WO1993021227A1 - Tachykinin antagonist tricyclic compounds, preparation of same and pharmaceutical compositions containing such compounds - Google Patents

Tachykinin antagonist tricyclic compounds, preparation of same and pharmaceutical compositions containing such compounds Download PDF

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Publication number
WO1993021227A1
WO1993021227A1 PCT/EP1993/000893 EP9300893W WO9321227A1 WO 1993021227 A1 WO1993021227 A1 WO 1993021227A1 EP 9300893 W EP9300893 W EP 9300893W WO 9321227 A1 WO9321227 A1 WO 9321227A1
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Prior art keywords
compounds
formula
substituents
group
acid
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PCT/EP1993/000893
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French (fr)
Inventor
Vincenzo Pavone
Angelina Lombardi
Carlo Pedone
Carlo Alberto Maggi
Laura Quartara
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A. Menarini Industrie Farmaceutiche Riunite S.R.L.
Laboratori Guidotti S.P.A.
Malesci - Istituto Farmacobiologico S.P.A.
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Priority to DE69312698T priority Critical patent/DE69312698T2/en
Priority to CA002118253A priority patent/CA2118253A1/en
Priority to NZ251969A priority patent/NZ251969A/en
Priority to JP5517974A priority patent/JPH08500331A/en
Application filed by A. Menarini Industrie Farmaceutiche Riunite S.R.L., Laboratori Guidotti S.P.A., Malesci - Istituto Farmacobiologico S.P.A. filed Critical A. Menarini Industrie Farmaceutiche Riunite S.R.L.
Priority to AU40395/93A priority patent/AU671118B2/en
Priority to SK1242-94A priority patent/SK124294A3/en
Priority to EP93911459A priority patent/EP0636146B1/en
Priority to RO94-01666A priority patent/RO112872B1/en
Priority to BR9306248A priority patent/BR9306248A/en
Publication of WO1993021227A1 publication Critical patent/WO1993021227A1/en
Priority to KR1019940703613A priority patent/KR950700935A/en
Priority to NO943861A priority patent/NO943861L/en
Priority to FI944838A priority patent/FI944838A/en
Priority to BG99110A priority patent/BG99110A/en
Priority to GR970401994T priority patent/GR3024348T3/en

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    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07KPEPTIDES
    • C07K7/00Peptides having 5 to 20 amino acids in a fully defined sequence; Derivatives thereof
    • C07K7/50Cyclic peptides containing at least one abnormal peptide link
    • C07K7/54Cyclic peptides containing at least one abnormal peptide link with at least one abnormal peptide link in the ring
    • C07K7/56Cyclic peptides containing at least one abnormal peptide link with at least one abnormal peptide link in the ring the cyclisation not occurring through 2,4-diamino-butanoic acid
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K38/00Medicinal preparations containing peptides
    • A61K38/02Peptides of undefined number of amino acids; Derivatives thereof
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P1/00Drugs for disorders of the alimentary tract or the digestive system
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P11/00Drugs for disorders of the respiratory system
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P25/00Drugs for disorders of the nervous system
    • A61P25/04Centrally acting analgesics, e.g. opioids
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P25/00Drugs for disorders of the nervous system
    • A61P25/06Antimigraine agents
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P29/00Non-central analgesic, antipyretic or antiinflammatory agents, e.g. antirheumatic agents; Non-steroidal antiinflammatory drugs [NSAID]
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P35/00Antineoplastic agents
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P43/00Drugs for specific purposes, not provided for in groups A61P1/00-A61P41/00
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P9/00Drugs for disorders of the cardiovascular system
    • A61P9/12Antihypertensives
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07KPEPTIDES
    • C07K7/00Peptides having 5 to 20 amino acids in a fully defined sequence; Derivatives thereof
    • C07K7/04Linear peptides containing only normal peptide links
    • C07K7/22Tachykinins, e.g. Eledoisins, Substance P; Related peptides
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K38/00Medicinal preparations containing peptides

Definitions

  • Tachiquinine antagonist tricyclic compounds preparation of same and pharmaceutical compositions containing such compounds
  • the present invention refers to compounds having general formula (I)
  • XI , X2 , X3 , X4 , X5 , and X6 are each selected out of the group consisting of -NR ' -CO- , -CO-NR ' - , where R ' is H or C- ⁇ ⁇ alkyl
  • Y is selected out of the group consisting of -C0NR-, -NRC0-, -0C0-,
  • Rl, R2, R3, and R4 are a hydrophobic group n and m, identical or different, are each a whole number from 1 to 4 the preparation of same and pharmaceutical compositions containing said compounds.
  • Tachyquinine ant-agonist compounds are known from literature. Among them, particularly interesting are the cyclic compounds [GB-A-2 216 529; McKnight, British Journal of Pharmacology, 104, 2 (1991); Gilon et al., Biopolymers, Vol. 31. 7 5-750 (1991); Harbeson et al. , Peptides, Chemistry and Biology Proceedings 12th APS, 124 (1992),
  • the present invention refers to new products of general formula (I)
  • XI, X2, X3, X4, X5, and X6, identical or different are each selected out of the group consisting of -NR'-CO-, -CO-NR'-, where R' is H or C ⁇ . ⁇ alkyl
  • Y is selected out of the group consisting of -CONR-, -NRCO-, -OCQ-,
  • Rl, R2, R3, and R4 are each a hydrophobic group n and m, identical or different, are each, a whole number from 1 to 4 the processes for the preparation of same and pharmaceutical compositions containing such compounds.
  • Hydrophobic groups Rl, R2, R3, and R4 preferably consist of the side chains of hydrophobic amino acids, both natural and synthetic, or of the side chains of non-hydrophobic amino acids whose functional groups were derivatized in order to render them hydrophobic.
  • substituents Rl , R2, R3 , and R4 may be the side chains of hydrophobic natural amino acids selected out of the group consisting of: glycine, alanine, valine , leucine , isoleucine , methionine, phenylalanine, tyrosine, tryptophan, proline, histidine.
  • Rl, R2, R3, and R4 may also be the hydrophobic-derivatized side 5 chains of non-hydrophobic amino acids selected out of the group consisting of : serine , threonine , cysteine , aspartic acid, asparagine, glutamic acid, glutamine , t— carboxyglutamic acid , arginine, orni thine, lysine.
