba za osiromašenje ali eliminiranje NK-/NK podobne celične aktivnosti. Prednostno damo NK antagonist na intravenozen ali intraperitonealen način.The exact dosage and regimen for administration of the NK cell antagonist necessarily depend on the needs of the subject to be treated, the type of treatment, the efficacy of the compound, and the severity of the disease in the subject. However, the non-limiting example of the dosage range for anti-NK- / NK-like cell antibodies is from about 0.01 to about 150 mg / kg body weight / day. A single dose of antibody may be sufficient to deplete or eliminate NK- / NK-like cellular activity, or alternatively, multiple doses may be administered as needed to deplete or eliminate NK- / NK-like cellular activity. Preferably, the NK antagonist is administered intravenously or intraperitoneally.

Pri metodah v smislu izuma damo sredstvo, ki antagonizira tarčo, ki regulira proizvajanje interferona-γ (IFN-γ), subjektu v kombinaciji z enim ali več kortikosteroidi. Izraz v kombinaciji z kortikosteroidom je namenjen, da vključuje: simultano dajanje sredstva in kortikosteroida, najprej dajanje sredstva in nato kortikosteroida ter najprej dajanje kortikosteroida in nato sredstva. Pri metodah v smislu izuma lahko uporabimo kateregakoli od terapevtsko uporabnih kortikosteroidov, znanih v tehniki. Kortikosteroidi so značilno klasificiram s trajanjem njihovih tkivnih učinkov: kratko delujoče spojine (npr. beklometazon, flunisolid, hidrokortizon, kortizon), srednje delujoče spojine (npr. prednison, prednizolon, metilprednizolon, triamcinolon, deflazakort) in dolgo delujoče spojine (npr. deksametazon, beta metazon). Subjektu lahko damo enega ali več kortikosteroidov na način in v dozi, ki sta učinkovita, da dosežemo želene terapevtske rezultate. Primeri za prikladne načine dajanja vključujejo intravenozno dajanje, oralno, lokalno, dajanje z inhalacijo (npr. bronhialno dajanje) in lokalne injekcije (npr. v sklep). Točna doza in režim dajanja kortikosteroida subjektu sta nujno odvisna od potreb subjekta, ki ga je treba zdraviti, tipa zdravljenja, učinkovitosti spojine in stopnje resnosti bolezni pri subjektu. Vsekakor pa je neomejujoč primer dozirnega območja za kortikosteroide od približno 0,05 mg/dan do približno 1 g/dan, odvisno od posebnega uporabljenega kortikosteroida. Pri določenih prednostnih dozirnih režimih se uporabi alternativno dnevno dajanje (npr. visokodozna intravenozna pulzna terapija).In the methods of the invention, a target antagonizing agent that regulates interferon-γ (IFN-γ) production is administered to a subject in combination with one or more corticosteroids. The term in combination with a corticosteroid is intended to include: simultaneous administration of an agent and a corticosteroid, first administration of an agent and then a corticosteroid, and first administration of a corticosteroid and then an agent. Any of the therapeutically useful corticosteroids known in the art can be used in the methods of the invention. Corticosteroids are typically classified by the duration of their tissue effects: short acting compounds (eg beclomethasone, flunisolid, hydrocortisone, cortisone), medium acting compounds (eg prednisone, prednisolone, methylprednisolone, triamcinolone, deflazortone) and long acting compounds (e.g. beta metazone). The subject may be administered one or more corticosteroids in a manner and at a dose that is effective to achieve the desired therapeutic results. Examples of suitable routes of administration include intravenous administration, oral, topical, administration by inhalation (eg bronchial administration), and topical injections (eg, into the joint). The exact dosage and regimen of corticosteroid administration to a subject necessarily depends on the needs of the subject to be treated, the type of treatment, the efficacy of the compound, and the severity of the disease in the subject. However, the non-limiting example of a dosage range for corticosteroids is from about 0.05 mg / day to about 1 g / day, depending on the particular corticosteroid used. Alternative daily dosing (eg, high-dose intravenous pulse therapy) is used in certain preferred dosage regimens.

Kortikosteroidne formulacije, prikladne za dajanje, so dobro znane v tehniki in so dosegljive na tržišču. Deksametazon acetat, 16 mg/ml vodna suspenzija, je npr. prikladna za intramuskulamo injekcijo pri zdravljenju revmatoidnih, dermatoloških, oftalmičnih, gastrointestinalnih, hematoloških, neoplastičnih, alergijskih stanj in kolagenskih motenj. Neomejujoči primeri doz vključujejo 0,8 mg, 1,6 mg, 4 mg in 16 mg deksametazona na injekcijo.Suitable corticosteroid formulations are well known in the art and are commercially available. Dexamethasone acetate, 16 mg / ml aqueous suspension, is e.g. suitable for intramuscular injection in the treatment of rheumatoid, dermatological, ophthalmic, gastrointestinal, hematologic, neoplastic, allergic conditions and collagen disorders. Non-limiting examples of doses include 0.8 mg, 1.6 mg, 4 mg and 16 mg dexamethasone per injection.

Hidroksikortizon je na voljo kot sterilna vodna raztopina za intravenozno, intramuskulamo in subkutano injekcijo in je močno protivnetno sredstvo za stanja, kot so osteoartritis, revmatoidni artritis, juvenilni revmatoidni artritis, akutni in kronični bursitis. Prednostne začetne doze so lahko od 15 mg do 250 mg na človeka na dan. Prednostne doze so oralne ali parenteralne in jih lahko damo v polovični dnevni dozi dvakrat na dan, ali kot druge multiple. Hidrokortizonsko injekcijo lahko dodamo k injekciji natrijevega klorida ali injekcije dekstroze in damo z intravenoznim kapljanjem. Hidrokortizon valerat 0,2 mas.% je formuliran kot krema za lokalno uporabo pod imenom Westkort. Prednostne doze obsegajo aplikacijo na poškodovane površine večkrat na dan kot tanka plast.Hydroxycortisone is available as a sterile aqueous solution for intravenous, intramuscular and subcutaneous injection and is a potent anti-inflammatory agent for conditions such as osteoarthritis, rheumatoid arthritis, juvenile rheumatoid arthritis, acute and chronic bursitis. Preferred starting doses can range from 15 mg to 250 mg per person per day. Preferred doses are oral or parenteral and may be given in half daily doses twice daily or as other multiple doses. Hydrocortisone injection can be added to sodium chloride injection or dextrose injection and given intravenously. Hydrocortisone valerate 0.2% by weight is formulated as a topical cream called Westkort. Preferred dosages comprise application to damaged surfaces several times a day as a thin layer.

Bekonaz (beklometazon) je na voljo za vnetja nazalnih pasaž in sinusov, in sicer kotBaconaz (beclomethasone) is available for inflammation of the nasal passages and sinuses, as

8,4 mg za 200 odmerjenih pršilnih doz, v 0,042 % vodni suspenziji, za dajanje v odmerjenih dozah po 100 mg, ki vsebujejo 42 pg na odmerjeno dozo, tako da je dnevno nazalno dajanje sestavljeno prednostno iz 42 pg na nosnico, 84 pg na nosnico, 168 pg na nosnico, 336 pg na nosnico, 672 pg na nosnico ali 1344 pg na nosnico. Prednostno damo le-to npr. v vodnem mediju v suspenziji z mikrokristalinično celulozo, natrijevo karboksimetilcelulozo, dekstrozo, benzalkonijevim kloridom, polisorbatom 80 in 0,25 vol./mas. % feniletil alkoholom. V nekatere formulacije so vključeni tudi dodatni propelanti in mediji.8.4 mg for 200 dosed spray doses, in 0.042% aqueous suspension, for administration at 100 mg doses containing 42 pg per dose, such that daily nasal administration consists preferably of 42 pg per nostril, 84 pg per nostril, 168 pg per nostril, 336 pg per nostril, 672 pg per nostril, or 1344 pg per nostril. Preferably, we give it e.g. in aqueous medium in suspension with microcrystalline cellulose, sodium carboxymethylcellulose, dextrose, benzalkonium chloride, polysorbate 80 and 0.25 vol./wt. % phenylethyl alcohol. Some formulations also include additional propellants and media.

V nekaterih izvedbah, pri katerih dajemo sredstva v smislu izuma skupaj s kortikosteroidom, damo sredstvo sistemsko, da reguliramo proizvajanje IFN-γ sistemsko, medtem ko damo kortikosteroid bodisi lokalno ali sistemsko. V nekaterih izvedbah, npr. kadar damo fosfodiesterazni IV inhibitor ali beta-2 agonist skupaj s kortikosteroidom, damo fosfodiesterazni IV inhibitor ali beta-2 agonist sistemsko, kot npr. intravenozno ali oralno, kortikosteroid pa damo bodisi sistemsko ali lokalno. Poleg tega pa je iz obsega izuma v določenih izvedbah metod v smislu izuma posebno izključena uporaba fosfodiesteraznega IV inhibitorja ali beta-2 agonista v kombinaciji s kortikosteroidom za zdravljenje astme.In some embodiments, wherein the agents of the invention are administered together with a corticosteroid, the agent is administered systemically to regulate IFN-γ production systemically, while the corticosteroid is administered either locally or systemically. In some embodiments, e.g. when a phosphodiesterase IV inhibitor or beta-2 agonist is administered together with a corticosteroid, a phosphodiesterase IV inhibitor or beta-2 agonist is administered systemically, such as e.g. intravenously or orally, and the corticosteroid is administered either systemically or topically. In addition, the use of a phosphodiesterase IV inhibitor or beta-2 agonist in combination with a corticosteroid for the treatment of asthma is specifically excluded from the scope of the invention in certain embodiments of the methods of the invention.

Metode v smislu izuma lahko uporabimo pri zdravljenju različnih vnetnih in imunoloških motenj. V prednostni izvedbi, npr. subjekt, ki ga je treba zdraviti, trpi zaradi septičnega šoka (tj. metode v smislu izuma dopuščajo, da se kortikosteroidi uporabijo pri zdravljenju septičnega šoka). V drugi prednostni izvedbi subjekt, ki gaje treba zdraviti, trpi zaradi Crohnove bolezni. V še drugi prednostni izvedbi subjekt, ki ga je treba zdraviti, trpi zaradi astme. V še drugi prednostni izvedbi subjekt, ki ga je treba zdraviti, trpi zaradi bolezni presadek-proti-gostitelj ali zavračanja transplantatov.The methods of the invention can be used in the treatment of various inflammatory and immunological disorders. In a preferred embodiment, e.g. the subject to be treated is suffering from septic shock (i.e., the methods of the invention allow corticosteroids to be used in the treatment of septic shock). In another preferred embodiment, the subject to be treated suffers from Crohn's disease. In yet another preferred embodiment, the subject to be treated is suffering from asthma. In yet another preferred embodiment, the subject to be treated is suffering from a graft-versus-host disease or transplant rejection.

V še drugi prednostni izvedbi subjekt, ki ga je treba zdraviti, trpi zaradi avtoimunske bolezni.In another preferred embodiment, the subject to be treated is suffering from an autoimmune disease.

V drugi izvedbi subjekt, ki ga je treba zdraviti, trpi zaradi imunoinflamatome bolezni ali motnje. Neomejujoči primeri imunoinflamatomih bolezni in motenj, ki jih lahko zdravimo v skladu z izumom, vključujejo: astmo, sindrom respiratorne stiske odraslega, sistemski lupus erythematosus, vnetno črevesno bolezen (vključno Crohnovo bolezen in ulcerativni kolitis), multiplo sklerozo, diabetes mellitus, odvisen od inzulina, avtoimunski artritis, (vključno revmatoidni artritis, juvenilni revmatoidni artritis, psoriatični artritis), vnetni pulmonami sindrom, pemphigus vulgaris, idiopathic thrombocytopenic purpura, avtoimunski meningitis, myasthenia gravis, avtoimunski thyroiditis, dermatitis (vključno atopični dermatitis in eczematous dermatitis), psoriasis, Sjogrensov sindrom, (vključno keratoconjunctivitis sicca, sekundarno po Sjogrensovem sindromu), alopecia areata, alergične odzive zaradi reakcij na artropodne pike, aphthous ulcer, iritis, conjunctivitis, keratoconjunctivitis, cutaneous lupus erythematosus, scleroderma, vaginitis, proctitis, erupcije zdravil (kot npr. Stevens-Johnsonov sindrom), leprozne reverzne reakcije, erythema nodosum leprosum, avtoimunski uveitis, alergični encefalomielitis, aplastično anemijo, čisto anemijo rdečih celic, idiopathic thrombocytopenia, polychondritis, Wegenerjev granulomatosis, kronični aktivni hepatitis, Gravesovo oftalmopatijo, primarni biliary cirrhosis, posteriomi uveitis in intersticialno fibrozo pljuč.In another embodiment, the subject to be treated is suffering from an immunoinflammatory disease or disorder. Non-limiting examples of immunoinflammatory diseases and disorders that can be treated according to the invention include: asthma, adult respiratory distress syndrome, systemic lupus erythematosus, inflammatory bowel disease (including Crohn's disease and ulcerative colitis), multiple sclerosis, diabetes mellitus, diabetes mellitus, , autoimmune arthritis, (including rheumatoid arthritis, juvenile rheumatoid arthritis, psoriatic arthritis), inflammatory pulmonary syndrome, pemphigus vulgaris, idiopathic thrombocytopenic purpura, autoimmune meningitis, myasthenia gravis, dermatitis, dermatitis, dermatitis, dermatitis, dermatitis, dermatitis syndrome, (including keratoconjunctivitis sicca secondary to Sjogrens syndrome), alopecia areata, allergic reactions due to reactions to arthropod spots, aphthous ulcer, iritis, conjunctivitis, keratoconjunctivitis, cutaneous lupus erythematosus, vag einfarction, Steven erythematosus, scleroderma, Stevenle. - Johnson syndrome), leprosy reverse reactions, erythema nodosum leprosum, autoimmune uveitis, allergic encephalomyelitis, aplastic anemia, pure red cell anemia, idiopathic thrombocytopenia, polychondritis, Wegener granulomatosis, chronic active posterior hepatitis, chronic active posterior hepatitis, chronic active posterior cirrhosis, the lungs.

V drugi izvedbi subjekt, ki ga je treba zdraviti, trpi zaradi akutne vnetne motnje. Primeri akutnih vnetnih motenj vključujejo bolezen presadek-proti-gostitelj, zavračanje transplantatov, septični šok, endotoksemijo, lajmski artritis, infekcijski meningitis (npr. virusni, bakterijski, povezan z lajmsko boleznijo), akutno epizodo astme in akutne epizode avtoimunske bolezni.In another embodiment, the subject to be treated suffers from an acute inflammatory disorder. Examples of acute inflammatory disorders include graft-versus-host disease, graft rejection, septic shock, endotoxemia, Lyme arthritis, infectious meningitis (eg, viral, bacterial, Lyme disease-related), acute asthma, and acute episodes of autoimmune disease.

Še v drugi izvedbi subjekt, ki ga je treba zdraviti, trpi zaradi kronične vnetne motnje. Neomejujoči primeri kronične vnetne motnje, ki jih lahko zdravimo, so astma, rubella arthritis in kronične avtoimunske bolezni, kot npr. sistemski lupus erythematosus, psoriasis, vnetna črevesna bolezen, vključno Crohnova bolezen in ulcerativni kolitis, multipla skleroza in revmatoidni artritis.In another embodiment, the subject to be treated suffers from a chronic inflammatory disorder. Non-limiting examples of chronic inflammatory disorders that can be treated include asthma, rubella arthritis, and chronic autoimmune diseases, such as. systemic lupus erythematosus, psoriasis, inflammatory bowel disease, including Crohn's disease and ulcerative colitis, multiple sclerosis and rheumatoid arthritis.

V nekaterih primerih so lahko sredstva, ki antagonizirajo posebno tarčo, ki regulira IFN-γ v subjektu, prednostna za zdravljenje posebne motnje. Tako se npr. motnje, čeprav ni namen, da bi omejevali z mehanizmom, pri katerih je IFN-γ preferenčno ali predominantno proizveden z NK-celicami, prednostno zdravijo z uporabo sredstva, ki antagonizira IL-18 (kot npr. ICE inhibitor) ali direktno antagonizira NK-celice, (t.j. NK-celični antagonist, kot npr. anti-NK-/NK podobno celično protitelo) v kombinaciji s kortikosteroidom. Alternativno pa se motnje, pri katerih je IFN-γ preferenčno ali predominantno proizveden s T-celicami, prednostno zdravijo z uporabo sredstva, ki antagonizira IL-12 (npr. anti-IL-12 protitelo ali sredstvo, ki stimulira intracelulamo proizvajanje cAMP) v kombinaciji s kortikosteroidom. V drugih okoliščinah je lahko ugodno, da uporabimo tako IL-18 antagonist kot tudi IL-12 antagonist (npr. pri zdravljenju motenj, pri katerih prispevajo k proizvajanju IFN-γ tako celice T kot tudi celice NK).In some cases, agents that antagonize a specific target that regulates IFN-γ in a subject may be preferred for the treatment of a specific disorder. Thus, e.g. disorders, although not intended to be restricted by a mechanism in which IFN-γ is preferentially or predominantly produced by NK cells, are preferentially treated using an agent that antagonizes IL-18 (such as an ICE inhibitor) or directly antagonizes NK- cells, (i.e., an NK cell antagonist such as an anti-NK- / NK-like cellular antibody) in combination with a corticosteroid. Alternatively, disorders in which IFN-γ is preferentially or predominantly produced by T cells are preferentially treated using an agent that antagonizes IL-12 (e.g., anti-IL-12 antibody or an agent that stimulates intracellular cAMP production) in combined with a corticosteroid. In other circumstances, it may be advantageous to use both an IL-18 antagonist and an IL-12 antagonist (e.g., in the treatment of disorders that contribute to the production of IFN-γ by both T cells and NK cells).

