WO2000024408A1 - Method for killing tumor and tumor associated endothelial cells using adenoviral mutants - Google Patents
Method for killing tumor and tumor associated endothelial cells using adenoviral mutants Download PDFInfo
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- WO2000024408A1 WO2000024408A1 PCT/US1999/024144 US9924144W WO0024408A1 WO 2000024408 A1 WO2000024408 A1 WO 2000024408A1 US 9924144 W US9924144 W US 9924144W WO 0024408 A1 WO0024408 A1 WO 0024408A1
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- adenovirus
- cells
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- endothelial cells
- mutation
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Definitions
- the invention described herein relates to the treatment or prevention of diseases involving hyperproliferative or uncontrolled cell growth, preferably cancer, using replication competent adenoviral mutants that selectively replicate in such cells compared to quiescent cells.
- the adeno virus 5 El A gene encodes two mRNAs having sedimentation values of 13S and 12S, which arise as a result of differential splicing of a common precursor, and encode proteins having 289 and 243 amino acids, respectively.
- the 46 amino acid difference between the two proteins is attributed to the 13S species. It is thought that EIA transforms cells by binding cellular RB, thus abrogating its tumor suppressor function.
- the EIA gene has been shown to encode several different biological activities. In one instance, and in combination with either the middle T antigen of SV40 virus, or activated H-ras gene product, it is capable of transforming cells. In contrast, more recent work has shown that it can suppress the oncogenic phenotype associated with certain oncogenes. See, U. S. Patent No. 5, 651, 964. Mutations in the EIA gene have been identified that affect its anti-oncogenic activity, and certain of these have been shown to be effective in combination with chemotherapeutic drugs. See, PCT/US97/19042.
- U. S. Patent No. 5, 516, 631 describes methods of inhibiting replication of hyperproliferative cells using nucleic acid encoding a polypeptide having adenovirus EIA activity.
- PCT/US95/11342 describes a method of sensitizing tumor cells with adenoviral EIA to chemotherapeutic agents.
- adenoviral EIA has an in vivo anti-tumor role. See, R. Sanchez-Prieto et al, Oncogene, vol. 13: 1083-92 (1996); and R. Sanchez-Prieto et al., Cancer Gene Therapy, vol. 5 (4) 215-224 (1998).
- Angiogenesis is necessary for growth and metastasis of the primary tumor as well as subsequent metastasis of secondary tumors. That is, a tumor cannot maintain sustained growth without a blood supply to provide nutrients, and remove metabolic wastes. Thus, formation of new blood vessels, or angiogenesis, facilitates tumor cell growth, allows tumor cells to gain entry to the blood stream, and to circulate throughout the body. Thus, inhibition or prevention of angiogenesis is expected to be an effective method for preventing tumor growth and metastasis.
- tumor-associated endothelial cells proliferate while endothelial cells associated with normal tissues are essentially quiescent. Therefore, therapeutic agents that target dividing cells, that is cancer cells, and their associated microvascular endothelial cells, would have enhanced antitumoral efficacy over agents that target either cell type alone.
- a viral agent that has this property that is one that replicates in the target cell thereby killing it, and in the process releases new viral particles capable of spreading and attacking additional target cells, would have major medical applications.
- the instant invention provides a method and replication competent adenoviral mutants for treating or preventing diseases of uncontrolled, hyperproliferative cell growth.
- the instant invention provides a method and replication competent adenoviral mutants for treating or preventing diseases of uncontrolled or hyperproliferative cell growth, and preferably those diseases that require or are facilitated by angiogenesis, including cancer.
- replication competent adenoviral mutants are capable of enhanced replication compared to wild type adenovirus in dividing normal or cancer cells, wherein the mutants exhibit a mutation in a RB family member binding region of E 1 A.
- replication competent adenoviral mutants are capable of enhanced cytopathogenicity compared to wild type adenovirus in dividing normal or cancer cells, wherein the mutants exhibit a mutation in a RB family member binding region of EIA.
- replication competent adenoviral mutants that exhibit a mutation in the RB family member binding region of EIA, preferably the El A-CR2 region are capable of enhanced replication compared to wild type adenovirus in dividing normal or cancer cells.
- replication competent adenoviral mutants that exhibit a mutation in the RB family member binding region of El A, preferably the E1A-CR2 region, are capable of enhanced cytopathogenicity compared to wild type adenovirus in dividing normal or cancer cells.
- FIG. 1 Adenovirus EIA gene region.
- the conserved regions (CR) of EIA responsible for binding pRB (and pl07, pl30) are shown.
- the specific CR2 gene deletions present in dl922/947 and dll 107, and point mutation in pm928 are shown.
- Fig. 2 Replication efficiency of an E1A-CR2 mutant (dl922/947) as a percentage of wild-type adenovirus replication.