  • Rl, R2, R3 , and R4 may also be the side chains of hydrophobic not 0 natural amino acids selected out of the group consisting of : norleucine, norvaline, alloisoleucine , dehydroproline , hydroxyproline, cyclohexylglycine (Chg) , ⁇ -amino-n-butyric acid (Aba) , cyclohexylalanine (Cha) , aminophenylbutyric acid (Pba) , phenylalanines mono- and disubstituted in the ortho, meta, or para position of the aromatic ring with one or more of the following groups: C- ⁇ galkyl, C- ⁇ Q alcoxyl, halogen, ⁇ -2-thienylalanine , ⁇ -3- thienylalanine, ⁇ -2-furanylalanine , ⁇ -3-furanylalanine, ⁇ -2- pyridylalanine, ⁇ -3-pyri
  • R2 -CH 2 C 6 H 5
  • R4 -(CH 2 ) 2 -SCH 3
  • the compounds as per formula (I) covered by the invention can be prepared by known synthesis techniques, cf e.g. Schroeder et al. , "The Peptides", Vol. 1, Academic Press, 19 5; Bodansky et al. , “Peptide Synthesis”, Interscience Publishers, 1966; Barany and Merrifield, "The Peptides: Analysis, Synthesis, Biology", 2, Ch. 1, Academic Press, 1980.
  • the methods selected for the obtainment of the aforesaid products are the following: i) synthesis in solution of the linear peptide chain by the coupling of suitably activated N-protected amino acids with an amino acid or a C-protected peptide chain, with intermediates isolation, followed by selective deprotection of C- and N-terminal chains, cyclization in organic polar solvents dilute solution, selective deprotection of the side chains and their cyclization in organic polar solvents dilute solution (cf also Bodansky-Bodansky, "The procedure of peptide synthesis", Springer Verlag, 1984).
  • peptide chain solid phase synthesis from C-terminal end to N- terminal end on an insoluble polymer support, cyclization in the solid phase of previously deprotected side chains, followed by detachment from the polymer support by hydrolysis in anhydrous hydrofluoric acid containing suitable scavengers or in trifluoracetic acid containing suitable scavengers and cyclization of monocyclic peptide in organic polar solvents dilute solution.
  • the process described above can alternatively consist of peptide chain solid phase synthesis from C-terminal end to N-terminal end on an insoluble polymer support, detachment from the polymer support by hydrolysis in anhydrous hydrofluoric acid containing suitable scavengers or in trifluoracetic acid containing suitable scavengers, cyclization of C-terminal and N-terminal ends in organic polar solvents dilute solution, deprotection of side chains and their cyclization in organic polar solvents dilute solution (cf the method described by Atherton et al. in Bioorganic Chemistry, 8, 351. 1979; by Merrifield in J.Am.Chem.Soc. , 85, 2149-2154 (1963)).
  • the first cyclization reaction can be carried out directly on the insoluble solid support (cf A.M. Felix et al.. Int. J. Pep.Prot.Res. , 31, 231, 1988; P. Rovero et al., Tetrahedron Letters, 3_2, 23, 2639 (1991), whereas the second cyclization can be carried out also in solution according to the procedures well known in the chemistry of peptide linkages (cf Kopple K.D., J. Pharmaceutical Sci., 6l, 1345, 1972).
  • the desired product may be obtained with PAM-resin (phenylacetoamidomethyl resin - A.R. Mitchell et al. , J. Org.
  • the amino acids directly bound to the resin are preferably the hydrophobic ones, such as Leu.
  • a first cyclization may be carried out reaching the side chains of the preferred aminoacids after their selective deprotection and activation.
  • the monocyclic peptide can be removed by liquid hydrofluoric acid.
  • the free peptide at N- and C-terminal ends can be further cyclized according to traditional synthesis methods.
  • the compounds as per formula (I) covered by the invention are suitable for therapeutic administration to animals and man by the parenteral , oral, inhalatory, and sublingual ways , with pharmacological effects matching the described properties.
  • parenteral administration intravenous, intramuscular, intradermal
  • the compounds to be used are sterile solutions or freeze-dried preparations.
  • oral administration 5 preparations such as tablets, capsules and syrups are conveniently used. Suitable dosed ointments and creams are utilizable by the dermic way.
  • the compounds to be used are respectively aqueous solutions, aerosol preparations, or capsules. ° Active ingredient doses in the aforesaid compositions range from 0.1 to 10 mg/kg body weight.
  • Boc-Leu-0CH 2 ⁇ PAM resin (Applied BioSystem, USA, 0.8 meq/g) , equal to 0.5 mmoles of amine groups, is fed an Applied BioSystem 430A (Foster City, CA, USA) semi-automatic peptide synthesis reactor.
  • the Boc group is hydrolyzed with 33/» TFA in DCM 5 for 1.5 min. and with 50% TFA in DCM for 18.5 min.; then it is neutralized with in DMF with 10 DIEA solution for 2 min.
  • Boc-Dpr(Fmoc)-OH (0.852 g)
  • Boc-Phe-OH (0.512 g)
  • Boc-Trp(CH0)-0H (0.664 g)
  • Boc-Asp(0Fm)-0H (0.822 g).
  • the first acylation lasts 1 hour.
  • the resin is washed and the reaction is ninhydrin-tested by the Kaiser method.
  • the Boc group is hydrolyzed as described above, before the subsequent amino acid coupling.
  • Acylation with Boc- Dpr(Fmoc)-0H is performed by adding an amino acid (2 mmoles) and PyBop (2 mmoles) solution in DMF to the deprotected resin.
  • Boc-Phe- OH and Boc-Trp(CH0)-0H are coupled in the form of symmetric anhydride by dissolving 2 mmoles amino acid in 5 ml dichloromethane.
  • the solution temperature is brought to 0°C and 1 ml of a 0.5 M solution of dicyclohexyl carbodiimide in dichloromethane is added. After 15 minutes, dicyclohexylurea is filtered and the resulting solution is added to the deprotected resin.