Sredstvo in kortikosteroid damo subjektu, ki potrebuje zdravljenje, v skladu s standardnimi načini za dajanje zdravila, dobro znanimi v tehniki, poseben način in doza za sredstvo in kortikosteroid pa sta izbrana, odvisno od potreb subjekta, ki ga je treba zdraviti, tipa zdravljenja, učinkovitosti spojine in stopnje resnosti bolezni pri subjektu. Sredstvo in kortikosteroid damo v učinkoviti terapevtski dozi, kar pomeni, da količina terapevtskega sestavka, ki v primeru, da ga damo subjektu, proizvede izboljšane motnje v primerjavi s tistimi subjekti, ki niso prejeli zdravila. Strokovnjak lahko določi in predpiše učinkovito količino potrebnih terapevtskih sredstev in kortikosteroida. Sredstva bi kortikosteroide v smislu izuma damo subjektu v biološko kompatibilnih oblikah, prikladnih za farmacevtsko dajanje in vivo, da proizvedemo želeni terapevtski odziv. Z biološko kompatibilno obliko, prikladno za dajanje in vivo je mišljena oblika zdravila, ki ga je treba dati, katere terapevtski učinki premagajo kakršnekoli toksične in stranske učinke sestavka. Poleg tega damo sredstvo v smislu izuma, ki antagonizira tarčo, ki regulira proizvajanje IFN-γ v subjektu, letemu v dozi in na načni, ki zadostujeta, da se inhibira proizvajanje IFN-γ v subjektu. Podobno damo subjektu IL-12 antagonist ali IL-18 antagonist v smislu izuma v dozi in na način, ki zadostujeta, da se inhibba IL-12-aktivnost ali IL-18-aktivnost v subjektu. Živalske modele vnetnih in imunoloških motenj, ki so sprejemljivi v tehniki kot modeli za humane bolezni, lahko uporabimo za oceno različnih terapevtskih režimov v smislu izuma. Tako lahko npr. uporabimo P.ncnes/LPS-model septičnega šoka, opisan v Primerih, da ocenimo učinkovitost terapevtskih režimov za zdravljenje septičnega šoka. Številni živalski modeli avtoimunskih bolezni so znani v tehniki in jih lahko uporabimo v metodah predloženega izuma, da ocenimo učinkovitost terapevtskih režimov, neomejujoči primeri le-teh pa vključujejo eksperimentalni kolitis (npr.: Neurath M.F. et al. (1995) J. Exp. Med. 182:1281-1290), eksperimentalni alergični encefalomielitis (npr.: Leonard J.P. et al. (1995) J. Exp. Med. 181:381-386), artritis, induciran s halogenom (Banerjee S. et al. (1989) J. Immunol. 142:2237-2243) in humani TNF-α transgenski model poliartritisa (npr.: Keffer J. et al. EMBO J (1991) 10:4025-4031). Za terapevtske režime, ki vključujejo inhibicijo ICE-aktivnosti, lahko uporabimo ICE deficientne miši kot model za kompletno inhibicijo ICE-aktivnosti. Take ICE-/-miši so opisane v tehniki (npr.: Li P. et al. (1995) Celi 80:401-411 in PCT-objava št. WO 96/12025).The agent and corticosteroid are administered to the subject in need of treatment according to standard routes of administration, well known in the art, and the particular mode and dose for agent and corticosteroid are selected depending on the needs of the subject to be treated, the type of treatment, the effectiveness of the compound and the severity of the disease in the subject. The agent and corticosteroid are administered at an effective therapeutic dose, which means that the amount of therapeutic composition that, when administered to a subject, produces improved disorders compared to those of the subjects not receiving the drug. One skilled in the art can determine and prescribe the effective amount of therapeutic agents and corticosteroids required. The agents would be administered to the subject in the invention according to the invention in biologically compatible forms suitable for pharmaceutical administration in vivo to produce the desired therapeutic response. A biologically compatible formulation suitable for administration in vivo is intended to be a formulation of a medicament to be administered which therapeutic effects overcome any toxic and side effects of the composition. In addition, an agent of the invention is administered that antagonizes a target that regulates IFN-γ production in a dose-administered subject and in a manner sufficient to inhibit IFN-γ production in the subject. Similarly, an IL-12 antagonist or IL-18 antagonist of the invention is administered at a dose and in a manner sufficient to inhibit IL-12 activity or IL-18 activity in a subject. Animal models of inflammatory and immunological disorders acceptable in the art as models for human diseases can be used to evaluate the various therapeutic regimens of the invention. Thus, e.g. we use the P.ncnes / LPS septic shock model described in the Examples to evaluate the effectiveness of therapeutic regimens for the treatment of septic shock. Many animal models of autoimmune diseases are known in the art and can be used in the methods of the present invention to evaluate the effectiveness of therapeutic regimens, and non-limiting examples of these include experimental colitis (e.g., Neurath MF et al. (1995) J. Exp. Med. 182: 1281-1290), experimental allergic encephalomyelitis (e.g., Leonard JP et al. (1995) J. Exp. Med. 181: 381-386), halogen-induced arthritis (Banerjee S. et al. (1989) ) J. Immunol. 142: 2237-2243) and the human TNF-α transgenic model of polyarthritis (e.g., Keffer J. et al. EMBO J (1991) 10: 4025-4031). For therapeutic regimens involving the inhibition of ICE activity, ICE-deficient mice can be used as a model for complete inhibition of ICE activity. Such ICE - / - mice are described in the art (e.g., Li P. et al. (1995) Whole 80: 401-411 and PCT Publication No. WO 96/12025).

Metode v smislu izuma so uporabne za moduliranje kortikosteroidne odzivnosti v različnih kliničnih določitvah. V eni izvedbi uporabimo npr. metode v smislu izuma zato, da obrnemo steroidno odpornost v subjektu, v primerjavi s tem, kadar damo subjektu samo kortikosteroid. V drugi izvedbi uporabimo metodo v smislu izuma, da povečamo steroidno občutljivost v subjektu v primerjavi s tem, ko damo subjektu samo kortikosteroid. V nadaljnji izvedbi damo kortikosteroid subjektu v skladu s programom, da sčasoma znižamo dozo kortikosteroida, z metodo pa izboljšamo vindikatomi učinek, povezan z dajanjem znižanih doz kortikosteroida. Zmožnost metod v smislu izuma, da povečajo steroidno občutljivost (tj., da imajo steroidni varčevalni učinek) lahko tako dopusti uporabo kortikosteroidne terapije v kliničnih situacijah, pri katerih je bila takšna terapija pred tem kontraindicirana. Uporaba metod v smislu izuma lahko npr. dopusti kortikosteroidno terapijo pri pacientih, ki jih predhodno niso mogli zdraviti zaradi škodljivih stranskih učinkov kortikosteroidne terapije, kot npr. mladih otrok (npr. pri juvenilnem revmatoidnem artritisu), pacientih z nekontroliranim diabetesem in pacientih s hipertenzijo.The methods of the invention are useful for modulating corticosteroid responsiveness in various clinical determinations. In one embodiment, e.g. the methods of the invention to reverse steroid resistance in a subject compared to when administered to a subject only a corticosteroid. In another embodiment, the method of the invention is used to increase steroid sensitivity in a subject compared to giving a subject a corticosteroid alone. In a further embodiment, the corticosteroid is administered to a subject in accordance with a program to reduce the corticosteroid dose over time, and the method improves the vindicative effect associated with the administration of reduced corticosteroid doses. The ability of the methods of the invention to increase steroid sensitivity (i.e., to have a steroid-sparing effect) may thus allow the use of corticosteroid therapy in clinical situations in which such therapy has been previously contraindicated. The use of the methods of the invention may e.g. allow corticosteroid therapy in patients who have not been previously treated for the adverse side effects of corticosteroid therapy, such as. young children (eg, juvenile rheumatoid arthritis), patients with uncontrolled diabetes, and patients with hypertension.

Drugi vidik predloženega izuma se nanaša na metodo za moduliranje odzivnosti na kortikosteroid v subjektu, ki obsega:Another aspect of the present invention relates to a method for modulating corticosteroid responsiveness in a subject comprising:

- izbiro subjekta, ki potrebuje modulacijo odzivnosti na kortikosteroid in- selection of a subject in need of corticosteroid response modulation and

- dajanje subjektu sredstvo, ki antagonizira tarčo, ki regulira proizvajanje interferona-γ (IFN-γ) v subjektu, pri čemer damo sredstvo v dozi in na način, ki zadostujeta, da se inhibira proizvajanje IFN-γ v subjektu, tako daje odzivnost subjekta na kortikosteroid modulirana, v primerjavi s tem, kadar damo subjektu samo kortikosteroid.- administering to the subject an agent that antagonizes the target that regulates interferon-γ (IFN-γ) production in the subject, administering the agent at a dose and in a manner sufficient to inhibit IFN-γ production in the subject, thereby giving the subject responsiveness per corticosteroid modulated, compared to when administered to a subject with only a corticosteroid.

Subjekt, ki ga izberemo za zdravljenje v skladu z metodo, je lahko npr. subjekt, ki je odporen proti kortikosteroidu pred dajanjem sredstva. Alternativno je lahko subjekt, ki ga izberemo za zdravljenje tisti, ki se odziva na kortikosteroid pred dajanjem sredstva, vendar pa kaže povečano občutljivost na kortikosteroid po dajanju sredstva. En primer takega subjekta so pacienti, ki trpijo zaradi motnje steroidne odvisnosti, pri čemer to motnjo lahko zdravimo z nižjimi dozami kortikosteroidov, če jo zdravimo v skladu z metodami v smislu izuma. Drug primer takega subjekta je pacient, za katerega je steroidna terapija kontraindicirana zaradi stranskih učinkov, kadar damo kortikosteroid sam, vendar pa le-ta lahko tolerira nižjo dozo kortikosteroida, kadar damo vThe subject selected for treatment according to the method may e.g. a corticosteroid-resistant subject prior to administration of the agent. Alternatively, the subject selected for treatment may be one that responds to the corticosteroid prior to administration of the agent but exhibits increased sensitivity to the corticosteroid after administration of the agent. One example of such a subject is patients suffering from a disorder of steroid dependence, the disorder being treated with lower doses of corticosteroids if treated according to the methods of the invention. Another example of such an entity is a patient for whom steroid therapy is contraindicated due to side effects when administered corticosteroid alone, but which may tolerate a lower dose of corticosteroid when administered in

kortikosteroid v skladu z metodami v smislu izuma. Se nadalje je subjekt, ki ga izberemo za zdravljenje v skladu z metodo, lahko tisti, ki je izpostavljen kortikosteroidni terapiji, vendar pa je pri njem treba kortikosteroidno terapijo ustaviti, tako da dajanje sredstva izboljša vindikatomi učinek steroidov v subjektu. Sredstva za antagoniziranje tarče, ki regulira proizvajanje IFN-γ v subjektu, so opisana pred tem.a corticosteroid according to the methods of the invention. Furthermore, the subject selected for treatment according to the method may be one exposed to corticosteroid therapy, but corticosteroid therapy should be discontinued so that administration of the agent improves the subject's effect on steroids in the subject. Target antagonizing agents that regulate IFN-γ production in a subject have been described previously.

II. Farmacevtski sestavkiII. Pharmaceutical compositions

Drug vidik izuma se nanaša na farmacevtske sestavke za moduliranje odzivnosti na kortikosteroide. V eni izvedbi obsega farmacevtski sestavek v smislu izuma sredstvo, ki antagonizira tarčo, ki regulira proizvajanje interferona-γ (IFN-γ) v subjektu, kortikosteroid in farmacevtsko sprejemljiv nosilec. Kot je prikazano zgoraj, je tarča, ki se antagonizira, lahko npr. IL-18, IL-12 ali NK-celice (tj. farmacevtski sestavek lahko obsega IL-18 antagonist, IL-12 antagonist ali NK-celični antagonist, kot je opisano pred tem, kortikosteroid in farmacevtsko sprejemljiv nosilec).Another aspect of the invention relates to pharmaceutical compositions for modulating corticosteroid responsiveness. In one embodiment, the pharmaceutical composition of the invention comprises a target antagonizing agent that regulates interferon-γ (IFN-γ) production in a subject, a corticosteroid, and a pharmaceutically acceptable carrier. As shown above, the target to be antagonized may e.g. IL-18, IL-12, or NK cells (i.e., the pharmaceutical composition may comprise an IL-18 antagonist, an IL-12 antagonist, or an NK cell antagonist, as previously described, a corticosteroid and a pharmaceutically acceptable carrier).

V prednostni izvedbi obsega farmacevtski sestavek v smislu izuma inhibitor proteaze kaspazne družine, kortikosteroid in farmacevtsko sprejemljiv nosilec. Primeri inhibitorjev proteaz kaspazne družine in neomejujoče eksemplame doze, so opisane pred tem. V prednostni izvedbi je inhibitor proteaze kaspazne družine ICE inhibitor.In a preferred embodiment, the pharmaceutical composition of the invention comprises a caspase family protease inhibitor, a corticosteroid, and a pharmaceutically acceptable carrier. Examples of caspase family protease inhibitors and non-limiting dose examples have been described previously. In a preferred embodiment, the protease inhibitor of the caspase family is an ICE inhibitor.

V še drugi izvedbi obsega farmacevtski sestavek v smislu izuma IL-12 antagonist, kortikosteroid in farmacevtsko sprejemljiv nosilec. Primeri takih IL-12 antagonistov so opisani pred tem. V prednostni izvedbi je IL-12 antagonist anti-IL-12 monoklonsko protitelo. V drugi prednostni izvedbi je IL-12 antagonist fosfodiesterazni IV inhibitor.In another embodiment, the pharmaceutical composition of the invention comprises an IL-12 antagonist, a corticosteroid, and a pharmaceutically acceptable carrier. Examples of such IL-12 antagonists are described previously. In a preferred embodiment, the IL-12 antagonist is an anti-IL-12 monoclonal antibody. In another preferred embodiment, the IL-12 antagonist is a phosphodiesterase IV inhibitor.

V še drugi prednostni izvedbi je IL-12 antagonist beta-2 agonist.In another preferred embodiment, the IL-12 antagonist is a beta-2 agonist.

V še drugi izvedbi obsega farmacevtski sestavek v smislu izuma NK-celični antagonist, kortikosteroid in farmacevtsko sprejemljiv nosilec. Primeri takih NKceličnih antagonistov so opisani pred tem. V prednostni izvedbi je anti-NK-celični antagonist anti-NK-/NK podobno celično protitelo, prednostno protitelo anti-asialoGM1 ali protitelo NK 1.1.In another embodiment, the pharmaceutical composition of the invention comprises an NK cell antagonist, a corticosteroid, and a pharmaceutically acceptable carrier. Examples of such NK cell antagonists are described previously. In a preferred embodiment, the anti-NK cell antagonist is an anti-NK- / NK-like cellular antibody, preferably an anti-asialoGM1 antibody, or an NK 1.1 antibody.

Kot uporabljamo tukaj, je izraz farmacevtsko sprejemljiv nosilec namenjen, da vključuje katerokoli in vsa topila, disperzijske medije, prevleke, antibakterijska in antifungicidna sredstva, izotonična sredstva in sredstva za zavlačevanje absorpcije ipd., kompatibilna s farmacevtskim dajanjem. Uporaba takih medijev in sredstev za farmacevtsko aktivne substance je dobro znana v tehniki. V primeru, da konvencionalni medij ali sredstvo ni kompatibilno z aktivno spojmo, potem njegova uporaba v sestavkih ni potrjena. V sestavke so prav tako lahko vgrajene tudi dodatne aktivne spojine.As used herein, the term pharmaceutically acceptable carrier is intended to include any and all solvents, dispersion media, coatings, antibacterial and antifungal agents, isotonic and absorption-inhibiting agents, etc. compatible with pharmaceutical administration. The use of such media and agents for pharmaceutically active substances is well known in the art. If the conventional medium or agent is incompatible with the active compound, then its use in the compositions is not confirmed. Additional active compounds may also be incorporated into the compositions.

Farmacevtski sestavek v smislu izuma formuliramo tako, da je kompatibilen z namenjenim načinom dajanja le-tega. Npr. raztopine ali suspenzije, uporabljene za parenteralno, intradermalno ali subkutano aplikacijo, lahko vključujejo naslednje komponente: sterilno razredčilo, kot npr. vodo za injekcijo, fiziološko raztopino soli, fiksirana olja, polietilenglikole, glicerol, propilenglikol ali druga sintetična topila; antibakterijska sredstva, kot npr. benzilalkohol ali metil parabene; antioksidante, kot npr. askorbinsko kislino ali natrijev bisulfit; kelima sredstva, kot npr. etilendiamin tetraocetno kislino; pufre, kot npr. acetate, citrate ali fosfate, in sredstva za naravnanje toničnosti, kot npr. natrijev klorid ali dekstrozo. pH lahko naravnamo s kislinami ali bazami, kot npr. s klorovodikovo kislino ali z natrijevim hidroksidom. Parenteralni pripravek je lahko vsebovan v ampuli, injekcijskih iglah za enkratno uporabo ali multiplih dozirnih fiolah, narejenih iz stekla ali umetne snovi.The pharmaceutical composition of the invention is formulated to be compatible with the intended route of administration. E.g. solutions or suspensions used for parenteral, intradermal or subcutaneous administration may include the following components: a sterile diluent such as e.g. water for injection, saline, fixed oils, polyethylene glycols, glycerol, propylene glycol or other synthetic solvents; antibacterial agents such as e.g. benzyl alcohol or methyl parabens; antioxidants such as ascorbic acid or sodium bisulphite; kelima agents, such as e.g. ethylenediamine tetraacetic acid; buffers, such as acetates, citrates or phosphates, and tonicity adjusters such as e.g. sodium chloride or dextrose. The pH can be adjusted with acids or bases, such as e.g. with hydrochloric acid or with sodium hydroxide. The parenteral preparation may be contained in an ampoule, disposable needles or multiple dose vials made of glass or plastic.