- D1922/947 and wild-type adenovirus were tested for replication in quiescent or proliferating non-immortalized human microvascular endothelial cells (Q-MVEC and P-MNEC, respectively), C33A cervical carcinoma cells and HLaC laryngeal carcinoma cells. Cells were infected at an MOI of 10 pfu per cell and virus titers were determined 48 hours later by plaque assay on HEK 293 cells. Data are means ( ⁇ SEM) of assays performed twice in triplicate.
- E1A-CR2 mutants dl922/947 or dll 107
- dl922/947 or dll 107 wild-type adenovirus on tumor cells.
- Cells were infected at the multiplicites of infection (MOI) shown and 5 days later cell monolayers were fixed and stained.
- MOI multiplicites of infection
- H2009 non-small cell lung carcinoma cells panel A
- HLaC laryngeal carcinoma cells panel B
- Fig. 4 Improved survival following intratumoral injection with E1A-CR2 mutant (dl922/947) in nude mouse-human tumor xenograft models.
- RKO.RC 7.14 human colon tumor cells (panel A) or HLaC human laryngeal tumor cells (panel B) were injected subcutaneously into the flanks of n nu mice and when tumors reached
- adenovirus indicates over 40 adenoviral subtypes isolated from humans, and as many from other mammals and birds.
- Neoplastic cells or “neoplasia” refer to cells which exhibit relatively autonomous growth, so that they exhibit an aberrant growth phenotype characterized by a significant loss of control of cell proliferation.
- Neoplastic cells comprise cells which may be actively replicating or in a temporary non-replicative resting state (Gi or Go); similarly, neoplastic cells may comprise cells which have a well-differentiated phenotype, a poorly-differentiated phenotype, or a mixture of both type of cells. Thus, not all neoplastic cells are necessarily replicating cells at a given timepoint.
- the set defined as neoplastic cells consists of cells in benign neoplasms and cells in malignant (or frank) neoplasms.
- neoplastic cells are frequently referred to as cancer, or cancer cells, tumor, or tumor cells, typically termed carcinoma if originating from cells of endodermal or ectodermal histological origin, or sarcoma if originating from cell types derived from mesoderm. Included within the definition of neoplastic cells are cells that lack p53 function, but are not simply neoplastic. See, U.S. Patent No. 5,677,178. Examples of cells in the later category would be cells associated with Barret's syndrom, or leukoplakia.
- Replication competent adenovirus or “replication competent mutant adenovirus” refers to an adenovirus that exhibits a mutation in a RB family member binding region of El A, preferably the El A-CR2 region.
- Dividing cells, to a greater degree than quiescent cells, infected with such a virus display one or more of the following phenotypic characteristics: (1) substantial expression of late gene products, such as capsid proteins (e.g., adenoviral penton base polypeptide) or RNA transcripts initiated from viral late gene promoter(s), (2) replication of viral genomes or formation of replicative intermediates, (3) assembly of viral capsids or packaged virion particles, or (4) appearance of cytopathic effect (CPE) in the infected cell, (5) completion of a viral lytic cycle.
- capsid proteins e.g., adenoviral penton base polypeptide
- RNA transcripts initiated from viral late gene promoter(s)
- CPE cytopathic effect
- physiological conditions refers to an aqueous environment having an ionic strength, pH, and temperature substantially similar to conditions in an intact mammalian cell or in a tissue space or organ of a living mammal.
- physiological conditions comprise an aqueous solution having about 150 mM NaCl, pH 6.5-7.6, and a temperature of approximately 22-37° C.
- physiological conditions are suitable binding conditions for intermolecular association of biological macromolecules.
- physiological conditions of 150 mM NaCl, pH 7.4, at 37°C are generally suitable.
- diseases involving “hyperproliferative” cell growth is meant pathologic conditions that are non-cancerous and characterized by unwanted cell growth such as endothelial cell growth associated with angiogenesis, or restinosis.
- diseases involving "uncontrolled cell growth” typically refer to benign or metastatic cancer, respectively.
- negative selection genes or agents a gene whose protein product enhances a host's ability to kill neoplastic cells. Such would include immunopotentiating agents, or enzymes that facilitate the conversion of a prodrug to its toxic metabolite.
- Chemistry terms herein are used according to conventional usage in the art, as exemplified by The McGraw-Hill Dictionary of Chemical Terms (ed. Parker, S., 1985), McGraw-Hill, San Francisco, incorporated herein by reference.
- DNA regions are operably linked when they are functionally related to each other.
- a promoter is operably linked to a coding sequence if it controls the transcription of the sequence
- a ribosome binding site is operably linked to a coding sequence if it is positioned so as to permit translation.
- operably linked means contiguous and, in the case of leader sequences, contiguous and in reading frame.