  • Boc-Asp(0Fm)-0H coupling is performed by adding the deprotected resin with an amino acid (2 mmoles) and HOBt (2 mmoles) solution in DMF; after 2 minutes, the suspension is added with a 0.5 M solution of DCC in DCM (4 ml).
  • the fluorenyl groups on Asp and Dpr side chains are removed by treatment with a 20# (v/v) piperidine solution in DMF (15 ml twice for 3 and 7 min.).
  • the condensation between ⁇ -amino and ⁇ -carboxyl groups is carried out with a 0.25 M solution of PyBop in DMF (3 equivalents) in the presence of DIEA (6 equivalents) until negative response of the Kaiser Test.
  • Boc-Met-OH (0.498 g) in the form of symmetric anhydride is coupled and, after terminal amine group deprotection, the formyl group of tryptophan is deprotected by treatment with 120 ml of 1 M solution of TMSiBr and 1 M solution of thioanisole in TFA in the presence of 1.2 ml m-cresol and 1.2 ml EDT. After 1 hour at 0°C, the solution is filtered, the resin washed with TFA and dried. The dry resin is placed in a Teflon reactor with 1 ml anisole and 1 ml dimethyl sulphide.
  • the mixture temperature is brought to -50°C and 10 ml hydrofluoric acid is distilled therein; then the mixture is kept under stirring for 60 min. in an ice bath. Hydrofluoric acid is removed by nitrogen blowing.
  • the raw product is dried under suction for about 2 hours, is washed with ethyl ether (15 ml twice), extracted in 50J*. acetic acid (15 ml three times), and filtered in a porous filter funnel to remove ⁇ the exhaust resin. The resulting solution is diluted with water and freeze-dried.
  • FAB-MS: (M + H) + 779- b) Cyclization of (a)
  • the said preparation consisted of isolated rabbit pulmonary artery affected by a dose-dependent contraction brought about by tachyquinines (Rovero et al. , Neuropeptides, 13, 263-270, 1989).
  • the determination of the peptide activity in the test preparation was based on the use of an NKA concentration (3 nM) causing a response equal to 4 of max. response.
  • the peptides considered herein were added to the preparation in growing concentrations. Their activity was assessed as inhibition of response to NKA.
  • compound 1 tested at a concentration of 1 M caused 100% inhibition of response to neuroquinine A in isolated rabbit pulmonary artery.
  • the capacity of the products described herein to interact with the P substance receptor (receptor NK-1) was assessed through an in vitro test, where the biological response produced by tachyquinines and correlated peptides was exclusively determined by the P substance receptor.
  • the test preparation consisted of isolated guinea pig ileum affected by a dose-dependent contraction brought about by tachyquinines (Lee et al. , Schmied. Arch. Pharmacol., 318, 281-287, 1982) .
  • the determination of the activity of the products as per the present invention in the test preparation was based on the use of an SP methyl ester concentration (10 nm) causing a response equal to 45% of max. response (S. Dion et al., Life Sci., 4l, 2269-2278, 1987).
  • the products considered herein were added to the preparation in growing concentrations. Their activity was assessed as inhibition of response to SP with satisfactory results.
  • product 1 tested at a concentration of 10 mM caused 100% inhibition of response to SP methyl ester.
  • Abbreviations used for the nomenclature and abbreviations of amino acids reference is made to the rules issued by the IUPAC-IUB Joint Commission on
  • Boc tert-butyloxycarbonyl
  • DCM dichloromethane
  • BOP benzotriazolyl-N-oxytri(dimethylaminophosphonium) hexaf luorophosphate
  • Dpr 2, 3-diaminopropionic acid
  • DCC N-N' - dicyclohexyl carbodiimide
  • DCU N-N' dicyclohexylurea
  • DIEA diisopropylethylamine
  • DMF N-N' dimethylformamide
  • EDT ethandithiol
  • FAB-MS fast atoms bombardment mass spectrometry
  • Fmoc 9-fluorenylmethyloxycarbonyl
  • HOBt 1-hydroxybenzotriazole
  • HPLC high ⁇ pressure liquid chromatography
  • iPrOH isopropanol
  • PAM isopropanol
  • NKA neuroquinine A
  • SP P substance
  • PIP piperldine
  • TFA trifluoracetic acid
  • For formyl
  • Me methyl

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Abstract

A description is given of tachykinin antagonist tricyclic compounds having general formula (I) where: X1, X2, X3, X4, X5, and X6, identical or different, are each selected out of the group consisting of -NR'-CO-, -CO-NR'-, where R' is H or C1-3alkyl; Y is selected out of the group consisting of -CONR-, NRCO-, -OCO-, -COO-, -CH2-NR-, -NR-CH2-, -SS-, -CH2-CH2-, cis or trans -CH=CH-, where R is H or C1-3alkyl; R1, R2, R3, and R4 are each a hydrophobic group; n and m, identical or different, are each a whole number from 1 to 4, the preparation of same and pharmaceutical compositions containing said compounds.

Description

Tachiquinine antagonist tricyclic compounds, preparation of same and pharmaceutical compositions containing such compounds
Field of the invention
The present invention refers to compounds having general formula (I)
where :
Figure imgf000003_0001
XI , X2 , X3 , X4 , X5 , and X6 , identical or different , are each selected out of the group consisting of -NR ' -CO- , -CO-NR ' - , where R ' is H or C-^ ^alkyl
Y is selected out of the group consisting of -C0NR-, -NRC0-, -0C0-,
-C00-, -CH2-NR-, -NR-CH2-, -SS-, -CH2-CH2-, cis or trans -CH=CH-, where R is H or C^ nalkyl
Rl, R2, R3, and R4 are a hydrophobic group n and m, identical or different, are each a whole number from 1 to 4 the preparation of same and pharmaceutical compositions containing said compounds. State of the art
Tachyquinine ant-agonist compounds are known from literature. Among them, particularly interesting are the cyclic compounds [GB-A-2 216 529; McKnight, British Journal of Pharmacology, 104, 2 (1991); Gilon et al., Biopolymers, Vol. 31. 7 5-750 (1991); Harbeson et al. , Peptides, Chemistry and Biology Proceedings 12th APS, 124 (1992),
Ed. Escom].