Farmacevtski sestavki, prikladni za injektabilno uporabo, vključujejo sterilne vodne raztopine (v primeru vodotopnosti) ali disperzije in sterilne praške za improvizirano pripravo sterilnih injektabilnih raztopin ali disperzij. Za intravenozno dajanje vključujejo prikladni nosilci fiziološke raztopine soli, bakteriostatično vodo, Cremophor EL™ (BASF, Parsippany, NJ) ali fosfatne pufeme fiziološke raztopine soli (PBS). V vseh primerih mora biti sestavek sterilen in naj bi bil tekoč do take mere, da obstaja enostavna možnost injiciranja. Biti mora tako stabilen pri razmerah izdelave in shranjevanja kot tudi zavarovan pred kontaminimim delovanjem mikroorganizmov, kot npr. bakterij in gliv. Nosilec je lahko topilo ali disperzijski medij, ki vsebuje npr. vodo, etanol, poliol (npr. glicerol, propilenglikol in tekoči polietilen glikol ipd.) in njihove prikladne zmesi. Pravilno fluidnost lahko vzdržujemo npr. z uporabo prevlek, kot npr. lecitina, z vzdrževanjem potrebne velikosti delcev v primeru disperzije in z uporabo surfaktantov. Preprečevanje delovanja mikroorganizmov lahko dosežemo z različnimi protibakterijskimi in protiglivičnimi sredstvi, kot so npr. parabeni, klorobutanol, fenol, askorbinska kislina, timerosal ipd. V mnogih primerih je prednostno, da vključimo v sestavek izotonična sredstva, npr. sladkorje, polialkohole, kot npr. manitol, sorbitol, natrijev klorid. Podaljšano absorpcijo injektabilnih sestavkov lahko dosežemo tako, da vključimo vanje sredstva, ki upočasnijo absorpcijo, npr. aluminijev monostearat in želatino.Pharmaceutical compositions suitable for injectable use include sterile aqueous solutions (in the case of water solubility) or dispersions and sterile powders for the improvised preparation of sterile injectable solutions or dispersions. For intravenous administration include suitable saline carriers, bacteriostatic water, Cremophor EL ™ (BASF, Parsippany, NJ) or phosphate saline (PBS) buffers. In all cases, the composition should be sterile and should be liquid to such an extent that there is an easy injection option. It must be as stable under the conditions of manufacture and storage as it is protected against contamination by micro-organisms, such as. bacteria and fungi. The carrier may be a solvent or dispersion medium containing e.g. water, ethanol, polyol (e.g., glycerol, propylene glycol and liquid polyethylene glycol, etc.) and suitable mixtures thereof. Proper fluidity can be maintained e.g. using coatings such as e.g. lecithin, maintaining the required particle size in the case of dispersion and using surfactants. The prevention of microorganisms can be achieved by various antibacterial and antifungal agents, such as e.g. parabens, chlorobutanol, phenol, ascorbic acid, thimerosal and the like. In many cases, it is preferable to include isotonic agents in the composition, e.g. sugars, polyalcohols such as mannitol, sorbitol, sodium chloride. Prolonged absorption of injectable compositions can be achieved by including absorption retardants, e.g. aluminum monostearate and gelatin.

Sterilne injektabilne raztopine lahko pripravimo z vgradnjo aktivne spojine v potrebni količini v ustrezno topilo z eno sestavino ali kombinacijo sestavin, navedenih zgoraj, kot je potrebno, in nato s filtrirano sterilizacijo. Na splošno pripravimo disperzije z vgradnjo aktivne sestavine v sterilni nosilec, ki vsebuje bazični disperzijski medij in potrebne druge sestavine, izmed tistih, navedenih zgoraj. V primeru sterilnih praškov za pripravo sterilnih injektabilnih raztopin so prednostne pripravljalne metode vakuumsko sušenje in liofilizacija, kjer dobimo prašek aktivne sestavine in katerekoli dodatne želene sestavine iz njene predhodno sterilno filtrirane raztopine.Sterile injectable solutions can be prepared by incorporating the active compound in the required amount in a suitable solvent with one ingredient or combination of the ingredients listed above as needed and then filtered sterilization. Generally, dispersions are prepared by incorporating the active ingredient into a sterile carrier containing a basic dispersion medium and the necessary other ingredients, of those mentioned above. In the case of sterile powders for the preparation of sterile injectable solutions, vacuum drying and lyophilisation methods are preferred, where a powder of the active ingredient and any additional desired constituents are obtained from its pre-sterile filtered solution.

Oralni sestavki na splošno vključujejo inertno razredčilo ali užitni nosilec. Lahko so obdani z želatinskimi kapsulami ali stisnjeni v tablete. Za namene oralnega terapevtskega dajanja lahko aktivno sestavino vgradimo z ekscipienti in uporabimo v obliki tablet, pastil ali kapsul. Oralne sestavke lahko pripravimo tudi z uporabo tekočega nosilca za uporabo kot ustna voda, pri čemer spojino v tekočem nosilcu apliciramo oralno, z njo splaknemo usta in jo izpljunemo ali pogoltnemo. Farmacevtsko kompatibilna vezivna sredstva in/ali adjuvanse lahko vključimo kot del sestavka. Tablete, pilule, kapsule, pastile ipd. lahko vsebujejo katerokoli od spodaj navedenih sestavin ali spojin, podobnih lastnosti: vezivo, kot npr. mikrokristalinično celulozo, tragakantno gumo ali želatino; ekscipient, kot npr. škrob ali laktozo; dezintegracij sko sredstvo, kot npr. alginsko kislino, Primogel ali koruzni škrob; mazivo, kot npr. magnezijev stearat ali Sterotes; drsno sredstvo, kot npr. koloidni silicijev dioksid; sladilo, kot npr. saharozo ali saharin; aromo, kot npr. pepermint, metilsalicilat ali oranžno aromo.Oral compositions generally include an inert diluent or an edible carrier. They may be enclosed in gelatin capsules or compressed into tablets. For the purpose of oral therapeutic administration, the active ingredient may be incorporated with excipients and used in the form of tablets, lozenges or capsules. Oral compositions can also be prepared using a liquid carrier for use as mouthwash, whereby the compound in the liquid carrier is administered orally, rinsed with the mouth and spit or swallowed. Pharmaceutically compatible binders and / or adjuvants may be included as part of the composition. Tablets, pills, capsules, lozenges and the like. may contain any of the following ingredients or compounds having similar properties: a binder, such as e.g. microcrystalline cellulose, tragacanth gum or gelatin; excipient, such as e.g. starch or lactose; disintegrating agent such as e.g. alginic acid, Primogel or corn starch; lubricant such as e.g. magnesium stearate or Sterotes; a sliding means such as e.g. colloidal silica; sweetener, such as sucrose or saccharin; aroma, such as peppermint, methylsalicylate or orange aroma.

V eni izvedbi aktivne spojine pripravimo z nosilci, ki zaščitijo spojino pred hitro eliminacijo iz telesa, kot npr. formulacijo za kontrolirano sproščanje, ki vključuje implantate in mikroinkapsulirane sisteme za dajanje. Uporabimo lahko biorazgradljive biokompatibilne polimere, kot npr. etilen vinil acetat, polianhidride, poliglikolno kislino, kolagen, poliortoestre in polimlečno kislino. Metode za pripravo takih formulacij so strokovnjakom jasne. Materiale lahko dobimo tudi na tržišču od Alza Corporation in Nova Pharmaceuticals, Inc. Liposomske suspenzije (vključno liposome, usmerjene na inficirane celice z monoklonskimi protitelesi za virusne antigene) prav tako lahko uporabimo kot farmacevtsko sprejemljive nosilce. Pripravimo jih lahko po postopkih, ki so znani strokovnjakom, kot je npr. opisano v US-patentu št. 4,522,811.In one embodiment, the active compounds are prepared with carriers that protect the compound from rapid elimination from the body, such as e.g. a controlled release formulation that includes implants and microencapsulated delivery systems. Biodegradable biocompatible polymers such as e.g. ethylene vinyl acetate, polyanhydrides, polyglycolic acid, collagen, poliortoesters and polylactic acid. Methods for preparing such formulations are clear to those skilled in the art. The materials can also be obtained commercially from Alza Corporation and Nova Pharmaceuticals, Inc. Liposomal suspensions (including liposomes targeting infected cells with monoclonal antibodies for viral antigens) can also be used as pharmaceutically acceptable carriers. They can be prepared according to procedures known to those skilled in the art, such as e.g. described in U.S. Pat. 4,522,811.

Farmacevtske sestavke v smislu izuma lahko formuliramo za dajanje na poseben način, kot je npr. oralno, intravenozno, oftalmično dajanje ipd.The pharmaceutical compositions of the invention may be formulated for administration in a particular manner, such as e.g. oral, intravenous, ophthalmic administration, and the like.

V prednostni izvedbi farmacevtski sestavek v smislu izuma formuliramo za lokalno dajanje. Sredstvo, ki antagonizira tarčo, ki regulira proizvajanje interferona-γ (IFN-γ) v subjektu, kortikosteroid in farmacevtsko sprejemljivi nosilec lahko formuliramo kot kremo, pomado, mazilo ipd., prikladno za aplikacijo na kožo.In a preferred embodiment, the pharmaceutical composition of the invention is formulated for topical administration. A target antagonizing agent that regulates interferon-γ (IFN-γ) production in a subject, a corticosteroid and a pharmaceutically acceptable carrier can be formulated as a cream, pomade, ointment, etc., suitable for application to the skin.

V drugi prednostni izvedbi farmacevtski sestavek v smislu izuma formuliramo za dajanje z inhalacijo. Sredstvo, ki antagonizira tarčo, ki regulira proizvajanje interferona-γ (IFN-γ) v subjektu, kortikosteroid in farmacevtsko sprejemljiv nosilec lahko formuliramo v nazalno pršilo ali inhalant, da dopustimo dajanje terapevtskih sredstev v nazalno ali sinusno pasažo ali pljuča (npr. bronhialne pasaže) z inhalacijo.In another preferred embodiment, the pharmaceutical composition of the invention is formulated for administration by inhalation. A target antagonizing agent that regulates interferon-γ (IFN-γ) production in a subject, a corticosteroid and a pharmaceutically acceptable carrier can be formulated into a nasal spray or inhaler to allow the administration of therapeutic agents into the nasal or sinus passages or lungs (e.g., bronchial passages). ) by inhalation.

Predloženi izum je nadalje ponazorjen z naslednjimi Primeri, ki naj ne bi bili konstruirani kot omejujoči. Vsebine vseh referenc, objavljenih patentov in patentnih prijav, navedenih vseskozi v tej prijavi, so tukaj vključene z referencami.The present invention is further illustrated by the following Examples, which are not intended to be construed as limiting. The contents of all references, published patents and patent applications cited throughout this application are incorporated herein by reference.

PRIMER 1:EXAMPLE 1:

Inhibicija ICE-aktivnosti v modelu septičnega šoka ima za posledico steroidno odzivnost.Inhibition of ICE activity in a septic shock model results in steroid responsiveness.

V tem Primeru raziskujemo učinek inhibiranja ICE-aktivnosti pri steroidni odzivnosti v septičnem šoku. Model septičnega šoka induciramo v ICE deficientnih (ICE-/-)miših in miših divjega tipa (ICE+/+), kijih nato obdelamo s kortikosteroidom. (ICE-/-)-miši uporabimo kot model za kompletno inhibicijo ICE-aktivnosti (glej Li P. et al. (1995) Celi 80:401-411 za nadaljnji opis ICE deficientnih miši. Odzivnost živali na kortikosteroidno zdravljenje ugotovimo z zapisovanjem ravni inflamatomega citokina TNFa v serumih miši.In this Example, we investigate the effect of inhibiting ICE activity on steroid responsiveness in septic shock. The septic shock model is induced in ICE-deficient (ICE - / -) and wild-type (ICE + / +) mice, which are then treated with a corticosteroid. (ICE - / -) - Mice are used as a model for complete inhibition of ICE activity (see Li P. et al. (1995) Whole 80: 401-411 for further description of ICE-deficient mice. Animal response to corticosteroid treatment is determined by recording levels TNFα inflammatory cytokine in mouse sera.

ICE deficientne miši in miši divjega tipa najprej senzibiliziramo s celičnim stenskim materialom Propionibacterium acnes (1 mg na miš), da induciramo vnetje nizke stopnje, 6 dni kasneje pa jih izzovemo z lipopolisaharidom (LPS) (1 μg na miš 0,1 ml fiziološke raztopine soli i.v.). 30 minut po dajanju LPS obdelamo miši s kortikosteroid deksametazonom (4 mg/kg na miš v 0,5 ml 95 % fiziološke raztopine soli/0,5 % etanola, i.p.). Kontrolne miši obdelamo samo z vehiklom. Vsem mišim vzamemo kri 90 minut po dajanju LPS in serumske vzorce analiziramo za prisotnost TNFa s standardno ELISO.ICE-deficient and wild-type mice were first sensitized with Propionibacterium acnes cell wall material (1 mg per mouse) to induce low grade inflammation, and challenged 6 days later with lipopolysaccharide (LPS) (1 μg per mouse 0.1 ml saline) salts iv). 30 min after LPS administration, mice were treated with corticosteroid dexamethasone (4 mg / kg per mouse in 0.5 ml of 95% saline / 0.5% ethanol, i.p.). Control mice were treated with vehicle only. All mice were sampled 90 minutes after LPS administration and serum samples were analyzed for the presence of TNFα by standard ELISA.

Rezultati so prikazani na sl. 1. Miši divjega tipa in ICE deficientne miši, obdelane samo z vehiklom, imajo podobne ravni serumskega TNFa. Obdelovanje miši divjega tipa z deksametazonom ne vpliva znatno na ravni serumskega TNFa, iz česar je razvidna njihova odpornost proti steroidnemu zdravljenju v tem modelu septičnega šoka. V primerjavi s tem pa obdelovanje ICE deficientnih miši z deksametazonom zatre ravni serumskega TNFa za 74 % (p < 0,002). Iz teh podatkov je razvidno, da inhibicija ICE-aktivnosti obme odpornost za steroidno zdravljenje v modelu septičnega šoka.The results are shown in FIG. 1. The vehicle-treated wild-type and ICE-deficient mice have similar levels of serum TNFα. Treatment of wild-type mice with dexamethasone did not significantly affect serum TNFα levels, indicating their resistance to steroid treatment in this septic shock model. In comparison, treatment of ICE-deficient mice with dexamethasone suppressed serum TNFα levels by 74% (p <0.002). These data suggest that inhibition of ICE activity obscures resistance to steroid therapy in a septic shock model.

PRIMER 2:EXAMPLE 2:

Inhibicija ICE-aktivnosti v modelu septičnega šoka poveča steroidno občutljivost.Inhibition of ICE activity in a septic shock model increases steroid sensitivity.

V tem Primeru raziskujemo učinek inhibiranja ICE-aktivnosti na steroidno občutljivost pri septičnem šoku. Uporabimo enak LPS/P. iz<?«es-model septičnega šoka, kot je opisan v Primeru 1, razen da ICE deficientne miši in miši divjega tipa predhodno obdelamo z vehiklom ali kortikosteroidom 15 minut pred izzivom z LPS. Odzivnost živali na kortikosteroidno zdravljenje ponovno ugotavljamo z zapisovanjem ravni inflamatomega citokina TNFa v serumih miši.In this Example, we investigate the effect of inhibiting ICE activity on steroid sensitivity in septic shock. We use the same LPS / P. from the <? "es-septic shock model as described in Example 1, except that ICE-deficient and wild-type mice were pretreated with vehicle or corticosteroid 15 minutes before challenge with LPS. The animal's responsiveness to corticosteroid therapy is again determined by recording the levels of inflammatory cytokine TNFα in mouse sera.

ICE deficientne miši in miši divjega tipa najprej senzibiliziramo s celičnim stenskim materialom Propiombacterium acnes (1 mg na miš), da induciramo vnetje nizke stopnje, 6 dni kasneje pa jih izzovemo z lipopolisaharidom (LPS) (1 pg na miš v 0,1 ml fiziološke raztopine soli, i.v.). 15 minut pred izzivom z LPS živali obdelamo s padajočimi količinami kortikosteroid deksametazona (0,5, 0,005 ali 0,0005 mg/kg na miš v 0,5 ml 95 % fiziološke raztopine soli/0,5 % etanola, i.p.). Kontrolne miši obdelamo samo z vehiklom. Vsem mišim odvzamemo kri 90 minut po dajanju LPS in analiziramo serumske vzorce za prisotnost TNFa s standardno ELISO.ICE-deficient and wild-type mice were first sensitized with Propiombacterium acnes cell wall material (1 mg per mouse) to induce low grade inflammation and were challenged 6 days later with lipopolysaccharide (LPS) (1 pg per mouse in 0.1 ml of physiological saline solutions, iv). Animals were treated with decreasing amounts of corticosteroid dexamethasone (0.5, 0.005, or 0.0005 mg / kg per mouse in 0.5 ml of 95% saline / 0.5% ethanol, i.p.) 15 minutes before the challenge with LPS. Control mice were treated with vehicle only. Blood was drawn on all mice 90 minutes after LPS administration and serum samples were analyzed for the presence of TNFα using standard ELISA.