- replicating adenoviral vector is meant adenovirus or a mutant thereof that is capable of replicating in cancer cells.
- Such may include wild-type adenovirus, or, as discussed more in detail below, mutants of adenovirus that are capable of selectively replicating in certain types of cancer cells, preferably those that functionally lack one or more tumor suppressor proteins.
- RB family member binding regions By “El A RB family member binding regions”, “RB binding site mutants” or “RB mutants” in adenovirus is meant those regions in the conserved region 2 (CR2) of EIA responsible for binding RB (pl05), or two other EIA binding proteins, ⁇ l07, and pi 30.
- Figure 1 shows the specific CR2 gene deletions present in the adenoviral mutants dl922/947, dll 107, and the point mutation in pm928.
- an adenovirus that is mutant in an EIA RB family member binding region may also express a heterologous gene product, or negative selection agent, which can be toxic for the infected cells.
- a heterologous gene product or negative selection agent, which can be toxic for the infected cells.
- negative selection genes may be incorporated into a chosen adenovirus EIA RB family member binding region construct.
- a preferred embodiment is a HSV tk gene cassette operably linked to the E2 promoter of Ad5 NT dll 110, or an alternative promoter and/or enhancer (e.g., major late promoter, Ela promoter/enhancer, Elb promoter/enhancer), with a polydenylation site to form a tk expression cassette.
- tk expression cassette (or other negative selection expression cassette) is inserted into the adenoviral genome, for example, as a replacement for a substantial deletion of the E3 gene.
- Other negative selection genes including cytosine deaminase, will be apparent to those of skill in the art. See, U. S. Patent No. 5, 358, 866. It is believed that a negative selection gene operably linked to the E2 promoter is an especially preferred embodiment for incorporation into EIA RB binding mutants disclosed herein, and preferably the E1A-CR2 mutants.
- other negative selection agents would include cytokines, preferably an interleukin 1-15, more preferably IL-2 (U.S. Patent Nos. 4,738, 927 or 5, 641, 665), interleukin 7, (U. S. Patent Nos. 4, 965, 195 or 5, 328, 988), and IL-12 (See, PCT/US91/06332 or U. S. Patent No. 5,457, 038), or an interferon, including interferon gamma (U.S. Patent Nos. 4, 727, 138 or 4, 762, 791). Also included would be tumor necrosis factor alpha, (U. S. Patent Nos.
- immunomodulatory proteins could be used and would include macrophage inflammatory proteins, including MIP-3, (See, Well, T. N. and Peitsch, MC. J. Leukoc. Biol vol 61 (5): pages 545-50,1997), and cell suicide, or apoptosis inducing proteins, including BAD and BAX. See, Yang, E., et al. Cell, vol 80, pages 285-291 (1995); and Sandeep, R., et al Cell, vol. 91, pages 231-241 (1997).
- Adenovirus It is noteworthy that while the instant invention is described in terms of adenovirus type 5, it may be practiced with other similar adenovirus serotypes. The general organization of the adenoviral genome is conserved among serotypes, and specific functions are similarly situated. Further, the adenovirus 5 genome is registered as Genbank accession #M73260, and the virus is available from the American Type Culture Collection, Rockville, Maryland, U. S. A., under accession number VR-5. Methods for the construction of adenoviral mutants are generally known in the art. See, Mittal, S.K., Virus Res., 1993, vol: 28, pages 67-90.
- Mutations in the El A RB family member binding region are known in the art, and are readily generated using standard mutagenesis techniques, including PCR.
- EIA Mutant Adenovirus Replication and Cytopathogenicity DNA tumor viruses such as adenovirus are able to infect and replicate in quiescent cells because S phase entry is induced. This progression from Gl into S phase follows the inhibitory binding of RB and related cellular proteins by early viral gene products. See, Whyte, P., Williamson, N. & Harlow, E., Cell 56, 67-75 (1989); Moran, E., Zerler, B., Harison, T. & Mathews, M., Molecular and Cellular Biology 6, 3470-3480 (1986).
- Binding and inactivation of RB (as well as pi 07, pi 30, discussed more below) by adenovirus is facilitated by amino acids 121 to 127 of the EIA protein conserved region 2.
- EIA protein conserved region 2 See, Moran, E., Zerler, B., Harison, T. & Mathews, M. Molecular and Cellular Biology 6, 3470-3480 (1986); Whyte, P., Ruley, H. & Harlow, E., J Virology 62, 257-265 (1988). Mutations within this domain result in a loss of transformation by EIA without inhibiting its transactivation function.
- adenovirus EIA RB binding site mutants are described that have reduced replication capacity in quiescent normal cells, but show enhanced replication in both cancer cells and proliferating normal cells, including, importantly, microvascular endothelial cells.
- viral replication substantially kills dividing cells while having much less effect on quiescent cells.