Although the chemical formula of the compounds considered herein is considerably different from that of the compounds already known, the pharmacological activity of the former is equal to or even higher than that of the latter. Therefore, the claimed compounds may be regarded as valid alternatives.
Detailed description of the invention
The present invention refers to new products of general formula (I)
Figure imgf000004_0001
where: —~
XI, X2, X3, X4, X5, and X6, identical or different, are each selected out of the group consisting of -NR'-CO-, -CO-NR'-, where R' is H or C^.^alkyl
Y is selected out of the group consisting of -CONR-, -NRCO-, -OCQ-,
-C00-, -CH2-NR-, -NR-CH2-, -SS-, -CR2-CH2-, cis or trans -CH=CH-, where R is H or C^ alkyl
Rl, R2, R3, and R4 are each a hydrophobic group n and m, identical or different, are each, a whole number from 1 to 4 the processes for the preparation of same and pharmaceutical compositions containing such compounds.
As may be seen, the compounds as per formula (I) described above exhibit several chiral centres: it is understood that also the various enantiomers are an object of the present invention. Hydrophobic groups Rl, R2, R3, and R4 preferably consist of the side chains of hydrophobic amino acids, both natural and synthetic, or of the side chains of non-hydrophobic amino acids whose functional groups were derivatized in order to render them hydrophobic. In particular, Rl , R2, R3, and R4 may be selected out of the following groups: a) linear or branched alkyl groups of the type CnH2n+ι where n = 0, 1 to 4 b) linear or branched alkyl groups of the type CnH n~U-W where n - 1 to 4; U = 0, CO, COO, CONH, S, guanidine, NH and W = H, hydrophobic group containing 1 to 10 carbon atoms c) CH2CgH XY where X and Y, identical or different, are each H, halogen, OH, NH2, CHo in an ortho or meta or para position of the benzene ring d)
Figure imgf000005_0001
where X = OR, SR, NHR, where R = hydrophobic group containing 1 to 10 carbon atoms e) CgHnXY where X and Y, identical or different, are each H, halogen, OH, NH2, CH in the ortho or meta or para position of the benzene ring f) CH2C6Hn g) 1-methyl-naphthyl , 2-methyl-naphthyl h) CH -imidazole i) CH2-indole 1) CH2- (furanyl-3-yl) 5 m) CH2- (pyridyl-3-yl) n) CH -(imidazolyl-3-yl) o) an eventually substituted, - (CH2) - group, which cyclizes with one of the two adjacent groups X to give the side chain of proline, hydroxyproline, dehydroproline. ° In particular substituents Rl , R2, R3 , and R4 may be the side chains of hydrophobic natural amino acids selected out of the group consisting of: glycine, alanine, valine , leucine , isoleucine , methionine, phenylalanine, tyrosine, tryptophan, proline, histidine. Rl, R2, R3, and R4 may also be the hydrophobic-derivatized side 5 chains of non-hydrophobic amino acids selected out of the group consisting of : serine , threonine , cysteine , aspartic acid, asparagine, glutamic acid, glutamine , t— carboxyglutamic acid , arginine, orni thine, lysine. Rl, R2, R3 , and R4 may also be the side chains of hydrophobic not 0 natural amino acids selected out of the group consisting of : norleucine, norvaline, alloisoleucine , dehydroproline , hydroxyproline, cyclohexylglycine (Chg) , α-amino-n-butyric acid (Aba) , cyclohexylalanine (Cha) , aminophenylbutyric acid (Pba) , phenylalanines mono- and disubstituted in the ortho, meta, or para position of the aromatic ring with one or more of the following groups: C-^galkyl, C-^Qalcoxyl, halogen, β-2-thienylalanine , β-3- thienylalanine, β-2-furanylalanine , β-3-furanylalanine, β-2- pyridylalanine, β-3-pyridylalanine , β-4-pyridylalanine, β-(l- naphthyl ) alanine , p-(2-naphthyl) alanine, O-alkylated derivatives of serine, threonine, tyrosine, S-alkylated cysteine, S-alkylated homocysteine, alkylated lysine, alkylated ornithine, 2,3- diaminopropionic acid.
Out of the products as per formula (I) as defined above, particularly preferred are the products in which:
Figure imgf000007_0001
R2 = -CH2C6H5
Figure imgf000007_0002
R4 = -(CH2)2-SCH3
XI = X2 = X3 = X4 = X5 = X6 = -CONH- Y = -CONH- wherein chiral carbon atoms exhibit L-configuration 5 2) Y = -NHCO- the other substituents being as defined under point (1)
3) R4 = -CH2-C6HU the other substituents being as defined under point (1)
4) Y = -NHCO- ° the other substituents being as defined under point (3) 5) R2 = R4 = -CH2-CgH5
Figure imgf000008_0001
the other substituents being as defined under point (1)
6) Y = -NHCO- the other substituents being as defined under point (5)
7) Y = -SS-
5 the other substituents being as defined under point (1)
8) Y = -CH2-CH2- the other substituents being as defined under point (1)
9) Y = -CH=CH- (cis) the other substituents being as defined under point (1) !0 10) Y = -CH=CH- (trans) the other substituents being as defined under point (1)
11) m = n = 1 the other substituents being as defined under point (1)
12) m = 1, n = 2
15 the other substituents being as defined under point (1)
13) m = 1, n = 3 the other substituents being as defined under point (1)
14) m = 1, n = 4 the other substituents being as defined under point (1) 20 15) m = 2, n = 1 the other substituents being as defined under point (1) 16) m = 2, n = 2 the other substituents being as defined under point (1 )
17) m = 2 , n = 3 the other substituents being as defined under point (1)
18) m = 2, n = 4 the other substituents being as defined under point (1)
19) XI = X2 = X3 = X4 = X5 = X6 = -NHCO- the other substituents being as defined under point (1)
20) Y = -NHC0- the other substituents being as defined under point (19) 21) R4 = -CH2-C6H1:L the other substituents being as defined under point (19)
22) Y = -NHCO- the other substituents being as defined under point (15)
23) R2 = R4 = -CH2-C6H5
Figure imgf000009_0001
the other substituents being as defined under point (19)
24) Y = -NHCO- the other substituents being as defined under point (23)
25) Y = -SS- the other substituents being as defined under point (19)
26) Y = -CH2-CH2- the other substituents being as defined under point (19)
27) Y = -CH=CH- (cis) the other substituents being as defined under point (19) 28) Y = -CH=CH- (trans) the other substituents being as defined under point (19)
29) m = n = 1 the other substituents being as defined under point (19) 30) m = 2; n = 4 the other substituents being as defined under point (19)
31) the carbon atoms in positions 5 and 6 exhibit D-configuration all substituents being as defined under point (1)
32) all chiral carbon atoms exhibit D-configuration all substituents being as defined under point (1)
The compounds as per formula (I) covered by the invention can be prepared by known synthesis techniques, cf e.g. Schroeder et al. , "The Peptides", Vol. 1, Academic Press, 19 5; Bodansky et al. , "Peptide Synthesis", Interscience Publishers, 1966; Barany and Merrifield, "The Peptides: Analysis, Synthesis, Biology", 2, Ch. 1, Academic Press, 1980.