Rezultati so prikazani na sl. 2. Tako miši divjega tipa kot tudi ICE deficientne miši kažejo odzivnost na predobdelovanje z 0,05 mg/kg deksametazona. V nasprotju s tem pa ICE deficientne miši, predhodno obdelane samo z 0,005 ali 0,0005 mg/kg deksametazona, kažejo 76 % in 78 % (p < 0,005) nižje ravni serumskega TNFa, v primerjavi s pomankanjem TNFa-supresije v podobno obdelanih živalih divjega tipa. Iz teh podatkov je razvidno, da ima inhibicija ICE-aktivnosti za posledico povečano steroidno občutljivost v modelu septičnega šoka, ker so 10- do 100-krat nižje doze deksametazona terapevtsko učinkovite pri ICE-deficientnih živalih v primerjavi z živahni divjega tipa.The results are shown in FIG. 2. Both wild-type and ICE-deficient mice exhibit a pretreatment response of 0.05 mg / kg dexamethasone. In contrast, ICE deficient mice pretreated with only 0.005 or 0.0005 mg / kg dexamethasone showed 76% and 78% (p <0.005) lower levels of serum TNFα, respectively, compared to lack of TNFα suppression in similarly treated animals. wild type. These data suggest that inhibition of ICE activity results in increased steroid sensitivity in the septic shock model because 10- to 100-fold lower doses of dexamethasone are therapeutically effective in ICE-deficient animals compared with live wild-type animals.

PRIMER 3:EXAMPLE 3:

Fosfodiesterazni IV inhibitor zniža proizvajanje IL-12.Phosphodiesterase IV inhibitor impairs IL-12 production.

V tem primeru raziskujemo učinek fosfodiesteraznega IV inhibitorja roliprama na proizvajanje IL-12, induciranega z LPS. Miši B6 predhodno obdelamo z vehiklom ali rolipramom (30 mg/kg v 0,5 ml 0,1 % metil celuloze, i.p.) 15 minut pred izzivom z LPS (10 pg/miš, i.v.). 90 minut po dajanju LPS mišim odvzamemo kri in ugotovimo serumske ravni IL-12 s standardno ELISO.In this case, we investigate the effect of the phosphodiesterase IV rolipram inhibitor on LPS-induced IL-12 production. B6 mice were pretreated with solvent or rolipram (30 mg / kg in 0.5 ml of 0.1% methyl cellulose, i.p.) 15 minutes before challenge with LPS (10 pg / mouse, i.v.). 90 minutes after LPS administration, blood was collected from mice and serum levels of IL-12 were determined by standard ELISA.

Rezultati so prikazani na sl. 3. Miši, predhodno obdelane z rolipramom, imajo 70 % nižje ravni serumskega IL-12 kot miši, predhodno obdelane samo z vehiklom. Iz teh podatkov je razvidno, da so fosfodiesterazni IV inhibitorji učinkoviti za inhibiranje proizvajanja IL-12, induciranega z LPS.The results are shown in FIG. 3. Mice pretreated with rolipram have 70% lower levels of serum IL-12 than mice pretreated with vehicle alone. These data indicate that phosphodiesterase IV inhibitors are effective for inhibiting LPS-induced IL-12 production.

PRIMER 4:EXAMPLE 4:

Cepitev IL-18 s proteazami kaspazne družine.Cleavage of IL-18 by caspase family proteases.

Sposobnost različnih rekombinantnih proteaz kaspazne družine (tj. izraženo v E. coli), da cepijo prekurzorski IL-18 (proIL-18) v zreli IL-18 preizkusimo s proteoliznim preizkusom in vitro. Cepitev poli(ADP-riboza) polimeraze (PARP) uporabimo kot pozitivno kontrolo. Rezultati so zbrani spodaj v tabeli 1.The ability of various recombinant proteases of the caspase family (i.e. expressed in E. coli) to cleave precursor IL-18 (proIL-18) in mature IL-18 was tested by in vitro proteolysis assay. The cleavage of poly (ADP-ribose) polymerase (PARP) was used as a positive control. The results are summarized below in Table 1.

Tabela 1. Proteoliza proIL-18 z rekombinantnimi kaspazami % cepitve kaspaza* koncentracija (ug/ml) proIL-18 PARPTable 1. ProILolysis of proIL-18 with recombinant caspases% caspase cleavage * concentration (ug / ml) of proIL-18 PARP

ICE ICE (1) (1) 1,25 1,25 100 100 99 99 ICH-2 ICH-2 (4) (4) 5,00 5,00 82 82 93 93 ICErelIIIICE rel III (5) (5) 20,00 20,00 55 55 90 90 CPP32 CPP32 (3) (3) 5,00 5,00 0a 0 a 100 100 Mch2 Mch2 (6) (6) 10,00 10,00 2 2 96 96 Mch3 Mch3 (7) (7) 5,00 5,00 32b 32 b 97 97 ICH-1 ICH-1 (2) (2) 75,00 75.00 5 5 98 98

Kaspaze so oštevilčene v oklepajih kot predlagajo: Alnemri et al. (1996) Celi 87:171.Caspases are numbered in parentheses as suggested by: Alnemri et al. (1996) Cel 87: 171.

a s CPP32 (5 μg/Inl) cepljen proIL-18, ki proizvede 12 kDa in 10 kDa fragment namesto pričakovanega 18 kDa-ffagmenta. a with CPP32 (5 μg / Inl) grafted proIL-18 producing a 12 kDa and 10 kDa fragment instead of the expected 18 kDa-fagment.

L drugače od drugih kaspaz Mch3 prekurzor, izražen v E. coli, ni izpostavljen avtokatalizi za proizvajanje aktivne proteaze. Dodatek ICE je potreben za iniciranje avtokatalize Mch3 in proizvajanje aktivne Mch3-proteaze. Delna cepitev proIL-18 z Mch3 je posredovana s prisotnostjo ICE pri pripravi Mch3.L unlike other caspases, the Mch3 precursor expressed in E. coli is not exposed to autocatalysis to produce active protease. ICE supplementation is required for the initiation of Mch3 autocatalysis and the production of active Mch3 protease. Partial cleavage of proIL-18 with Mch3 is mediated by the presence of ICE in Mch3 preparation.

PRIMER 5:EXAMPLE 5:

Zdravljenje septičnega šoka.Treatment of septic shock.

Paciente, ki kažejo v kliničnih okvirih septični šok (npr. v povezavi z inficiranimi abrazijami, projektilnimi poškodbami ali sistemskimi bakterimijami iz drugih virov) damo sredstvo, izbrano izmed ICE inhibitorja, fosfodiesteraznega IV inhibitorja (npr. rolipram, 30 mg/kg) in anti-IL-12-monoklonskega protitelesa, skupaj s kortikosteroidom (npr. visoka doza metilprednizolona, 1 g/dan, i.v.). Kortikosteroid inPatients exhibiting septic shock in clinical settings (eg in connection with infected abrasions, projectile damage or systemic bacteraemia from other sources) are administered an agent selected from an ICE inhibitor, a phosphodiesterase IV inhibitor (eg rolipram, 30 mg / kg) and anti -IL-12-monoclonal antibody, together with corticosteroid (eg high dose methylprednisolone, 1 g / day, iv). Corticosteroid and

100 sredstvo lahko damo simultano ali pa alternativno, lahko damo sredstvo pred dajanjem kortikosteroida ali po njem. Paciente obdelamo tudi z ustrezno antibiotično terapijo.100 may be administered concurrently or alternatively, the agent may be administered before or after corticosteroid administration. Patients are also treated with appropriate antibiotic therapy.

PRIMER 6:EXAMPLE 6:

Zdravljenje zavračanje transplantatov.Treatment of transplant rejection.

Pacientom, ki bodo prejeli transplantat ledvico, damo sredstvo, izbrano izmed ICE inhibitorja, fosfodiesteraznega IV inhibitorja (npr. rolipram, 30 mg/kg) in anti-IL-12 monoklonskega protitelesa, skupaj s kortikosteroidom (npr. oralni prednizon, 25-75 mg/dan). Prednostno začnemo zdravljenje pred prejemom ledvice od donatorja (npr. dajanje zdravila se lahko začne 24 ur pred prejemom ledvice od donatorja) z dozami, ki jih je treba ponoviti, če je potrebno (npr. vsakih 12 ur). Kortikosteroid in sredstvo lahko damo simultano ali alternativno, lahko damo sredstvo pred dajanjem kortikosteroida ali po njem. Paciente obdelamo tudi z dodatno imunosupresivno terapijo (kot je npr. zdravljenje s ciklosporinom A ali zdravljenje z OKT3protitelesom), tako da sta imunsko zavračanje in vnetni odziv simultano zatrta.Patients who will receive a kidney transplant are given an agent selected from an ICE inhibitor, a phosphodiesterase IV inhibitor (e.g., rolipram, 30 mg / kg), and an anti-IL-12 monoclonal antibody, together with a corticosteroid (e.g., oral prednisone, 25-75 mg / day). Preferably, start treatment before receiving kidney from the donor (eg, drug administration can be started 24 hours before receiving kidney from the donor) with doses to be repeated if necessary (eg every 12 hours). The corticosteroid and agent may be administered concomitantly or alternatively, the agent may be administered before or after corticosteroid administration. Patients are also treated with additional immunosuppressive therapy (such as ciclosporin A treatment or OKT3 antibody treatment) so that the immune rejection and inflammatory response are simultaneously suppressed.

PRIMER 7:EXAMPLE 7:

Izboljšanje učinka povratnega delovanja steroida.Improving the effect of steroid rebound.

Paciente z astmo, alergijskim rinitisnim vnetjem ali revmatoidnim artritisom, ki bodo izpostavljeni zdravljenju s kortikosteroidnim inhalantom ali sistemskimi kortikosteroidi in ki bodo začeli programirano ukinitev steroidnega zdravljenja, damo sredstvo, izbrano izmed ICE inhibitorja, fosfodiesteraznega IV inhibitorja (npr. rolipram, 30 mg/kg) in anti-IL-12 monoklonskega protitelesa. Paciente prednostno obdelamo pred pojemanjem ali prekinitvijo steroidnega zdravljenja, da izboljšamo vindikatomi učinek steroidov, ki je lahko posledica prekinitve steroidne terapije. Če je treba, paciente lahko obdelamo z dodatnimi nesteroidnimi in protivnetnimi sredstvi.Patients with asthma, allergic rhinitis or rheumatoid arthritis who will be exposed to treatment with a corticosteroid inhaler or systemic corticosteroids and who initiate programmed discontinuation of steroid therapy are given an agent selected from an ICE inhibitor, a phosphodiesterase IV inhibitor (eg 30 mg / kg rolipram ) and anti-IL-12 monoclonal antibody. Patients are preferentially treated prior to discontinuation or discontinuation of steroid therapy to improve the vindicative effect of steroids, which may be due to discontinuation of steroid therapy. If necessary, patients can be treated with additional NSAIDs.

101101

PRIMER 8:EXAMPLE 8:

Zdravljenje akutne epizode avtoimunske bolezni.Treatment of an acute episode of autoimmune disease.

Pacientom, ki trpijo zaradi akutne vzplamtitve avtoimunske bolezni, kot npr. vnetne Črevesne bolezni (npr. ulcerativni kolitis ali Crohnova bolezen), damo sredstvo, izbrano izmed ICE inhibitorja, fosfodiesteraznega IV inhibitorja (npr. rolipram, 30 mg/kg) in anti-IL-12 monoklonskega protitelesa skupaj s kortikosteroidom (npr. oralni prednizon, 25-75 mg/dan). Kortikosteroid in sredstvo lahko damo simultano ali alternativno, lahko sredstvo damo pred dajanjem kortikosteroida ali po njem. Paciente lahko obdelamo tudi z dodatno imunosupresivno terapijo za nadzor akutne vzplamtitve avtoimunske bolezni.Patients suffering from acute inflammation of an autoimmune disease, such as inflammatory bowel diseases (eg ulcerative colitis or Crohn's disease), administered an agent selected from an ICE inhibitor, a phosphodiesterase IV inhibitor (eg rolipram, 30 mg / kg) and an anti-IL-12 monoclonal antibody together with a corticosteroid (eg oral prednisone , 25-75 mg / day). The corticosteroid and agent may be administered concurrently or alternatively, the agent may be administered before or after corticosteroid administration. Patients can also be treated with additional immunosuppressive therapy to control acute inflammation of an autoimmune disease.

PRIMER 9;EXAMPLE 9;

Zdravljenje kronične avtoimunske bolezni.Treatment of chronic autoimmune disease.

Pacientom, ki trpijo zaradi kronične avtoimunske bolezni, kot je npr. Crohnova bolezen, damo sredstvo, izbrano izmed ICE inhibitorja, fosfodiesteraznega IV inhibitorja (npr. rolipram, 30 mg/kg) in anti-IL-12 monoklonskega protitelesa skupaj s kortikosteroidom (npr. oralni prednizon, 25-75 mg/dan). Kortikosteroid in sredstvo lahko damo simultano ali alternativno, lahko damo sredstvo pred dajanjem kortikosteroida ali po njem. Paciente prav tako lahko obdelamo z dodatno imunosupresivno terapijo, da kontroliramo avtoimunsko bolezen.Patients suffering from chronic autoimmune disease, such as Crohn's disease, administered an agent selected from an ICE inhibitor, a phosphodiesterase IV inhibitor (e.g., rolipram, 30 mg / kg), and an anti-IL-12 monoclonal antibody together with a corticosteroid (eg, oral prednisone, 25-75 mg / day). The corticosteroid and agent may be administered concomitantly or alternatively, the agent may be administered before or after corticosteroid administration. Patients can also be treated with additional immunosuppressive therapy to control autoimmune disease.

PRIMER 10;EXAMPLE 10;

Inhibicija proizvajanje IFN-γ z eliminiranjem NK-celic.Inhibition of IFN-γ production by elimination of NK cells.

V tem primeru induciramo šok v miših z obdelovanjem z visoko dozo LPS (40 mg/kg LPS, ki ga damo intravenozno). Učinek osiromašenja NK-celic na proizvajanje različnih citokinov v miših in na smrtnost raziskujemo z dajanjem protitelesa antiasialo-GMl (anti-ASGMl) intravenozno 10 minut pred dajanjem LPS. Kontrolne živali prejmejo zajčji IgG. Učinek obdelovanja z ASGM1 na proizvajanje IL-Ιβ,In this case, shock was induced in mice by treatment with a high dose of LPS (40 mg / kg LPS administered intravenously). The effect of NK cell depletion on the production of various cytokines in mice and on mortality is investigated by administration of antiasialo-GMl (anti-ASGMl) antibody intravenously 10 minutes before LPS administration. Control animals receive rabbit IgG. The effect of ASGM1 treatment on IL-Ιβ production,

TNFa in IFN-γ, kot tudi na smrtnost, je prikazan spodaj v tabeli 2.TNFα and IFN-γ, as well as mortality, are shown below in Table 2.

Tabela 2Table 2

102102

Obdelovanje Processing # miši # mice proizvajanje citokinov (pg/ml) cytokine production (pg / ml) smrtnost (30 h) % preživetih mortality (30 h) % of survivors IL-Ιβ IL-Ιβ TNFa TNFα IFN-γ IFN-γ LPS + zajčji IgG (kontrola) LPS + rabbits IgG (control) 6 6 19461483 19461483 585711071 585711071 16631811 16631811 0 (n=10)* 0 (n = 10) * LPS + ASGM1 protitelesa LPS + ASGM1 antibodies 6 6 16471482 16471482 545311103 545311103 3631108 3631108 90 (n=10) 90 (n = 10)

* Vse živali poginejo v 15 urah.* All animals die within 15 hours.

Iz teh rezultatov je razvidno, da eliminacija NK-celic z obdelovanjem s protitelesom anti-asialo-GMl zmanjša proizvajanje IFN-γ in podaljša preživetje po dajanju LPS pri šoku z visoko dozo LPS.These results suggest that the elimination of NK cells by anti-asialo-GMl antibody treatment reduces IFN-γ production and prolongs survival after administration of LPS in high-dose LPS shock.

PRIMERU:EXAMPLE:

Učinek ICE inhibitorja in kortikosteroida v modelu septičnega šoka.Effect of ICE inhibitor and corticosteroid in a septic shock model.

V tem Primeru uporabimo LPS/P. acnes model septičnega šoka, opisan v Primerih 1 in 2, za raziskovanje učinka ICE inhibitorja v kombinaciji s kortikosteroidom. Mišim B6 implantiramo za 24 ur osmotično črpalko, ki vsebuje ICE inhibitor acetil-tirozinvalin-alanin-asparaginska kislina-CHO (Ac-YVAD-CHO) (100 mg/kg), ali kontrolni vehikel, subkutano 18 ur pred injiciranjem LPS. LPS injiciramo intravenozno (0,01 μg/miš ali 10 μg/miš) v času nič. Vsem mišim injiciramo 5 mg/kg deksametazona intraperitonealno 30 minut po injiciranju LPS. Odzivnost živali na kortikosteroidno obdelovanje ugotavljamo z zapisovanjem ravni inflamatomega citokina TNFa, kotIn this example, LPS / P is used. the acnes septic shock model described in Examples 1 and 2 to investigate the effect of an ICE inhibitor in combination with a corticosteroid. The B6 mice were implanted for 24 hours with an osmotic pump containing an ICE inhibitor acetyl-tyrosinvalin-alanine-aspartic acid-CHO (Ac-YVAD-CHO) (100 mg / kg), or a control solvent, subcutaneously 18 hours before LPS injection. LPS was injected intravenously (0.01 μg / mouse or 10 μg / mouse) at time zero. All mice were injected with 5 mg / kg dexamethasone intraperitoneally 30 minutes after LPS injection. The response of animals to corticosteroid treatment is determined by recording the level of the inflammatory cytokine TNFα as

103 tudi interlevkina-6 (IL-6) in interlevkina-ΐβ (IL-Ιβ) v serumih miši. Vsem mišim vzamemo kri 90 minut po dajanju LPS in serumske vzorce analiziramo za prisotnost TNFa, IL-6 in IL-1 β s standardnimi metodami.103 also interleukin-6 (IL-6) and interleukin-ΐβ (IL-Ιβ) in mouse sera. Blood was collected from all mice 90 minutes after LPS administration and serum samples were analyzed for the presence of TNFα, IL-6 and IL-1 β by standard methods.

Rezultati so prikazani na sl. 4, 5 in 6 za TNFa, IL-6 oz. IL-Ιβ. Iz podatkov je razvidno, da imajo miši, obdelane z obema, tako z ICE inhibitorjem Ac-YVAD-CHO kot tudi deksametazonom, znatno nižje serumske ravni TNFa, IL-6 in IL-Ιβ, kadar uporabimo bodisi 0,01 pg oz. 10 pg LPS, da induciramo septični šok. Kot je bilo pred tem prikazano v Primeru 1, obdelovanje miši samo z deksametazonom ne vpliva znatno na ravni serumskega TNFa, kar kaže na odpornost miši proti obdelovanju samo s steroidom v tem modelu septičnega šoka. V nasprotju s tem pa obdelovanje miši tako z deksametazonom kot tudi ICE inhibitorjem zatre ravni serumskega TNFa za 96 % (p < 0,005) pri miših, obdelanih z 0,01 pg LPS, in za 86 % (p < 0,005) pri miših, obdelanih z 10 pg LPS. Poleg tega so serumske ravni IL-6 zmanjšane 95 % (p < 0,00005) oz. 91 % (p < 0,00005), ravni serumskega IL-Ιβ pa so zmanjšane 94 % (p < 0,001) oz. 92 % (p < 0,0002). Ti podatki kažejo, da inhibicija ICE-aktivnosti z uporabo ICE inhibitorja obme odpornost pri obdelovanju s steroidom v modelu septičnega šoka.The results are shown in FIG. 4, 5 and 6 for TNFα, IL-6, or. IL-Ιβ. The data showed that mice treated with both ICE inhibitor Ac-YVAD-CHO and dexamethasone had significantly lower serum levels of TNFα, IL-6 and IL-Ιβ when using either 0.01 pg or. 10 pg LPS to induce septic shock. As previously shown in Example 1, treatment of mice with dexamethasone alone did not significantly affect serum TNFα levels, indicating the resistance of mice to steroid-only treatment in this model of septic shock. In contrast, treatment of mice with both dexamethasone and ICE inhibitors suppressed serum TNFα levels by 96% (p <0.005) in 0.01 pg LPS treated mice and 86% (p <0.005) in treated mice with 10 pg LPS. In addition, serum IL-6 levels are reduced by 95% (p <0.00005) or. 91% (p <0.00005) and serum IL-Ιβ levels decreased 94% (p <0.001) and 92% (p <0.0002). These data indicate that inhibition of ICE activity using an ICE inhibitor obviates resistance to steroid treatment in a septic shock model.

PRIMER 12:EXAMPLE 12:

Sinteza hidroksamatnih ICE inhibitorjev.Synthesis of hydroxamate ICE inhibitors.

3-benziloksikarbonilamino-4-okso-5-fenilacetilaminooksi-pentanoiska kislina3-Benzyloxycarbonylamino-4-oxo-5-phenylacetylaminooxy-pentanoic acid

Stopnja ALevel A

N-(fenilmetoksi)-benzenacetamid [(0,760 g, 3,15 mmol), pripravljen po postopku Heama M.T.W. in Warda A.D. (Aust. J. Chem., 1969:22:1731)] prevzamemo v 10 ml CH3CN in obdelamo z dimetilamino-piridinom (DMAP) (50 mg) in diterc.butildikarbonatom (0,824 g, 3,78 mmol). Reakcijsko zmes pustimo, da se meša pod argonom 12 ur, nato jo razredčimo z etilacetatom (EtOAc) in speremo s 3M K2S2O5 (1 x 10 ml), NaHCO3 (1 x 10 ml). Organsko plast posušimo nad Na2SO4,N- (phenylmethoxy) -benzenacetamide [(0.760 g, 3.15 mmol) prepared by the method of Heam MTW and Ward AD (Aust. J. Chem., 1969: 22: 1731)] was taken up in 10 ml of CH 3 CN and treated with dimethylamino-pyridine (DMAP) (50 mg) and diterbutyl dicarbonate (0.824 g, 3.78 mmol). The reaction mixture was allowed to stir under argon for 12 hours, then diluted with ethyl acetate (EtOAc) and washed with 3M K2S2O5 (1 x 10 ml), NaHCO 3 (1 x 10 ml). The organic layer is dried over Na 2 SO4,

104 filtriramo in koncentriramo. S čiščenjem s kromatografijo (SiO2, 9:1 heksan-EtOAc) dobimo 0,910 g (84 %) l,l-dimetiletil(fenilacetil)fenil-metoksi)karbamata kot bistro viskozno olje.104 filtered and concentrated. Purification by chromatography (SiO 2 , 9: 1 hexane-EtOAc) gave 0.910 g (84%) of 1,1-dimethylethyl (phenylacetyl) phenyl-methoxy) carbamate as a clear viscous oil.

‘H NMR (400 MHz, DMSO-do): a 7,41 [m, 5Η], 7,32 [m, 2Η], 7,24 [m, 3Η], 4,90 [s, 2Η], 4,09 [s, 2Η], 1,48 [s, 9Η], IR (tanek film), 3063, 3032, 2979, 2935, 2886, 1777, 1736, 1497, 1455, 1370, 1302 cm'1. Masni spekter (MS) (kemijska ionizacija [Cl] NH3) 342 (M+ + H).1 H NMR (400 MHz, DMSO-do):? 7.41 [m, 5Η], 7.32 [m, 2Η], 7.24 [m, 3Η], 4.90 [s, 2Η], 4 , 09 [s, 2Η], 1.48 [s, 9Η], IR (thin film), 3063, 3032, 2979, 2935, 2886, 1777, 1736, 1497, 1455, 1370, 1302 cm -1 . Mass spectrum (MS) (chemical ionization [Cl] NH 3 ) 342 (M + + H).

Elementna analiza:Elemental analysis:

Izrač. za C20H23NO4.0,051 CH2C12: C 69,66; H 6,74; N 4,05.Calc. for C 20 H 23 NO 4 .0.051 CH 2 C1 2 : C 69.66; H, 6.74; N, 4.05.

Ugot.: C 69,66; H 6,83; N 3,99.Found: C, 69.66; H, 6.83; N, 3.99.

Stopnja BLevel B

1,1-dimetiletil (fenilacetil)(fenil-metoksi)karbamat (810 mg, 2,37 mmol) raztopimo v 75 ml suhega THF in dodamo 90 mg 5 % Pd/BaSO4. Reakcijsko zmes obdelujemo s H2(l,3.105 Pa) 20 ur. Reakcijsko zmes filtriramo skozi Celite in koncentriramo, da dobimo 588 mg (99 %) l,l-dimetil-etilhidroksi(fenilacetil)karbamata kot olje. Nadaljnjega čiščenja nismo izvajali.1,1-Dimethylethyl (phenylacetyl) (phenyl-methoxy) carbamate (810 mg, 2.37 mmol) was dissolved in 75 ml of dry THF and 90 mg of 5% Pd / BaSO 4 was added . The reaction mixture was treated with H 2 (1, 3.10 5 Pa) for 20 hours. The reaction mixture was filtered through Celite and concentrated to give 588 mg (99%) of 1,1-dimethyl-ethylhydroxy (phenylacetyl) carbamate as an oil. No further purification was performed.

*H NMR (400 MHz, CDC13): a 8,22 [s, 1Η], 7,31 [m, 5Η], 4,24 [s, 2Η], 1,55 [s, 9Η],1 H NMR (400 MHz, CDCl 3 ):? 8.22 [s, 1Η], 7.31 [m, 5Η], 4.24 [s, 2Η], 1.55 [s, 9Η].

Stopnja C (S)-5-bromo-4-okso-3-[[(fenilmetoksi)-karbonil]amino]-pentanojska kislina 1,1dimetiletil ester [(297 mg, 0,742 mmol), pripravljen po postopku Dolle R.E. et al., (J. Med, Chem., 1994; 37:563-4)], l,l-dimetiletilhidroksi(fenilacetil)karbamat (187 mg, 0,742 mmol) in KF (104 mg, 1,85 mmol) združimo v 5 ml dimetilformamida (DMF) in pustimo, da se meša pod argonom 12 ur. Reakcijsko zmes razredčimo z EtOAc (15 ml) in speremo z vodo (3 x 15 ml) in slanico (1 x 15 ml). Organsko plast posušimo nad Na2SO3 in koncentriramo. S čiščenjem s kromatografijo (SiO2, 4:1 heksan-EtOAc) dobimo 168 mg (40 %) [[[(l,l-dimetiletoksi)-karbonil](fenilacetil)amino]oksi]-4okso-3-[[((fenilmetoksi)karbonil]amino]-pentanojska kislina 1,1-dimetiletil estra kot bistro olje.Step C (S) -5-Bromo-4-oxo-3 - [[(phenylmethoxy) -carbonyl] amino] -pentanoic acid 1,1-dimethylethyl ester [(297 mg, 0.742 mmol) prepared by Dolle RE et al. , (J. Med, Chem., 1994; 37: 563-4)], 1,1-dimethylethylhydroxy (phenylacetyl) carbamate (187 mg, 0.742 mmol) and KF (104 mg, 1.85 mmol) were combined in 5 ml. of dimethylformamide (DMF) and allowed to stir under argon for 12 hours. The reaction mixture was diluted with EtOAc (15 ml) and washed with water (3 x 15 ml) and brine (1 x 15 ml). The organic layer was dried over Na 2 SO 3 and concentrated. Purification by chromatography (SiO 2 , 4: 1 hexane-EtOAc) gave 168 mg (40%) of [[[(1,1-dimethylethoxy) -carbonyl] (phenylacetyl) amino] oxy] -4-oxo-3 - [[( (phenylmethoxy) carbonyl] amino] -pentanoic acid 1,1-dimethylethyl ester as a clear oil.

‘H NMR (300 MHz, CDC13): a 7,35 [m, 5Η], 5,84 [d, J = 9,0 Hz, 1Η], 4,79, [A od AB, J = 15,3 Hz, 1Η], 4,70 [m, 1Η], 4,57 [B od AB, J = 15,3 Hz, 1Η], 4,10 [s, 2Η],1 H NMR (300 MHz, CDCl 3 ):? 7.35 [m, 5Η], 5.84 [d, J = 9.0 Hz, 1Η], 4.79, [A of AB, J = 15. 3 Hz, 1Η], 4.70 [m, 1Η], 4.57 [B of AB, J = 15.3 Hz, 1Η], 4.10 [s, 2Η],

105105

3,09 [dd, J = 16,8, 4,6 Hz, 1Η], 2,79 [dd, J = 16,8, 4,9 Hz, 1Η], 1,52 [s, 9Η], 1,39 [s, 9Η], IR (tanek film) 3374, 2980, 2935, 1726 (br), 1499, 1370, 1298, 1150 cm'1. MS (APCI, metanol (MeOH)) 571,5 (M+ + H).3.09 [dd, J = 16.8, 4.6 Hz, 1Η], 2.79 [dd, J = 16.8, 4.9 Hz, 1Η], 1.52 [s, 9Η], 1 , 39 [s, 9Η], IR (thin film) 3374, 2980, 2935, 1726 (br), 1499, 1370, 1298, 1150 cm -1 . MS (APCI, methanol (MeOH)) 571.5 (M + + H).

Elementna analiza:Elemental analysis:

izrač. za C3oH38N209: C 63,15; H 6,71; N 4,91.calcd. for C 3 oH 38 N 2 0 9 : C 63.15; H, 6.71; N, 4.91.

ugot.: C 62,76; H 6,70; N 4,69.Found: C, 62.76; H, 6.70; N, 4.69.

Stopnja DLevel D

3-benziloksikarbonilamino-4-okso-5-fenilacetilaminooksi-pentanojska kislina, 1,1dimetiletil ester (208 mg, 0,365 mmol) prevzamemo v 3 ml 1:1 trifluoroocetne kisline (TFA)/CH2Cl2 in pustimo, da se meša 2 uri. Reakcijsko zmes razredčimo z acetonitrilom (MeCN) (10 ml) in koncentriramo. Ostanek ločimo od MeCN petkrat. S čiščenjem s kromatografijo (SiO2, 90:9:1 CH2Cl2-aceton-mravljinčna kislina) dobimo 3-benziloksikarbonilamino-4-okso-5-fenilacetilaminooksi-pentanojsko kislino (51 mg, 34 %) kot belo peno.3-Benzyloxycarbonylamino-4-oxo-5-phenylacetylaminooxy-pentanoic acid, 1,1-dimethylethyl ester (208 mg, 0.365 mmol) was taken up in 3 ml of 1: 1 trifluoroacetic acid (TFA) / CH 2 Cl 2 and allowed to stir for 2 hours . The reaction mixture was diluted with acetonitrile (MeCN) (10 ml) and concentrated. The residue was separated from MeCN five times. Purification by chromatography (SiO 2 , 90: 9: 1 CH 2 Cl 2 -acetone-formic acid) gave 3-benzyloxycarbonylamino-4-oxo-5-phenylacetylaminooxy-pentanoic acid (51 mg, 34%) as a white foam.

‘H NMR (300 MHz, CDC13): a 8,63 [s, 1Η], 7,34 [širok (br), s, 10Η], 5,48 [br, d, J = 4 Hz, 1Η], 5,08 [br dd, J = 16, 12 Hz, 2Η], 4,23 [m, 1Η], 3,97 [m, 2Η], 3,58 [br, s, 2Η], 2,80 [m, 1Η], 2,64 [m, IH].1 H NMR (300 MHz, CDCl 3 ):? 8.63 [s, 1Η], 7.34 [broad (br), s, 10Η], 5.48 [br, d, J = 4 Hz, 1Η] , 5.08 [br dd, J = 16, 12 Hz, 2Η], 4.23 [m, 1Η], 3.97 [m, 2Η], 3.58 [br, s, 2Η], 2.80 [m, 1Η], 2.64 [m, 1H].

IR (KBr) 3305 (br), 2928, 1791, 1772, 1717, 1699, 1685, 1674, 1654, 1521,IR (KBr) 3305 (br), 2928, 1791, 1772, 1717, 1699, 1685, 1674, 1654, 1521,

1455 cm'1.1455 cm 1 .

MS (APCI, MeOH) 415 (M+ + H).MS (APCI, MeOH) 415 (M + + H).

Elementna analiza:Elemental analysis:

izrač.: za C21H22N2O7.0,106 CF3CO2H: C 59,73; H 5,22; N 6,57.calc .: C 21 H 22 N 2 O 7 .0,106 CF 3 CO 2 H: C, 59.73; H, 5.22; N, 6.57.

ugot.: C 59,73; H 5,46; N 6,28.Found: C, 59.73; H, 5.46; N, 6.28.

Spodaj navedene spojine pripravimo iz (S)-5-bromo-4okso-3-[[(fenibnetoksi)karbonil]amino]-pentanojska kislina 1,1-dimetiletil estra na način, opisan zgoraj v stopnji C in stopnji D.The compounds listed below are prepared from (S) -5-bromo-4-oxo-3 - [[(phenibnetoxy) carbonyl] amino] -pentanoic acid 1,1-dimethylethyl ester as described above in step C and step D.

106106

3-benziloksikarbonilamino-4-okso-5-(2-okso-pirolidin-l-iloksi)-pentanoiska kislina3-Benzyloxycarbonylamino-4-oxo-5- (2-oxo-pyrrolidin-1-yloxy) -pentanoic acid

Stopnja ALevel A

Pripravljeno iz l-hidroksi-2-pirolidinona [Biswas A. in Miller M.J. (Heterocvcles, 1987; 26:2849)] na način, opisan zgoraj v stopnji C, da dobimo 3benziloksikarbonilamino-4-okso-5-(2-okso-pirolidin-l-iloksi)-pentanojska kislina 1,1dimetiletil ester (74 %).Prepared from l-hydroxy-2-pyrrolidinone [Biswas A. and Miller M.J. (Heterocycles, 1987; 26: 2849)] in the manner described above in step C to give 3-benzyloxycarbonylamino-4-oxo-5- (2-oxo-pyrrolidin-1-yloxy) -pentanoic acid 1,1-dimethylethyl ester (74% ).

’H NMR (400 MHz, CDC13): a 7,37 [m, 5H]; 5,88 [br, d, J = 8,9 Hz] 5,16 [A od AB, J = 12,2 Hz, IH]; 5,11 [B od AB, J = 12,2 Hz, IH]; 4,95 [A od AB, J = 17,1 Hz, 1Η], 4,81 [B od AB, J = 17,1 Hz, 1Η], 4,60 [m, 1Η], 3,62 [m, 2Η], 3,01 [dd, J = 17,1, 4,6 Hz, 1Η], 2,75 [dd, J = 17,1, 4,8 Hz, 1Η], 2,30 [t, J = 7,95 Hz, 2Η], 1,99 [kvinta, J =1 H NMR (400 MHz, CDCl 3 ):? 7.37 [m, 5H]; 5.88 [br, d, J = 8.9 Hz] 5.16 [A of AB, J = 12.2 Hz, 1H]; 5.11 [B from AB, J = 12.2 Hz, 1H]; 4.95 [A from AB, J = 17.1 Hz, 1Η], 4.81 [B from AB, J = 17.1 Hz, 1Η], 4.60 [m, 1Η], 3.62 [m , 2Η], 3.01 [dd, J = 17.1, 4.6 Hz, 1Η], 2.75 [dd, J = 17.1, 4.8 Hz, 1Η], 2.30 [t, J = 7.95 Hz, 2Η], 1.99 [quint, J =

7,5 Hz, 2Η], 1,41 [s, 9Η], IR (KBr) 3328 (br), 2976, 2932, 1717, 1701, 1522, 1256 cm'1.7.5 Hz, 2Η], 1.41 [s, 9Η], IR (KBr) 3328 (br), 2976, 2932, 1717, 1701, 1522, 1256 cm -1 .