The methods selected for the obtainment of the aforesaid products are the following: i) synthesis in solution of the linear peptide chain by the coupling of suitably activated N-protected amino acids with an amino acid or a C-protected peptide chain, with intermediates isolation, followed by selective deprotection of C- and N-terminal chains, cyclization in organic polar solvents dilute solution, selective deprotection of the side chains and their cyclization in organic polar solvents dilute solution (cf also Bodansky-Bodansky, "The procedure of peptide synthesis", Springer Verlag, 1984). ii) peptide chain solid phase synthesis from C-terminal end to N- terminal end on an insoluble polymer support, cyclization in the solid phase of previously deprotected side chains, followed by detachment from the polymer support by hydrolysis in anhydrous hydrofluoric acid containing suitable scavengers or in trifluoracetic acid containing suitable scavengers and cyclization of monocyclic peptide in organic polar solvents dilute solution. The process described above can alternatively consist of peptide chain solid phase synthesis from C-terminal end to N-terminal end on an insoluble polymer support, detachment from the polymer support by hydrolysis in anhydrous hydrofluoric acid containing suitable scavengers or in trifluoracetic acid containing suitable scavengers, cyclization of C-terminal and N-terminal ends in organic polar solvents dilute solution, deprotection of side chains and their cyclization in organic polar solvents dilute solution (cf the method described by Atherton et al. in Bioorganic Chemistry, 8, 351. 1979; by Merrifield in J.Am.Chem.Soc. , 85, 2149-2154 (1963)). The first cyclization reaction can be carried out directly on the insoluble solid support (cf A.M. Felix et al.. Int. J. Pep.Prot.Res. , 31, 231, 1988; P. Rovero et al., Tetrahedron Letters, 3_2, 23, 2639 (1991), whereas the second cyclization can be carried out also in solution according to the procedures well known in the chemistry of peptide linkages (cf Kopple K.D., J. Pharmaceutical Sci., 6l, 1345, 1972). According to a particular method, the desired product may be obtained with PAM-resin (phenylacetoamidomethyl resin - A.R. Mitchell et al. , J. Org. Chem., 43, 2845, 1978) functionalized with a Boc group protected amino acid at the N-terminal end. The amino acids directly bound to the resin are preferably the hydrophobic ones, such as Leu. After introduction of the other amino acids in the sequence, a first cyclization may be carried out reaching the side chains of the preferred aminoacids after their selective deprotection and activation. The monocyclic peptide can be removed by liquid hydrofluoric acid. The free peptide at N- and C-terminal ends can be further cyclized according to traditional synthesis methods.
The compounds as per formula (I) defined above proved to be more effective tachyquinine antagonists than other analogous antagonists; it follows that - compared with the known products - they may be administered at lower dose levels.
Therefore, they are suitable for the treatment of arthritis, asthma, inflammations, tumoral growth, gastrointestinal hypermotility, Huntington's disease, neuritis, neuralgia, migraine, hypertension, incontinence of urine, urticaria, carcinoid syndrome symptoms, influenza and cold.
The compounds as per formula (I) covered by the invention are suitable for therapeutic administration to animals and man by the parenteral , oral, inhalatory, and sublingual ways , with pharmacological effects matching the described properties. In case of parenteral administration (intravenous, intramuscular, intradermal), the compounds to be used are sterile solutions or freeze-dried preparations. In case of oral administration, 5 preparations such as tablets, capsules and syrups are conveniently used. Suitable dosed ointments and creams are utilizable by the dermic way. In case of nasal instillation, inhalation, and sublingual administration, the compounds to be used are respectively aqueous solutions, aerosol preparations, or capsules. ° Active ingredient doses in the aforesaid compositions range from 0.1 to 10 mg/kg body weight. EXAMPLE 1
Preparation of cyclo(Met-Asρ-Trp-Phe-Leu) [Compound as per formula (I) where: Y = XI = X2 = X3 = X4 = X5 = X6 5 = -NHC0-; m = n = 1; Rl = -CH2-CH(CH,)2; R2 = R3 = -CH2-CgHc; R4 = -CH2-CH2-SCH2; and carbon atoms
Figure imgf000013_0001
Cr,
Cβ have L-configuration]
Compound (1) a) Synthesis of the monocyclic peptide having the following 0 sequence: H-Met-Asp-Trp-Phe-Dpr-Leu-OH
0.625 Grams Boc-Leu-0CH2~PAM resin (Applied BioSystem, USA, 0.8 meq/g) , equal to 0.5 mmoles of amine groups, is fed an Applied BioSystem 430A (Foster City, CA, USA) semi-automatic peptide synthesis reactor. The Boc group is hydrolyzed with 33/» TFA in DCM 5 for 1.5 min. and with 50% TFA in DCM for 18.5 min.; then it is neutralized with in DMF with 10 DIEA solution for 2 min. The following residues are made to react in the same order, in the quantities indicated in brackets: Boc-Dpr(Fmoc)-OH (0.852 g) , Boc-Phe-OH (0.512 g) , Boc-Trp(CH0)-0H (0.664 g) , Boc-Asp(0Fm)-0H (0.822 g).