MS (APCI, MeOH) 421 (M+ + H).MS (APCI, MeOH) 421 (M + + H).

Elementna analiza:Elemental analysis:

izrač. za C2iH28N2O7.0,096 DMF: C 59,81; H 6,76; N 6,87.calcd. for C 2 H 28 N 2 O 7.0.096 DMF: C 59.81; H, 6.76; N, 6.87.

ugot.: C 59,56; H 7,00; N 6,52.Found: C, 59.56; H, 7.00; N, 6.52.

Stopnja B:Level B:

Pripravljeno iz 3-benziloksikarbonilamino-4-okso-5-(2-okso-pirolidin- 1-iloksi)pentanojska kislina 1,1-dimetiletil estra na način, opisan zgoraj v stopnji D, da dobimo 3-benziloksikarbonilamino-4-okso-5-(2-okso-pirolidin-l-iloksi)-pentanojsko kislino (72 %).Prepared from 3-benzyloxycarbonylamino-4-oxo-5- (2-oxo-pyrrolidin-1-yloxy) pentanoic acid 1,1-dimethylethyl ester in the manner described above in step D to give 3-benzyloxycarbonylamino-4-oxo- 5- (2-Oxo-pyrrolidin-1-yloxy) -pentanoic acid (72%).

’H NMR (400 MHz, CDC13): a 8,55 [br s, 1Η], 7,36 [m, 5Η], 5,46 [br d, J = 9,4 Hz, 1Η], 5,14 [A od AB, J = 5,2 Hz, 1Η], 5,11 [B od AB, J = 5,2 Hz, 1Η], 4,23 [m, 1Η],1 H NMR (400 MHz, CDCl 3 ):? 8.55 [br s, 1Η], 7.36 [m, 5Η], 5.46 [br d, J = 9.4 Hz, 1Η], 5. 14 [A of AB, J = 5.2 Hz, 1Η], 5.11 [B of AB, J = 5.2 Hz, 1Η], 4.23 [m, 1Η],

4,19 [A od AB, J = 13,3 Hz, 1Η], 3,96 [B od AB, J = 13,3 Hz, 1Η], 3,67 [m, 1Η], 3,52 [dd, J = 15,1, 7,9 Hz, 1Η], 2,84 [dd, J = 16,9, 8,2 Hz, 1Η], 2,61 [dd, J = 16,9, 10,9 Hz, 1Η], 2,42 [m, 2Η], 2,11 [m, 2H]. IR (KBr) 3408 (br), 2926, 1791, 1717, 1700, 1540, 1268, 1054 cm'1. MS (APCI, MeOH) 365 (M+ + H).4.19 [A of AB, J = 13.3 Hz, 1Η], 3.96 [B of AB, J = 13.3 Hz, 1Η], 3.67 [m, 1Η], 3.52 [dd , J = 15.1, 7.9 Hz, 1Η], 2.84 [dd, J = 16.9, 8.2 Hz, 1Η], 2.61 [dd, J = 16.9, 10.9 Hz, 1Η], 2.42 [m, 2Η], 2.11 [m, 2H]. IR (KBr) 3408 (br), 2926, 1791, 1717, 1700, 1540, 1268, 1054 cm -1 . MS (APCI, MeOH) 365 (M + + H).

Analiza: izrač. za Ci7H2oN207.0,32 C3H7OC3H7: C 57,27; H 6,24; N 7,04.Analysis: Calc. for Ci 7 H 2 oN 2 0 7 .0.32 C 3 H 7 OC 3 H 7 : C 57.27; H, 6.24; N, 7.04.

107107

Ugot.: C 57,27; Η 6,24; N 6,74.Found: C, 57.27; Η 6.24; N, 6.74.

-benziloksikarbonilamino-5-( 3, 5-diokso-10-oksa-4-aza-triciklo [5.2.1.02,6ldec-8-en-4iloksi)-4-okso-pentanojska kislina-Benzyloxycarbonylamino-5- (3, 5-dioxo-10-oxa-4-aza-tricyclo [5.2.1.0 2,6 ldec-8-ene-4yloxy) -4-oxo-pentanoic acid

Stopnja ALevel A

Pripravlj eno iz 3 a,4,7,7a-tetrahidro-2-hidroksi-4,7-epoksi-1 H-izoindol-1,3 (2H)-diona [Narita M., Teramoto T, Okawara M (Buli. Chem. Soc. Jap., 1971; 44:1084)] na način, opisan zgoraj v stopnji C, da dobimo 3-benziloksikarbonilamino-5-(3,5-diokso10-oksa-4-aza-triciklo[5.2.1.02,6]dec-8-en-4-iloksi)-4-okso-pentanojska kislina 1,1dimetiletil ester (64 %).Prepared from 3a, 4,7,7a-tetrahydro-2-hydroxy-4,7-epoxy-1H-isoindole-1,3 (2H) -dione [Narita M., Teramoto T, Okawara M (Buli. Chem. Soc. Jap., 1971; 44: 1084)] in the manner described above in step C to give 3-benzyloxycarbonylamino-5- (3,5-dioxo10-oxa-4-aza-tricyclo [5.2.1.0 2 , 6 ] dec-8-en-4-yloxy) -4-oxo-pentanoic acid 1,1-dimethylethyl ester (64%).

!H NMR (400 MHz, DMSO-d6): a 7,84 [d, J = 8,2 Hz, 1Η], 7,34 [m, 5Η], 6,54 [s, 2Η], 5,16 [s, 2H]; 5,07 [A od AB, J = 12,5 Hz, 1Η], 5,03 [B od AB, J = 12,5 Hz, 1Η], ! H NMR (400 MHz, DMSO-d 6 ): a 7.84 [d, J = 8.2 Hz, 1Η], 7.34 [m, 5Η], 6.54 [s, 2Η], 5.16 [s, 2H]; 5.07 [A from AB, J = 12.5 Hz, 1Η], 5.03 [B from AB, J = 12.5 Hz, 1Η],

4,93 [A od AB, J = 16,2 Hz, 1Η], 4,87 [B od AB, J = 16,2 Hz, 1Η], 4,52 [m, 1Η], 2,87 [s, 2Η], 2,73 [dd, J = 16,2, 5,8 Hz, 1Η], 2,50 [zasenčen z dimetil-sulfoksid (DMSO) resonanco], 1,37 [s, 9Η], IR (KBr) 3421, 2979, 2930, 1790, 1726, 1520, 1368 cm'1. MS (APCI, MeOH) 445 (M+ -C4H8).4.93 [A from AB, J = 16.2 Hz, 1Η], 4.87 [B from AB, J = 16.2 Hz, 1Η], 4.52 [m, 1Η], 2.87 [s , 2Η], 2.73 [dd, J = 16.2, 5.8 Hz, 1Η], 2.50 [dimmed by dimethyl sulfoxide (DMSO) resonance], 1.37 [s, 9Η], IR ( KBr) 3421, 2979, 2930, 1790, 1726, 1520, 1368 cm -1 . MS (APCI, MeOH) 445 (M + -C 4 H 8 ).

Analiza: izrač. za C25H28N2O9; C 59,65; H 5,70; N 5,35.Analysis: Calc. for C25H28N2O9; C, 59.65; H, 5.70; N, 5.35.

Ugot.: C 59,99; H 5,64; N 5,60.Found: C, 59.99; H, 5.64; N, 5.60.

Stopnja BLevel B

Pripravljeno iz 3-benziloksikarbonilamino-5-(3,5-diokso-10oksa-4-azatriciklo[5.2.1.02,6]dek-8-en-4-iloksi)-4-okso-pentanojska kislina 1,1dimetiletil estra na način, opisan zgoraj v stopnji C, da dobimo 3-benziloksikarbonilamino-4-okso-5-fenilacetilaminooksi-pentanojsko kislino (78 %). IR (tanek film) 3360, 1789, 1723, 1530, 1220 cm'1. MS (APCI, MeOH) 445 (M+ + H). Elementna analiza:Prepared from 3-benzyloxycarbonylamino-5- (3,5-dioxo-10-oxa-4-azatricyclo [5.2.1.0 2,6 ] dec-8-en-4-yloxy) -4-oxo-pentanoic acid 1,1-dimethylethyl ester method described above in step C to give 3-benzyloxycarbonylamino-4-oxo-5-phenylacetylaminooxy-pentanoic acid (78%). IR (thin film) 3360, 1789, 1723, 1530, 1220 cm -1 . MS (APCI, MeOH) 445 (M + + H). Elemental analysis:

Izrač. za C2iH20N2O9.0,194 CF3CO2H: C 55,06; H 4,36; N 5,96.Calc. for C 2 H 20 N 2 O 9.0, 194 CF 3 CO 2 H: C 55.06; H, 4.36; N, 5.96.

Ugot.: C 55,06; H 4,58; N 5,99.Found: C 55.06; H, 4.58; N, 5.99.

3-benziloksikarbonilamino-5-(2-okso-2,3-dihidro-indol-l-iloksi)-4-okso-pentanoiska kislina3-Benzyloxycarbonylamino-5- (2-oxo-2,3-dihydro-indol-1-yloxy) -4-oxo-pentanoic acid

108108

Pripravljeno iz 1-hidroksioksiindola [Kende A.S. in Thurston J. (Svnthetic Communications, 1990; 20:2133-8)], da dobimo 3-benziloksikarbonilamino-4-okso-5(2-okso-2,3-dihidro-indol-l-iloksi)-pentanojsko kislino (24 %), tal.: 58-70 °C (razpad).Prepared from 1-hydroxyoxyindole [Kende A.S. and Thurston J. (Svnthetic Communications, 1990; 20: 2133-8)] to give 3-benzyloxycarbonylamino-4-oxo-5 (2-oxo-2,3-dihydro-indol-1-yloxy) -pentanoic acid ( 24%), mp 58-70 ° C (decomposition).

Elementna analiza:Elemental analysis:

Izrač. za C2iH2oN207: C 61,16; H 4,89; N 6,79.Calc. for C2iH 2 oN 2 0 7: C, 61.16; H, 4.89; N, 6.79.

Ugot.: C 60,84; H 4,72; N 6,46.Found: C, 60.84; H, 4.72; N, 6.46.

3-benziloksl·karbonilamino-5-(7-metoksikarbonilmetil-2-okso-oktab^dro-indol-liloksi)-4-okso-pentanoiska kislina3-Benzyloxy · carbonylamino-5- (7-methoxycarbonylmethyl-2-oxo-octabutro-indole-lyloxy) -4-oxo-pentanoic acid

Stopnja ALevel A

Hidroksilamin hidroklorid (200 mmol, 13,8 g) raztopimo v piridinu (200 mmol, 16 ml) in metanolu (10 ml) in to raztopino dodamo zmesi cis-2-okso-l,3-cikloheksandiocetna kislina, dimetil estra [(35 mmol, 8,5 g), pripravljeno po postopku, ki ga opisujejo: Grieco P.A., Noguez J.A., Masaki Y., Hiroi K., Nishizawa M.,Rosowsky A., Oppenheim S,, Lazarus H. J. Med. Chem,, 1977; 20:71] v 200 ml MeOH. V to raztopino dodamo po deležih NaCNBH4 (30 mmol, 1,9 g) v približno 1 uri in dobljeno raztopino mešamo pri sobni temperaturi 4 dni. Reakcijsko zmes nato koncentriramo do suhega, ponovno raztopimo v 500 ml etil acetata in speremo s 3 x 50 ml nasičenega NaCl, posušimo z Na2SO4, filtriramo in koncentriramo, da dobimo surovo trdno snov, kije večinoma želeni produkt in piridin. Surovi oktahidro-l-hidroksi-2-okso-lH-indol7-ocetna kislina metil ester prekristaliziramo iz EtOAc, da dobimo 4,05 g (51 %) bele trdne snovi.Hydroxylamine hydrochloride (200 mmol, 13.8 g) was dissolved in pyridine (200 mmol, 16 ml) and methanol (10 ml) and this solution was added to a mixture of cis-2-oxo-1,3-cyclohexanedioacetic acid, dimethyl ester [(35 mmol, 8.5 g) prepared according to the procedure described by: Grieco PA, Noguez JA, Masaki Y., Hiroi K., Nishizawa M., Rosowsky A., Oppenheim S ,, Lazarus HJ Med. Chem, 1977; 20:71] in 200 ml MeOH. NaCNBH 4 (30 mmol, 1.9 g) was added to this solution in approximately 1 hour and the resulting solution was stirred at room temperature for 4 days. The reaction mixture was then concentrated to dryness, redissolved in 500 ml of ethyl acetate and washed with 3 x 50 ml of saturated NaCl, dried with Na 2 SO 4 , filtered and concentrated to give the crude solid, which is mainly the desired product and pyridine. The crude octahydro-1-hydroxy-2-oxo-1H-indole7-acetic acid methyl ester was recrystallized from EtOAc to give 4.05 g (51%) of a white solid.

‘H-NMR: 9,26 [IH, s], 3,64 [IH, dd], 3,59 [3H, s], 2,65 [IH, dd], 2,49 [IH, dd], 2,34 [IH, dd], 2,18 [IH, m], 2,04 [IH, m], 1,79 [IH, d], 1,62 [IH, m], 1,60 [IH, s-br], 1,42 [IH, m], 1,25 [2H, m], 1,06 [IH, m]. MS (CI, NH3) 228 (M+ + H).1 H-NMR: 9.26 [1H, s], 3.64 [1H, dd], 3.59 [3H, s], 2.65 [1H, dd], 2.49 [1H, dd], 2.34 [IH, dd], 2.18 [IH, m], 2.04 [IH, m], 1.79 [IH, d], 1.62 [IH, m], 1.60 [IH , s-br], 1.42 [1H, m], 1.25 [2H, m], 1.06 [1H, m]. MS (CI, NH 3 ) 228 (M + + H).

109109

Stopnja BLevel B

Pripravljeno iz oktahidro-l-hidroksi-2-okso-lH-indol-7-ocetna kislina metil estra na način, opisan zgoraj v stopnji C, da dobimo 3-benziloksikarbonilamino-5-(7metoksikarbonilmetil-2-okso-oktahidro-indol-l-iloksi)-4-okso-pentanojska kislina 1,1trimetiletil ester kot steklasto olje (45 %).Prepared from octahydro-1-hydroxy-2-oxo-1H-indole-7-acetic acid methyl ester in the manner described above in step C to give 3-benzyloxycarbonylamino-5- (7methoxycarbonylmethyl-2-oxo-octahydro-indole- 1-yloxy) -4-oxo-pentanoic acid 1,1-trimethylethyl ester as a glassy oil (45%).

'H NMR (400 MHz, DMSO-d6, 1:1 zmes diastereomerov): a 7,85 [d, J = 5,8 Hz, 0,5 Η], 7,83 [d, J = 5,8 Hz, 0,5 Η], 7,35 [m, 5Η], 5,06 [s, 2Η], 4,94 [A od AB, J = 16,9 Hz, 0,25 Η], 4,87 [A od AB, J = 17,6 Hz, 0,25 Η], 4,82 [B od AB, J = 17,6 Hz, 0,25 Η], 4,74 [B od AB, J = 16,9 Hz, 0,25 Η], 4,23 [m, 1Η], 3,82 [m, 0,5 Η], 3,79 [m, 0,5 Η], 3,57 [s, 1,5 H]; 3,57 [s, 1,5 Η], 2,72 [m, 0,5 Η], 2,70 [m, 0,5 Η], 2,52 [m, zasenčen z DMSO], 2,39 [m, 2Η], 2,22 [br m, 1Η], 2,10 [br m, 1Η], 1,88 [br s, 0,5 Η], 1,84 [br s, 0,5 Η], 1,61 [m, 2Η], 1,42 [m, 1Η], 1,36 [s, 9 Η], 1,25 [m, 2 Η], 1,06 [m, IH]. IR (tanek film) 3418, 3344, 3017, 2979, 2934, 2860, 1725, 1506 cm’1. MS (APCI, MeOH) 547,6 (M+ + H).1 H NMR (400 MHz, DMSO-d 6 , 1: 1 mixture of diastereomers): a 7.85 [d, J = 5.8 Hz, 0.5 Η], 7.83 [d, J = 5.8 Hz, 0.5 Η], 7.35 [m, 5Η], 5.06 [s, 2Η], 4.94 [A of AB, J = 16.9 Hz, 0.25 Η], 4.87 [A from AB, J = 17.6 Hz, 0.25 Η], 4.82 [B from AB, J = 17.6 Hz, 0.25 Η], 4.74 [B from AB, J = 16 , 9 Hz, 0.25 Η], 4.23 [m, 1Η], 3.82 [m, 0.5 Η], 3.79 [m, 0.5 Η], 3.57 [s, 1 , 5 H]; 3.57 [s, 1.5 Η], 2.72 [m, 0.5 Η], 2.70 [m, 0.5 Η], 2.52 [m, shaded by DMSO], 2.39 [m, 2Η], 2.22 [br m, 1Η], 2.10 [br m, 1Η], 1.88 [br s, 0.5 Η], 1.84 [br s, 0.5 Η ], 1.61 [m, 2Η], 1.42 [m, 1Η], 1.36 [s, 9 Η], 1.25 [m, 2 Η], 1.06 [m, 1H]. IR (thin film) 3418, 3344, 3017, 2979, 2934, 2860, 1725, 1506 cm -1 . MS (APCI, MeOH) 547.6 (M + + H).

Stopnja CLevel C

Pripravljeno iz 3-benziloksikarbonilamino-5-(7-metoksikarbonilmetil-2-oksooktahidro-indol-l-iloksi)-4-okso-pentanojska kislina 1,1-trimetiletil estra na način, opisan zgoraj v stopnji D, da dobimo 3-benziloksi-karbonilamino-5-(7metoksikarbonilmetil-2-okso-oktahidro-indol- l-iloksi)-4-okso-pentanojsko kislino (45 %), tal.: 55-58 °C.Prepared from 3-benzyloxycarbonylamino-5- (7-methoxycarbonylmethyl-2-oxooctahydro-indol-1-yloxy) -4-oxo-pentanoic acid 1,1-trimethylethyl ester in the manner described above in step D to give 3-benzyloxy -carbonylamino-5- (7methoxycarbonylmethyl-2-oxo-octahydro-indol-1-yloxy) -4-oxo-pentanoic acid (45%), mp 55-58 ° C.

!H NMR (400 MHz, DMSO-d6, 1:1 zmes diastereomerov): a 12,4 [s, 1Η], 7,84 [m, 1Η], 7,35 [m, 5Η], 5,05 [s, 2Η], 4,86 [m, 2Η], 4,45 [m, 1Η], 3,83 [m, 0,5H], 2,79 [m, 0,5H], 3,59 [s, 1,5H], 3,58 [s, 0,5H], 2,57 [m, zasenčen z DMSO], 2,41 [kompleks m, 4Η], 2,20 [m, 2Η], 1,88 [m, 1Η], 1,62 [m, 2Η], 1,43 [m, 2Η], 1,23 [m, 2Η], 1,05 [m, IH]. IR (KBr) 3337, 2931, 1790, 1726, 15384 cm*1. MS (ES, NH4OH) 489,5 (M+ -H). Elementna analiza: ! H NMR (400 MHz, DMSO-d 6 , 1: 1 mixture of diastereomers): a 12.4 [s, 1Η], 7.84 [m, 1Η], 7.35 [m, 5Η], 5.05 [ s, 2Η], 4.86 [m, 2Η], 4.45 [m, 1Η], 3.83 [m, 0.5H], 2.79 [m, 0.5H], 3.59 [s , 1.5H], 3.58 [s, 0.5H], 2.57 [m, shadowed by DMSO], 2.41 [complex m, 4Η], 2.20 [m, 2Η], 1.88 [m, 1Η], 1.62 [m, 2Η], 1.43 [m, 2Η], 1.23 [m, 2Η], 1.05 [m, 1H]. IR (KBr) 3337, 2931, 1790, 1726, 15384 cm. * 1 MS (ES, NH4OH) 489.5 (M + -H). Elemental analysis:

Izrač. za C24H30N2O9: C 58,77; H 6,16; N 5,71.Calc. for C24H30N2O9: C 58.77; H, 6.16; N, 5.71.

Ugot. :C 59,19; H 6,40; N 5,34.Found. Stk #: C 59.19; H, 6.40; N, 5.34.

110110

-benziloksikarbonilamino-4-okso-5-(2-okso-oktahidro-indol-1 -iloksij-pentanoj ska kislina-Benzyloxycarbonylamino-4-oxo-5- (2-oxo-octahydro-indol-1-yloxy-pentanoic acid

Stopnja ALevel A

Etil 2-cikloheksanonacetat (4,28 g, 23,3 mmol) in O-benzil hidroksilamin hidroklorid združimo v 100 ml etanola (EtOH) in dodamo 2,59 g (25,6 mmol, 3,55 ml) trietil amina (Et3N). Reakcijsko zmes mešamo pri sobni temperaturi 12 ur in jo po tem času koncentriramo v vakuumu. Ostanek prevzamemo v EtOAc in speremo z IN HCI (2 x 20 ml), nasičenim NaHCO3 (1 x 20 ml), posušimo nad Na2SO4, filtriramo in koncentriramo. S čiščenjem s kromatografijo (SiO2, 90:1 heksani EtOAc) dobimo (2benziloksiimino-cikloheksil)-ocetna kislina etil ester (4,76 g, 72 %) kot zmes oksimskih izomerov.Ethyl 2-cyclohexanonacetate (4.28 g, 23.3 mmol) and O-benzyl hydroxylamine hydrochloride were combined in 100 ml of ethanol (EtOH) and 2.59 g (25.6 mmol, 3.55 ml) of triethyl amine (Et 3 N). The reaction mixture was stirred at room temperature for 12 hours and concentrated in vacuo after that time. The residue was taken up in EtOAc and washed with 1N HCl (2 x 20 ml), saturated NaHCO 3 (1 x 20 ml), dried over Na 2 SO 4, filtered and concentrated. Purification by chromatography (SiO 2 , 90: 1 hexanes EtOAc) afforded (2-benzyloxyimino-cyclohexyl) -acetic acid ethyl ester (4.76 g, 72%) as a mixture of oxime isomers.

*H NMR (400 MHz, CDC13 7:1 zmes oksimskih izomerov): a 7,32 [kompleks m, 5Η], 5,05 [s, 0,25 Η], 5,02 [s, 1Η], 4,05 [q, J = 7,2 Hz, 2Η], 3,20 [m, 1Η], 2,73 [kompleks m, 2Η], 2,46 [d, J = 8,0 Hz, 0,125 Η], 2,21 [dd, J = 15,4, 6,3 Hz, 0,875H], 1,92 [m, 1Η], 1,79 [kompleks m, 3Η], 1,43 [m, 1Η], 1,38 [kompleks m, 2Η], 1,22 [t, J = 7,2 Hz, 3H]. IR (tanek film) 2931, 1735, 1638, 1451 cm’1. MS (CI, NH3) 290 (M+ + H). Izrač. za Ci7H23NiO3: C 70,56; H 8,01; N 4,84.1 H NMR (400 MHz, CDCl 3 3 7: 1 mixture of oxime isomers): a 7.32 [complex m, 5Η], 5.05 [s, 0.25 Η], 5.02 [s, 1Η], 4 , 05 [q, J = 7.2 Hz, 2Η], 3.20 [m, 1Η], 2.73 [complex m, 2Η], 2.46 [d, J = 8.0 Hz, 0.125 Η] , 2.21 [dd, J = 15.4, 6.3 Hz, 0.875H], 1.92 [m, 1Η], 1.79 [complex m, 3Η], 1.43 [m, 1Η], 1.38 [complex m, 2Η], 1.22 [t, J = 7.2 Hz, 3H]. IR (thin film) 2931, 1735, 1638, 1451 cm -1 . MS (CI, NH3) 290 (M + + H). Calc. for Ci7H 23 NiO 3: C, 70,56; H, 8.01; N, 4.84.

Ugot.: C 70,47; H 7,92; N 4,78.Found: C, 70.47; H, 7.92; N, 4.78.

Stopnja B (2-benziloksiimino-cikloheksil)-ocetna kislina etil ester (4,66 g, 16,1 mmol) prevzamemo v 15 ml ocetne kisline (AcOH) in NaBH3CN in mešamo 72 ur. Reakcijsko zmes zlijemo v NaHCO3 in ekstrahiramo v EtOAc (3x30 ml). Združene organske plasti speremo enkrat s slanico, posušimo nad Na2SO4, filtriramo in koncentriramo. Bistro olje raztopimo v 50 ml MeOH in dodamo K2CO3 (5,55 g, 40,2 mmol) in reakcijsko zmes mešamo 12 ur. Reakcijsko zmes koncentriramo, ostanek prevzamemo v CHC13, filtriramo in koncentriramo. S čiščenjem s kromatografijo (SiO2, 4:1 heksani/EtOAc) dobimo 1,72 g (43 %) cis-(2-benziloksiamino-cikloheksil)ocetna kislina etil estra in 0,441 g (11 %) trans-(2-benziloksiamino-cikloheksil)-ocetna kislina etil estra.Step B (2-Benzyloxyimino-cyclohexyl) -acetic acid ethyl ester (4.66 g, 16.1 mmol) was taken up in 15 ml of acetic acid (AcOH) and NaBH 3 CN and stirred for 72 hours. The reaction mixture was poured into NaHCO 3 and extracted into EtOAc (3x30 ml). The combined organic layers were washed once with brine, dried over Na 2 SO4, filtered and concentrated. The clear oil was dissolved in 50 ml of MeOH and K 2 CO 3 (5.55 g, 40.2 mmol) was added and the reaction mixture was stirred for 12 hours. The reaction mixture was concentrated, the residue was taken up in CHCl 3 , filtered and concentrated. Purification by chromatography (SiO 2 , 4: 1 hexanes / EtOAc) gave 1.72 g (43%) of cis- (2-benzyloxyamino-cyclohexyl) acetic acid ethyl ester and 0.441 g (11%) of trans- (2-benzyloxyamino) -cyclohexyl) -acetic acid ethyl ester.

Podatki za cis izomer:Cis isomer data:

111 JH NMR (400 MHz, CDCI3): a 7,44 [kompleks m, 2Η], 7,37 [kompleks m, 3Η], 5,05 [A od AB, J = 10,4 Hz, 1Η], 4,94 [B od AB, J = 10,4 Hz, IH), 3,47 [dd, J = 10,6, 5,3 Hz, 1Η], 2,33 [dd, J = 16,4 Hz, 1Η], 2,20 [m, 1Η], 2,08 [dd, J = 16,4, 4,6 Hz, 1Η], 1,74 [kompleks m, 2Η], 1,60 [m, 1Η], 1,32 [kompleks m, 5Η], IR (raztopina, CHC13) 3031, 2932, 2856, 1717, 1453 cm'1. MS (CI, NH3) 246 (M+ + H).111 J H NMR (400 MHz, CDCl 3):? 7.44 [complex m, 2Η], 7.37 [complex m, 3Η], 5.05 [A from AB, J = 10.4 Hz, 1Η]. 4.94 [B from AB, J = 10.4 Hz, 1H), 3.47 [dd, J = 10.6, 5.3 Hz, 1Η], 2.33 [dd, J = 16.4 Hz , 1Η], 2.20 [m, 1Η], 2.08 [dd, J = 16.4, 4.6 Hz, 1Η], 1.74 [complex m, 2Η], 1.60 [m, 1Η ], 1.32 [complex m, 5Η], IR (solution, CHCl3) 3031, 2932, 2856, 1717, 1453 cm -1 . MS (CI, NH 3) 246 (M + + H).

Podatki za trans izomer: tal.: 79-82 °C.Trans isomer data: mp: 79-82 ° C.

Elementna analiza:Elemental analysis:

Izrač. za Ci5Hi9NiO2: C 73,44; H 7,81; N 5,71.Calc. for Ci 5 H 9 NiO 2 : C 73.44; H, 7.81; N, 5.71.

Ugot.: C 73,38; H 7,89; N 5,63.Found: C, 73.38; H, 7.89; N, 5.63.

Stopnja CLevel C

Pripravljeno iz cis-(2-benziloksiamino-cikloheksil)-ocetna kislina etil estra na način, opisan zgoraj v stopnji B, da dobimo cis-l-hidroksi-oktahidro-indol-2-on (85 %), tal.: 85-86 °C.Prepared from cis- (2-benzyloxyamino-cyclohexyl) -acetic acid ethyl ester in the manner described above in step B to give cis-1-hydroxy-octahydro-indol-2-one (85%), m.p .: 85- 86 ° C.

'H NMR (400 MHz, CDC13); a 9,86 [br s, IH), 3,75 [dd, J = 10,4, 4,8 Hz, 1Η], 2,41 [dd, J = 16,1, 7,7 Hz, 1Η], 2,33 [m, 1Η], 1,97 [m, 1Η], 1,71 [kompleks m, 2Η], 1,54 [m, 1Η], 1,44 [kompleks m, 2Η], 1,31 [kompleks m, 2Η], IR (KBr) 3037, 2936, 2856, 2710, 1690, 1659, 1548 cm’1. MS (CI, NH3) 156 (M+ + H).'H NMR (400 MHz, CDC1 3); a 9.86 [br s, 1H), 3.75 [dd, J = 10.4, 4.8 Hz, 1Η], 2.41 [dd, J = 16.1, 7.7 Hz, 1Η] , 2.33 [m, 1Η], 1.97 [m, 1Η], 1.71 [complex m, 2Η], 1.54 [m, 1Η], 1.44 [complex m, 2Η], 1. 31 [complex m, 2Η], IR (KBr) 3037, 2936, 2856, 2710, 1690, 1659, 1548 cm -1 . MS (CI, NH 3 ) 156 (M + + H).

Elementna analiza:Elemental analysis:

Izrač. za C8Hi3NiO2: C 61,91; H 8,44; N 9,03.Calc. for C 8 Hi 3 NiO 2 : C 61.91; H, 8.44; N, 9.03.

Ugot.: C 61,94; H 8,49; N 8,96.Found: C, 61.94; H, 8.49; N, 8.96.

Stopnja DLevel D

Pripravljeno iz cis-l-hidroksi-oktahidro-indol-2-ona na način, opisan zgoraj v stopnji C, da dobimo 3-benziloksikarbonilamino-4-okso-5-(2-okso-oktahidro-indol-liloksi)pentanojska kislina 1,1-dimetiletil ester (41 %). IR (tanek film) 2933, 1723, 1516, 1367 cm’1.Prepared from cis-1-hydroxy-octahydro-indol-2-one in the manner described above in step C to give 3-benzyloxycarbonylamino-4-oxo-5- (2-oxo-octahydro-indole-lyloxy) pentanoic acid 1 , 1-dimethylethyl ester (41%). IR (thin film) 2933, 1723, 1516, 1367 cm -1 .

Elementna analiza:Elemental analysis:

Izrač. za C25Hi34N2O7: C 63,28; H 7,22; N 5,90.Calc. for C 25 Hi34N 2 O 7 : C 63.28; H, 7.22; N, 5.90.

Ugot.: C 63,03; H 7,36; N 5,65.Found: C 63.03; H, 7.36; N, 5.65.

112112

Stopnja ELevel E

Pripravljeno iz 3-benziloksikarbonilamino-4-okso-5-(2-okso-oktahidro-indol- 1-iloksi)pentanojska kislina 1,1-dimetiletil estra na način, opisan zgoraj v stopnji D, da dobimo 3-benziloksikarbonilamino-4-okso-5-(2-okso-oktahidro-indol-l-iloksi)-pentanojsko kislino (72 %). IR (KBr) 3352 (br), 2935, 2869, 1789, 1704, 1535 cm'1. MS (APCI, MeOH) 419,5 (M+ + H).Prepared from 3-benzyloxycarbonylamino-4-oxo-5- (2-oxo-octahydro-indol-1-yloxy) pentanoic acid 1,1-dimethylethyl ester in the manner described above in step D to give 3-benzyloxycarbonylamino-4- oxo-5- (2-oxo-octahydro-indol-1-yloxy) -pentanoic acid (72%). IR (KBr) 3352 (br), 2935, 2869, 1789, 1704, 1535 cm -1 . MS (APCI, MeOH) 419.5 (M + + H).

Elementna analiza:Elemental analysis:

Izrač. za C2iH26N2O7.0,12 H2O.0,322 CH2C12:Calc. for C 2 iH26 N 2 O7.0,12 H 2 O.0,322 CH 2 C1 2 :

C 57,17; H 6,05; N 6,26.C, 57.17; H, 6.05; N, 6.26.

Ugot.: C 57,17; H 6,05; N 5,89.Found: C 57.17; H, 6.05; N, 5.89.

Spodaj navedene spojine pripravimo iz 5-bromo-3-[2-(2-benziloksikarbonilamino-3metil-butirilamino)-propionilamino]-)-4-okso-pentanojska kislina 1,1-dimetil estra [Dolle R.E. et al. (J. Med. Chem. 1994; 37:563-4)] na način, opisan zgoraj v stopnji C in stopnji D.The compounds below are prepared from 5-bromo-3- [2- (2-benzyloxycarbonylamino-3methyl-butyrylamino) -propionylamino] -) -4-oxo-pentanoic acid 1,1-dimethyl ester [Dolle R.E. et al. (J. Med. Chem. 1994; 37: 563-4)] in the manner described above in step C and step D.

3“[2-(2-benziloksikarbonilamino-3-metil-butirilamino)-propionilaminol-5-(7-metoksi^^01111126^12220^8020^^11^0411401214)^51)24:^80^621311018^3^18111133 "[2- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -propionylaminol-5- (7-methoxy- (1) -1126 ^ 12220 ^ 8020 ^^ 11 ^ 0411401214) ^ 51) 24: ^ 80 ^ 621311018 ^ 3 ^ 1811113

Pripravljeno iz oktahidro-l-hidroksi-2-okso-lH-indol-7-ocetna kislina metil estra (65 %), tal.: 162-167 °C, razpad. Elementna analiza:Prepared from octahydro-1-hydroxy-2-oxo-1H-indole-7-acetic acid methyl ester (65%), mp: 162-167 ° C, decomposition. Elemental analysis:

Izrač. za C29H34N4O9.0,75 H2O (596,127): C 58,43; H 6,00; N 9,40.Calc. for C 29 H 34 N 4 O 9 .0.75 H 2 O (596.127): C 58.43; H, 6.00; N, 9.40.

Ugot.: C 58,40; H 5,68; N 9,19.Found: C 58.40; H, 5.68; N, 9.19.

3-[2-(2-benziloksikarbonilamino-3-metil-butirilamino)-propionilaminol-4-okso-5-f2okso-2,3 -dihidro-indol-1 -iloksri-pentanoj ska kislina3- [2- (2-Benzyloxycarbonylamino-3-methyl-butyrylamino) -propionylaminol-4-oxo-5-fluoro-2,3-dihydro-indol-1-yloxy-pentanoic acid

Pripravljeno iz 1-hidroksioksiindola [Kende A.S. in Thurston J. (Svnthetic Communications, 1990; 20:2133-8], da dobimo 3-[2-(2-benziloksikarbonilamino-3metil-butirilamino)-propionilamino]-4-okso-5-(2-okso-2,3-dihidro-indol-l-iloksi)pentanojsko kislino (67 %), tal.: 162-167 °C, razpad.Prepared from 1-hydroxyoxyindole [Kende A.S. and Thurston J. (Svnthetic Communications, 1990; 20: 2133-8] to give 3- [2- (2-benzyloxycarbonylamino-3methyl-butyrylamino) -propionylamino] -4-oxo-5- (2-oxo-2, 3-Dihydro-indol-1-yloxy) pentanoic acid (67%), mp: 162-167 ° C, dec.