The first acylation lasts 1 hour. The resin is washed and the reaction is ninhydrin-tested by the Kaiser method. In case of a negative response, the Boc group is hydrolyzed as described above, before the subsequent amino acid coupling. Acylation with Boc- Dpr(Fmoc)-0H is performed by adding an amino acid (2 mmoles) and PyBop (2 mmoles) solution in DMF to the deprotected resin. Boc-Phe- OH and Boc-Trp(CH0)-0H are coupled in the form of symmetric anhydride by dissolving 2 mmoles amino acid in 5 ml dichloromethane. The solution temperature is brought to 0°C and 1 ml of a 0.5 M solution of dicyclohexyl carbodiimide in dichloromethane is added. After 15 minutes, dicyclohexylurea is filtered and the resulting solution is added to the deprotected resin. Boc-Asp(0Fm)-0H coupling is performed by adding the deprotected resin with an amino acid (2 mmoles) and HOBt (2 mmoles) solution in DMF; after 2 minutes, the suspension is added with a 0.5 M solution of DCC in DCM (4 ml). The fluorenyl groups on Asp and Dpr side chains are removed by treatment with a 20# (v/v) piperidine solution in DMF (15 ml twice for 3 and 7 min.). The condensation between β-amino and β-carboxyl groups is carried out with a 0.25 M solution of PyBop in DMF (3 equivalents) in the presence of DIEA (6 equivalents) until negative response of the Kaiser Test.
Activated Boc-Met-OH (0.498 g) in the form of symmetric anhydride is coupled and, after terminal amine group deprotection, the formyl group of tryptophan is deprotected by treatment with 120 ml of 1 M solution of TMSiBr and 1 M solution of thioanisole in TFA in the presence of 1.2 ml m-cresol and 1.2 ml EDT. After 1 hour at 0°C, the solution is filtered, the resin washed with TFA and dried. The dry resin is placed in a Teflon reactor with 1 ml anisole and 1 ml dimethyl sulphide. The mixture temperature is brought to -50°C and 10 ml hydrofluoric acid is distilled therein; then the mixture is kept under stirring for 60 min. in an ice bath. Hydrofluoric acid is removed by nitrogen blowing. The raw product is dried under suction for about 2 hours, is washed with ethyl ether (15 ml twice), extracted in 50J*. acetic acid (15 ml three times), and filtered in a porous filter funnel to remove^ the exhaust resin. The resulting solution is diluted with water and freeze-dried. Finally, the peptide is purified by reversed phase chromatography and characterized by analytical HPLC on Varian LC Star 9010 Vydac Cl8 0.46 x 25 cm column with a linear acetonitrile gradient containing 0.1/- (v/v) trifluoracetic acid (phase B) vs. 0.1?! (v/v) aqueous trifluoracetic acid (phase A), as 5 to 70?! phase B, in 50 min., at a rate of 1 ml/min. , with 210 nm UV monitoring. Retention time (Rt) = 26.3'; chromatographic purity > 99#. FAB-MS: (M + H)+ = 779- b) Cyclization of (a)
70 mg product (a) obtained as above is dissolved in 90 ml DMF. The solution is added with 47 mg PyBOP plus 20 μl DIEA. The resulting solution is kept under stirring at 0°C for 18 hours, then DMF is removed under vacuum and the resulting mixture freeze-dried. Compound (1) is purified by reversed phase liquid chromatography and characterized by analytical HPLC, on Varian LC Star 9010 Vydac C18 0.46 x 2 cm column with a linear acetonitrile gradient containing 0.1 (v/v) trifluoracetic acid (phase B) vs. 0.1% (v/v) aqueous trifluoracetic acid (phase A), as 5 to 0% phase B, in 0 min., at a rate of 1 ml/min., with 210 nm UV monitoring. Retention time (Rt) = 29-5'; chromatographic purity > 93%. FAB-MS: (M + H)+ = 76l. BIOLOGICAL ACTIVITY The capacity of the products described in the present invention to interact with the neuroquinine A receptor as agonists or antagonists was assessed using a preparation characterized by the fact that the biological response produced by tachyquinines and correlated peptides was exclusively determined by the neuroquinine A receptor (receptor NK-2) . The said preparation consisted of isolated rabbit pulmonary artery affected by a dose-dependent contraction brought about by tachyquinines (Rovero et al. , Neuropeptides, 13, 263-270, 1989). The determination of the peptide activity in the test preparation was based on the use of an NKA concentration (3 nM) causing a response equal to 4 of max. response. The peptides considered herein were added to the preparation in growing concentrations. Their activity was assessed as inhibition of response to NKA. By way of example, compound 1 tested at a concentration of 1 M caused 100% inhibition of response to neuroquinine A in isolated rabbit pulmonary artery.
The capacity of the products described herein to interact with the P substance receptor (receptor NK-1) was assessed through an in vitro test, where the biological response produced by tachyquinines and correlated peptides was exclusively determined by the P substance receptor. The test preparation consisted of isolated guinea pig ileum affected by a dose-dependent contraction brought about by tachyquinines (Lee et al. , Schmied. Arch. Pharmacol., 318, 281-287, 1982) . The determination of the activity of the products as per the present invention in the test preparation was based on the use of an SP methyl ester concentration (10 nm) causing a response equal to 45% of max. response (S. Dion et al., Life Sci., 4l, 2269-2278, 1987). The products considered herein were added to the preparation in growing concentrations. Their activity was assessed as inhibition of response to SP with satisfactory results.
By way of example, product 1 tested at a concentration of 10 mM caused 100% inhibition of response to SP methyl ester. Abbreviations used For the nomenclature and abbreviations of amino acids, reference is made to the rules issued by the IUPAC-IUB Joint Commission on
Biochemical Nomenclature (Eur. J. Biochem. , 1984, 138:9) ; unless otherwise specified, amino acids are considered in the L- conf iguratio . The other abbreviations used are the following:
Boc = tert-butyloxycarbonyl; DCM = dichloromethane ; BOP = benzotriazolyl-N-oxytri(dimethylaminophosphonium) hexaf luorophosphate , Dpr = 2, 3-diaminopropionic acid; DCC = N-N' - dicyclohexyl carbodiimide ; DCU = N-N' dicyclohexylurea; DIEA = diisopropylethylamine , DMF = N-N' dimethylformamide; EDT = ethandithiol ; FAB-MS = fast atoms bombardment mass spectrometry;
Fmoc = 9-fluorenylmethyloxycarbonyl, HOBt = 1-hydroxybenzotriazole;
HPLC = high ^pressure liquid chromatography; iPrOH = isopropanol; PAM
= phenylacetamidomethyl ; NKA = neuroquinine A; SP = P substance; PIP = piperldine; TFA = trifluoracetic acid; For = formyl; Me = methyl;
Ac = acetyl ; Fm = fluorenylmethyl ; PyBop = benzotriazole-1-yl- oxypyrrolidinephosphonium hexaf luorophosphate .