113113

Elementna analiza:Elemental analysis:

Izrač.: za C29H34N4O9.O75 H20 (596,127):Calc'd: for C29H34N4O9.O75 H 2 0 (596.127):

C 58,43; H 6,00; N 9,40.C, 58.43; H, 6.00; N, 9.40.

Ugot.: C 58,40; H 5,68; N 9,19.Found: C 58.40; H, 5.68; N, 9.19.

Druge spojine pripravimo z uporabo avtomatizirane paralelne sinteze takole:Other compounds are prepared using automated parallel synthesis as follows:

V 7-ml stekleno fiolo z navojem, ki vsebuje 17 mg (0,3 mmol, 3 ekv.) kalijevega fluorida damo 500 μΐ (0,1 mmol, 1 ekv.) 0,2 M raztopine ustreznega hidroksamata v DMF. Reakcijsko fiolo mešamo nekaj minut in pri tem se kalijev fluorid ne raztopi popolnoma. V tej točki, 500 μΐ (0,1 mmol, 1 ekv.) 0,2 M raztopine (S)-5-bromo-4okso-3-[[(fenilmetoksi)karbonil]amino]-pentanojska kislina 1,1-dimetiletil estra v DMF. Fiole pokrijemo in stojalo s 30 do 40 fiolami postavimo na vrh krožnega mešalnika za 12 ur.To a 7 ml screw-coated glass vial containing 17 mg (0.3 mmol, 3 eq) of potassium fluoride was added 500 μΐ (0.1 mmol, 1 eq) of a 0.2 M solution of the corresponding hydroxamate in DMF. The reaction vial was stirred for a few minutes without completely dissolving the potassium fluoride. At this point, 500 μΐ (0.1 mmol, 1 eq) of 0.2 M solution of (S) -5-bromo-4-oxo-3 - [[(phenylmethoxy) carbonyl] amino] -pentanoic acid 1,1-dimethylethyl of esters in DMF. Cover the vials and place a rack of 30 to 40 vials on top of a circular mixer for 12 hours.

Reakcijske zmesi razredčimo z 2 ml etil acetata, nato pa z 2 ml deionizirane vode. Dva mililitra tekočine odvzamemo iz sredine fiole in hitro injiciramo dvakrat nazaj. Fiole pustimo posedati 30 minut in odvzamemo organsko plast iz zgornje polovice fiole. Še dvakrat dodamo po 2 ml etil acetata, mešamo in ločimo. Združene organske plasti uparjamo pod konstantnim tokom dušika preko noči.The reaction mixtures were diluted with 2 ml of ethyl acetate and then with 2 ml of deionized water. Two milliliters of fluid is withdrawn from the center of the vial and quickly injected twice back. Leave the vials for 30 minutes and remove the organic layer from the upper half of the vial. Add 2 ml of ethyl acetate twice more, mix and separate. The combined organic layers were evaporated under a constant stream of nitrogen overnight.

Surovi ostanek iz reakcijskih zmesi raztopimo v 3 do 4 ml 40 % TFA v metilen kloridu. Fiole mešamo, da zagotovimo popolno raztopitev, v digestoriju brez pokrovov. Po 2 urah fiole ponovno postavimo pod konstantni tok dušika preko noči.The crude residue from the reaction mixtures was dissolved in 3 to 4 ml of 40% TFA in methylene chloride. Mix the vials to ensure complete dissolution, in a digestion without lids. After 2 hours, the vials were again placed under a constant stream of nitrogen overnight.

Surovo reakcijsko zmes prevzamemo v 1 ml kloroforma (včasih dodamo MeOH zaradi popolne raztopitve). Raztopine nanesemo na 500-pm preparativne silikagelne TLCplošče in nato eluiramo z acetonom (20%) v metilen kloridu z 1 % do 2 % ocetno kislino. Pasove produktov vizualiziramo z UV absorpcijo, postrgamo s plošč in silikagel speremo z metanolom v tarirano fiolo. Fiole damo preko noči pod tok dušika. Stehtane očiščene produkte nato razredčimo na 10 mM v 25 % metanolu v kloroformuThe crude reaction mixture was taken up in 1 ml of chloroform (sometimes MeOH was added for complete dissolution). The solutions were applied to 500-μm preparative silica gel TLC plates and then eluted with acetone (20%) in methylene chloride with 1% to 2% acetic acid. The product bands are visualized by UV absorption, scraped off the plates, and the silica gel washed with methanol in a tared vial. Put the vials under nitrogen stream overnight. The weighed purified products were then diluted to 10 mM in 25% methanol in chloroform

114 in alikvote nanesemo na plošče, tako za analitično analizo kot tudi za biološko ocenjevanje. Raztopine pustimo uparevati v digestoriju 72 ur.114 and aliquots are loaded onto plates, for both analytical analysis and biological evaluation. The solutions were allowed to evaporate in the digestion room for 72 hours.

EkvivalentiEquivalents

Za strokovnjake bo jasno ali pa bodo sposobni določiti že z uporabo rutinskega eksperimentiranja mnoge ekvivalente za specifične izvedbe izuma, opisanega tukaj. Za te ekvivalente je prav tako namenjeno, da so zajeti v priloženih zahtevkih.It will be apparent to those skilled in the art that they will be able to determine, by routine experimentation, many equivalents for specific embodiments of the invention described herein. These equivalents are also intended to be covered by the attached claims.

Claims (25)

PATENTNI ZAHTEVKIPATENT APPLICATIONS 1. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu, označen s tem, da obsega:A combination preparation for simultaneous, separate or sequential use in modulating a corticosteroid response in a subject, characterized in that it comprises: a) sredstvo, ki antagonizira tarčo, ki regulira proizvajanje interferona-γ (IFN-γ) v subjektu, ma) a target antagonizing agent that regulates interferon-γ (IFN-γ) production in a subject, m b) kortikosteroid.b) a corticosteroid. 2. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 1, označen s tem, daje sredstvo IL-18 antagonist.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 1, characterized in that the agent is an IL-18 antagonist. 3. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 2, označen s tem, da je sredstvo inhibitor proteaze kaspazne družine, npr. ICE inhibitor.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 2, characterized in that the agent is a caspase family protease inhibitor, e.g. ICE inhibitor. 4. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 2 ali 3, označen s tem, da je sredstvo protitelo, protitelesm fragment ali konstruiran vezavni protein, ki veže IL-18 ali IL-18 receptor.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 2 or 3, characterized in that the agent is an antibody, antibody fragment or engineered binding protein that binds the IL-18 or IL-18 receptor . 5. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 1, označen s tem, daje sredstvo interlevkin-12 (IL-12) antagonist.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 1, characterized in that the agent is an interleukin-12 (IL-12) antagonist. 6. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 5, označen s tem, da je sredstvo protitelo, protitelesni fragment ah konstruiran vezavni protein, ki veže IL-12 ali IL-12 receptor.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 5, characterized in that the agent is an antibody, antibody fragment ah engineered binding protein that binds the IL-12 or IL-12 receptor. 116116 7. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 5 ali 6, označen s tem, da sredstvo stimulira proizvajanje ciklične AMP v celicah, ki proizvajajo IL-12.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 5 or 6, characterized in that the agent stimulates the production of cyclic AMP in IL-12-producing cells. 8. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 7, označen s tem, daje sredstvo fosfodiesterazm IV inhibitor, npr. izbran iz skupme, ki jo sestavljajo 4-arilpirolidinoni, rolipram, denbufilin, tibenelast, mtrakvazon, CP-80633, kmazolindioni in CP-77059.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 7, characterized in that the agent is a phosphodiesterase IV inhibitor, e.g. selected from the group consisting of 4-arylpyrrolidinones, rolipram, denbufilin, tibenelast, mtracasone, CP-80633, kmazolindions and CP-77059. 9. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 7, označen s tem, daje sredstvo beta-2 agonist, npr. izbran iz skupine, ki jo sestavljajo salmeterol, fenoterol in izoproterenol.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 7, characterized in that the agent is a beta-2 agonist, e.g. selected from the group consisting of salmeterol, phenoterol and isoproterenol. 10. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 5, označen s tem, daje sredstvo STAT4 inhibitor.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 5, characterized in that the agent is a STAT4 inhibitor. 11. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 1, označen s tem, daje sredstvo NK-celični antagonist.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 1, characterized in that the agent is an NK cell antagonist. 12. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po zahtevku 11, označen s tem, daje sredstvo anti-NK-/NK podobno celično protitelo, npr. protitelo anti-asialo-GMl ali protitelo NK1.1.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to claim 11, characterized in that the agent is an anti-NK- / NK-like cellular antibody, e.g. anti-asialo-GMl antibody or NK1.1 antibody. 13. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po kateremkoli prejšnjem zahtevku, označen s tem, da je kortikosteroid izbran iz skupine, ki jo sestavljajo: kortizon, hidrokortizon, beklometazon, flunizolid, prednizon, prednizolon, metilprednizolon, triamcinolon, deflazakort, betametazon in deksametazon.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to any preceding claim, characterized in that the corticosteroid is selected from the group consisting of: cortisone, hydrocortisone, beclomethasone, flunizide, prednisone, prednisolone, methylprednisolone, triamcinolone, deflazortort, betamethasone and dexamethasone. 117117 14. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po kateremkoli prejšnjem zahtevku, označen s tem, da subjekt trpi zaradi septičnega šoka, Crohnove bolezni, astme, bolezni presadek-proti-gostitelj ali zavračanja transplantatov ali avtoimunske bolezni ali motnje.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to any preceding claim, characterized in that the subject suffers from septic shock, Crohn's disease, asthma, graft-versus-host disease, or transplant rejection or autoimmune diseases or disorders. 15. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po kateremkoli od zahtevkov 1-13, označen s tem, da subjekt trpi zaradi imunoinflamatome bolezni ali motnje, izbrane iz skupine, ki vključuje: astmo, sindrom respiratorne stiske odraslega, sistemski lupus erythematosus, vnetno črevesno bolezen, Crohnovo bolezen, ulcerativni kolitis, multiplo sklerozo, diabetes mellitus, odvisen od inzulina, avtoimunski artritis, revmatoidni artritis, juvenilni revmatoidni artritis, psonatični artritis, vnetni pulmonami sindrom, pemphigus vulgaris, idiopathic thrombocytopenic purpura, avtoimunski meningitis, myasthenia gravis, avtoimunski thyroiditis, dermatitis, atopični dermatitis, eczematous dermatitis, psoriasis, Sjogrensov sindrom, keratoconjunctivitis sicca, sekundarno po Sjogrensovem sindromu, alopecia areata, alergične odzive zaradi reakcij na artropodne pike, aphthous ulcer, iritis, conjunctivitis, keratoconjunctivitis, cutaneous lupus erythematosus, scleroderma, vagimtis, proctitis, erupcije zdravil, Stevens-Johnsonov sindrom, leprozne reverzne reakcije, erythema nodosum leprosum, avtoimunski uveitis, alergični encefalomielitis, aplastično anemijo, čisto anemijo rdečih celic, idiopathic thrombocytopenia, polychondritis, Wegenerjev granulomatosis, kronični aktivni hepatitis, Gravesovo oftalmopatijo, primarni biliary cirrhosis, posteriomi uveitis in intersticialno fibrozo pljuč.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to any one of claims 1-13, characterized in that the subject suffers from an immunoinflammatory disease or disorder selected from the group comprising: asthma, respiratory syndrome adult distress, systemic lupus erythematosus, inflammatory bowel disease, Crohn's disease, ulcerative colitis, multiple sclerosis, diabetes mellitus, insulin dependent, autoimmune arthritis, rheumatoid arthritis, juvenile rheumatoid arthritis, psonatic pulmonary arthritis, inflammatory syndrome, inflammatory syndrome , autoimmune meningitis, myasthenia gravis, autoimmune thyroiditis, dermatitis, atopic dermatitis, eczematous dermatitis, psoriasis, Sjogrens syndrome, keratoconjunctivitis sicca, secondary to Sjogrens syndrome, alopecia arectivitis, allergic reaction, allergic aphthous, conjunctivitis, conjunctivitis tis, cutaneous lupus erythematosus, scleroderma, vagimtis, proctitis, drug eruptions, Stevens-Johnson syndrome, leprosy reverse reactions, erythema nodosum leprosum, autoimmune uveitis, allergic encephalomyelitis, aplastic anemia, pure anemia cytophthia, cellulitis, chronic active hepatitis, Graves' ophthalmopathy, primary biliary cirrhosis, posterior uveitis, and interstitial lung fibrosis. 16. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po kateremkoli od zahtevkov 1-13, označen s tem, da subjekt trpi zaradi akutne ali kronične vnetne motnje.A combination preparation for simultaneous, separate or sequential use in modulating a corticosteroid response in a subject according to any one of claims 1-13, characterized in that the subject suffers from an acute or chronic inflammatory disorder. 17. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po kateremkoli od zahtevkov l do 13, označenA combination preparation for simultaneous, separate or sequential use in the modulation of corticosteroid responsiveness in a subject according to any one of claims 1 to 13, characterized 118 s tem, daje steroidna odpornost v subjektu obrnjena ali povečana, v primerjavi s tem, ko damo subjektu samo kortikosteroid.118, in that the steroid resistance in the subject is reversed or increased compared to when the corticosteroid is administered to the subject alone. 18. Kombiniran pripravek za simultano, ločeno ali zaporedno uporabo pri moduliranju odzivnosti na kortikosteroid v subjektu po kateremkoli od zahtevkov 1 do 13, označen s tem, da damo subjektu kortikosteroid v skladu s programom, ki znižuje dozo kortikosteroida v časovni periodi, metoda pa ameliorira steroidni vindikatomi učinek, povezan z dajanjem znižanih doz kortikosteroida.A combination preparation for simultaneous, separate or sequential use in modulating corticosteroid responsiveness in a subject according to any one of claims 1 to 13, characterized in that the corticosteroid is administered to the subject according to a program that lowers the corticosteroid dose over time, and the method ameliorates steroid syndromes The effect associated with administering reduced doses of corticosteroid. 19. Sredstvo za moduliranje odzivnosti na kortikosteroid v subjektu, označeno s tem, da sredstvo antagomzira tarčo, ki regulira proizvajanje interferona-γ (IFN-γ) v subjektu.19. A corticosteroid response modulating agent in a subject, characterized in that the agent antagonizes a target that regulates interferon-γ (IFN-γ) production in the subject. 20. Sredstvo za moduliranje odzivnosti na kortikosteroid v subjektu po zahtevku 19, označeno s tem, daje20. A corticosteroid responsive modulator in a subject according to claim 19, characterized in that a) subjekt odporen na kortikosteroid pred dajanjem sredstvaa) a corticosteroid resistant subject before administration of the agent b) da se subjekt odziva na kortikosteroid pred dajanjem sredstva, vendar kaže povečano občutljivost za kortikosteroid po dajanju sredstva, ali jeb) that the subject responds to a corticosteroid prior to administration of the agent but exhibits increased sensitivity to the corticosteroid after administration of the agent; c) zdravljenje subjekta s kortikosteroidom potrebno ustaviti in dajanje sredstva ameliorira steroidni vindikatomi učink v subjektu.c) treatment of the subject with a corticosteroid should be stopped and administration of the agent ameliorates the steroid syndrome of effect in the subject. 21. Sredstvo za moduliranje odzivnosti na kortikosteroid v subjektu po zahtevku 19, označeno s tem, daje sredstvo IL-18 antagonist ali interlevkin-12 (IL-12) antagonist.21. A corticosteroid responsive agent in a subject according to claim 19, wherein the agent is an IL-18 antagonist or an interleukin-12 (IL-12) antagonist. 22. Farmacevtski sestavek, označen s tem, da obsega sredstvo, kot je opisano v kateremkoli od zahtevkov 1 do 12 ali 19 do 21, kortikosteroid in farmacevtsko sprejemljiv nosilec.A pharmaceutical composition comprising an agent as described in any one of claims 1 to 12 or 19 to 21, a corticosteroid and a pharmaceutically acceptable carrier. 119119 23. Farmacevtski sestavek po zahtevku 22, označen s tem, daje formuliran za lokalno dajanje ali za dajanje z inhalacijo.Pharmaceutical composition according to claim 22, characterized in that it is formulated for topical administration or for administration by inhalation. 24. Uporaba sredstva, kot je opisano v kateremkoli od zahtevkov 1 do 12 ali 19 do 21 (po izbiri, kadar je kombinirano s kortikosteroidom), pri izdelavi zdravila za moduliranje odzivnosti na kortikosteroid v subjektu.Use of an agent as described in any one of claims 1 to 12 or 19 to 21 (optionally when combined with a corticosteroid) in the manufacture of a medicament for modulating corticosteroid responsiveness in a subject. 25. Uporaba sredstva, kot je opisano v kateremkoli od zahtevkov 1 do 12 ali 19 do 21 (po izbiri, kadar je kombinirano s kortikosteroidom), pri izdelavi zdravila za zdravljenje ene ali več motenj, opisanih v kateremkoli od zahtevov 14 do 16.Use of an agent as described in any one of claims 1 to 12 or 19 to 21 (optionally when combined with a corticosteroid) in the manufacture of a medicament for the treatment of one or more of the disorders described in any of claims 14 to 16.
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