Claims

1. Products of general formula (I)
where:
Figure imgf000019_0001
3 XI, X2, X3, X4, X5, and X6, identical or different, are each selected out of the group consisting of -NR'-CO-, -CO-NR'-, where R' is chosen in the group consisting of H, C-j ^alkyl Y is selected out of the group consisting of -CONR-, -NRCO-, -0C0-, -C00-, -CH2-NR-, -NR-CH2-, -SS-, -CH2-CH2-, cis or trans -CH=CH-, where R is chosen in the group consisting of H, C^_***,alkyl Rl, R2, R3, and R4 are each a hydrophobic group n and m, identical or different, are each a whole number from 1 to 4.
2. The compounds of formula (I) according to claim 1 wherein Rl, R2, R3, and R4 are selected out of the following groups: a) linear or branched alkyl groups of the type CnH2n+1 where n = 0, 1 to 4 b) linear or branched alkyl groups of the type CnH n~U- where n = 1 to 4; U = 0, CO, COO, CONH, S, guanidine, NH and W = H, hydrophobic group containing 1 to 10 carbon atoms c) CH^gH^XY where X and Y, identical or different, are each H, 0 halogen, OH, NH2, CH in the ortho or meta or para position of the
1 benzene ring 2 d) CH2CgH^X where X = OR, SR, NHR, where R = hydrophobic group 3 containing 1 to 10 carbon atoms 4 e) CgH XY where X and Y, identical or different, are each H, 5 halogen, OH, NH2, CHo in the ortho or meta or para position of the 6 benzene ring 7 f) CH2C6H1;L & g) 1-methyl-naphthyl, 2-methyl-naphthyl 9 h) CH2-imidazole 0 i) CH2-indole 1 1) CH2-(furanyl-3-yl) 2 m) CH2-(pyridyl-3-yl) 3 n) CH2-(imidazolyl-3-yl) " 4 o) an eventually substituted, - (CH2) o- group, which cyclizes with 5 one of the two adjacent groups X to give the side chain of proline , 6 hydroxyproline, dehydroproline 7 the other substituents being as defined in claim 1.
1 3 « The compounds of formula (I) according to claim 2 wherein: Rl ,
2 R2, R3 , and R4 are the side chains of amino acids selected out of
3 the group consisting of : glycine , alanine , valine , leucine , •4 isoleucine , methionine, phenylalanine , tyrosine , tryptophan,
5 proline, histldine , norleucine , norvaline , alloisoleucine ,
6 dehydroproline, hydroxyproline, cyclohexylglycine (Chg) , α-amino-n- butyric acid (Aba), cyclohexylalanine (Cha), aminophenylbutyric acid (Pba) , phenylalanine mono- and disubstituted in the ortho, meta, or para position of the aromatic ring with one or more of the following groups: C-^Qalkyl, C-^Qalcoxyl, halogen, β-2-thienylalanine, β-3- thienylalanine, β-2-furanylalanine , β-3-furanylalanine, β-2- pyridylalanine, β-3-pyridylalanine , β-4-pyridylalanine, β-(l- naphthyl) alanine, β-(2-naphthyl) alanine, O-alkylated derivatives of serine, threonine, tyrosine, S-alkylated cysteine, S-alkylated homocysteine, alkylated lysine, alkylated orni thine, 2,3~ diaminopropionic acid; or they are the side chains of non-hydrophobic amino acids whose functional groups where derivatized in order to render them hydrophobic, selected out of the group consisting of: serine, threonine, cysteine, aspartic acid, asparagine, glutamic acid, glutamine, t-carboxyglutamic acid, arginine, orni thine, lysine. 4) The compounds of formula (I) according to claim 3 wherein:
Rl = —CH CH CH ) R2 = -CH2C6H5
Figure imgf000021_0001
XI = X2 = X3 = X4 = X5 = X6 = -C0NH- Y = -CONH- wherein chiral carbon atoms exhibit L-configuration. 5) The compounds of formula (I) according to claim 3 wherein: Y = -NHC0- the other substituents being as defined in claim 4. 6) The compounds of formula (I) according to claim 3 wherein: R4 = -CH2-C6H1:I the other substituents being as defined in claim 4. 7) The compounds of formula (I) according to claim 3 wherein: .-. Y = -NHC0- the other substituents being as defined in claim 6.
8) The compounds of formula (I) according to claim 3 wherein: R2 = R4 = -CH2-C6H5 Rl = R3 = -CH2- > the other substi Otuents being as defined in claim 4. 9) The compounds of formula (I) according to claim 3 wherein: Y = -NHC0- the other substituents being as defined in claim 8. 10) The compounds of formula (I) according to claim 3 wherein: Y = -SS- the other substituents being as defined in claim 4. 11) The compounds of formula (I) according to claim 3 wherein: Y = -CH2-CH2- the other substituents being as- defined in claim 4. 12) The compounds of formula (I) according to claim 3 wherein: Y = -CH=CH- (cis) the other substituents being as defined in claim 4. 13) The compounds of formula (I) according to claim 3 wherein: Y = -CH=CH- ( trans) the other substituents being as defined in claim 4. 14) The compounds of formula (I) according to claim 3 wherein: Y = -CH2NH- the other substituents being as defined in claim 4. 15) The compounds of formula (I) according to claim 3 wherein: Y = -NHCH2- the other substituents being as defined in claim 4. 16) The compounds of formula (I) according to claim 3 wherein: m = n = 1 the other substituents being as defined in claim 4. 17) The compounds of formula (I) according to claim 3 wherein: m = 2, n = 4 the other substituents being as defined in claim 4. 18) The compounds of formula (I) according to claim 3 wherein: XI = X2 = X3 = X4 = X5 = X6 = -NHCO- the other substituents being as defined in claim 4. 19) The compounds of formula (I) according to claim 3 wherein: Y = -NHCO- the other substituents being as defined in claim 18. 20) The compounds of formula (I) according to claim 3 wherein: R4 = -CH2-C6H the other substituents being as defined in claim 18. 21) The compounds of formula (I) according to claim 3 wherein: Y = -NHCO- the other substituents being as defined in claim 20. 22) The compounds of formula (I) according to claim 3 wherein: R2 = R4 = -CH2-C6H5
Figure imgf000024_0001
the other substituents being as defined in claim 18. 23) The compounds of formula (I) according to claim 3 wherein: y = -NHC0- the other substituents being as defined in claim 22.
24) The compounds of formula (I) according to claim 3 wherein: Y = -SS- the other substituents being as defined in claim 18. 25) The compounds of formula (I) according to claim 3 wherein:
Y = —CHo-CHp— the other substituents being as defined in claim 18. 26) The compounds of per formula (I) according to claim 3 wherein: Y = -CH=CH- (cis) the other substituents being as defined in claim 18. 27) The compounds of formula (I) according to claim 3 wherein: Y = -CH=CH- (trans) the other substituents being as defined in claim 18. 28) The compoimds of formula (I) according to claim 3 wherein: m = n = 1 the other substituents being as defined in claim 18. 29) The compounds of formula (I) according to claim 3 wherein: m = 1; n - 2 the other substituents being as defined in claim 18. 30) The compounds of formula (I) according to claim 3 wherein: m = 1; n = 3 the other substituents being as defined in claim 18. 31) The compounds of formula (I) according to claim 3 wherein: m = 1; n •= 4 the other substituents being as defined in claim 18. 32) The compounds of formula (I) according to claim 3 wherein: m = 2; n •= 1 the other substituents being as defined in claim 18. 33) The compounds of formula (I) according to claim 3 wherein: m = 2; n = 3 the other substituents being as defined in claim 18. 34) The compounds of formula (I) according to claim 3 wherein: m - 2; n = 2 the other substituents being as defined in claim 18. 35) The compounds of formula (I) according to claim 3 wherein: m = 2 ; n = 4 the other substituents being as defined in claim 18. 36) The compounds of formula (I) according to claim 3 wherein the carbon atoms in positions 5 and 6 exhibit D-configuration, all substituents being as defined in claim 4. 37) The compounds of formula (I) according to claim 3 wherein all chiral carbon atoms exhibit D-configuration, all substituents being as defined in claim 4. 38) The pharmaceutical compositions containing compounds of formula (I) according to claim 1 mixed with suitable carriers. 39) The pharmaceutical compositions according to claim 38 for use as tachyquinine antagonists. 40) The compositions according to claim 38 for the treatment of arthritis, asthma, inflammations, tumoral growth, gastrointestinal hypermotility, Huntington's disease, neuritis, neuralgia, migraine, hypertension, incontinence of urine, urticaria, carcinoid syndrome symptoms, influenza and cold. 4l) Method for the treatment of arthritis, asthma, inflammations, tumoral growth, gastrointestinal hypermotility, Huntington's disease, neuritis, neuralgia, migraine, hypertension, incontinence of urine, urticaria, carcinoid syndrome symptoms, influenza and cold, wherein the patient is administered 0.1 to 10 mg/kg active ingredient consisting of products of formula (I) according to claim 1.
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WO1997031941A3 (en) * 1996-03-01 1997-10-09 Interuniversitario Di Ricerca Soluble tachykinin antagonists, the preparation and use thereof
US6075006A (en) * 1996-03-01 2000-06-13 Centro Interuniversitario di Ricera Sui Peptidi Bioattivi-Universita' Deg li Studi di Napoli Federico II Soluble tachykinin antagonists, the preparation and use thereof
US6780968B1 (en) 1997-02-07 2004-08-24 Menarini Ricerche S.P.A. Monocyclic compounds with four bifunctional residues having NK-2 antagonist action
US7015196B1 (en) 1999-10-21 2006-03-21 Menarini Ricerche S.P.A. Basic monocyclic compounds having Nk2 antagonist action, processes for their preparation, and formulations containing them
EP1297826A1 (en) * 2001-09-27 2003-04-02 Menarini Ricerche S.p.A. Nasal pharmaceutical compositions containing a NK-2 antagonist

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AU4039593A (en) 1993-11-18
EP0636146B1 (en) 1997-07-30
NO943861D0 (en) 1994-10-13
HUT70189A (en) 1995-09-28
CA2118253A1 (en) 1993-10-28
NZ251969A (en) 1997-12-19
RU94045890A (en) 1996-09-10
JPH08500331A (en) 1996-01-16
HRP930814A2 (en) 1996-12-31
KR950700935A (en) 1995-02-20
EP0636146A1 (en) 1995-02-01
DE69312698T2 (en) 1997-12-04
FI944838A0 (en) 1994-10-14
IL105381A (en) 1998-02-22
CN1080916A (en) 1994-01-19
CN1039126C (en) 1998-07-15
FI944838A (en) 1994-10-14
ES2105265T3 (en) 1997-10-16
GR3024348T3 (en) 1997-11-28
NO943861L (en) 1994-10-13
BR9306248A (en) 1998-06-23
DK0636146T3 (en) 1998-02-23
SK124294A3 (en) 1995-07-11
ATE156135T1 (en) 1997-08-15
BG99110A (en) 1995-09-29
AU671118B2 (en) 1996-08-15
MX9302161A (en) 1994-05-31
DE69312698D1 (en) 1997-09-04
IT1262902B (en) 1996-07-22
ITFI920089A1 (en) 1993-10-15
RO112872B1 (en) 1998-01-30
TW234718B (en) 1994-11-21
HU9402977D0 (en) 1995-02-28
ITFI920089A0 (en) 1992-04-15
CZ254294A3 (en) 1995-07-12
ZA932644B (en) 1993-10-22

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