- viruses with mutations in the RB family member binding region of EIA exhibit significantly reduced replication and cytopathogenicity in quiescent normal cells as compared to wild-type adenovirus.
- the replication and cytopathogenicity of the El A RB family member binding site mutant viruses is greater than that seen with wild-type adenovirus in cancer cells and in proliferating normal cells, including microvascular endothelial cells.
- the following discussion presents a more detailed description of each of these properties, replication and cytopathogenicity, of the invention adenoviral mutants in various cell types, either dividing or quiescent.
- the instant invention presented in detail below, and particularly in the Examples, centers on the results of experiments with three adenoviral mutants with well characterized mutations in the El A RB family member binding region, conserved region 2 (CR2) of the virus.
- the viruses are denoted: dll 107, dl922/947 and pm928.
- the CR2 region of wild type adenovirus binds three cellular proteins; pi 30, pl07, and pl05.
- pl05 corresponds to RB.
- Previous work by others ⁇ (See, Barbeau, D., et al. Oncogene, vol. 9, 359-373 (1994) ⁇ , and our unpublished observations, have elucidated the effect of mutations in the EIA CR2 region of the adenoviral mutants, dll 107, dl922/947 and pm928 on binding to these cellular proteins.
- EIA encoded by dll007 binds substantially only to pl07, whereas EIA encoded by dl922/947 and pm928 show little or no binding to any of the three cellular proteins.
- adenoviral mutants having at least one mutation in what is referred to herein as EIA RB binding site region.
- Replication of E1A-CR2 Mutant Adenoviruses in vitro Relative to Wild-Type adenoviral mutants with well characterized mutations in El A RB family member binding region, and preferably in the El A RB binding conserved region 2 (CR2) of the virus, are shown to replicate in a panel of normal cells and cancer cells ( Figure 2).
- one such adenovirus E1A-CR2 RB binding site mutant was unable to replicate to a titer above the input titer in quiescent, non-immortalized human microvascular endothelial cells (MVEC).
- MVEC microvascular endothelial cells
- EIA RB binding site mutant viruses replicate significantly better than wild-type adenovirus in actively proliferating MVECs.
- EIA RB family member binding mutant adenoviruses in human tumor cells with mutant RB (C33A, cervical) or normal RB expression (HLaC, laryngeal) was determined.
- the EIA RB binding site mutant viruses replicated better than wild-type adenovirus in both tumor cell lines. Similar results were obtained in A549 carcinoma cells that have normal RB expression.
- adenoviral mutants with well characterized mutations in the El A RB family member binding region, and preferably in the EIA RB binding site conserved region 2 (CR2) of the virus, are shown to exhibit enhanced cytopathogenicity versus wild-type adenovirus on all tumor cell lines tested, including cells with normal RB expression (HLaC, RKO, HI 299, U2OS and A549), and those with abnormal RB expression (C33A, H2009) ( Figure 3).
- the viral dose required to destroy 50 percent of a cell monolayer was up to ten-fold higher for wild-type adenovirus than for the E1A-CR2 RB binding site mutants, dll 107 or dl922/947.
- proliferating MVECs, small airway epithelial cells (SAECs), and mammary epithelial cells were shown to be more sensitive to CPE with the E1A- CR2 mutants than to wild- type virus.
- the presence of wild-type RB protein appeared to influence CPE results.
- the superior cytopathogenicity of E1A-CR2 RB family member binding mutants relative to wild-type adenovirus was greatest in cells with normal RB expression.
- quiescent MVECs and mammary epithelial cells (MECs) were less sensitive to the El A RB binding mutant viruses than to wild-type adenovirus.
- EIA mutants show enhanced efficacy against tumors in vivo.
- the EIA RB family member binding site mutant viruses and preferably the E1A-CR2 RB mutants, were shown to have superior or equivalent antitumoral activity in vivo compared to that seen with wild-type adenovirus ( Figure 4).
- the antitumoral efficacy was determined using human tumor xenografts in athymic mice as described in the Examples. For example, animals bearing colon tumors that were injected with an El A-CR2 RB family member binding site mutant virus had a median survival of 80 days versus 35 days in the group treated with wild- type adenovirus, and 25 days for the vehicle-control group. Additional results are presented in the Examples.
- EIA mutants show decreased replication and toxicity in quiescent normal cells in vivo compared to wild type virus.
- the cotton rat is a permissive host for human adenovirus (See, Ginsberg, H.S. et al., Proc Natl Acad Sci U SA 86, 3823-3827 (1989) and its lung is an established model to study adenoviral replication and pathology in vivo. See, Prince, G.A. et al., J Virol 67, 101-111 (1993); Ginsberg, H.S. & Prince, G.A., Infect Agents Dis 3, 1-8 (1994). Thus, experiments were conducted in Cotton rats that confirmed the substantial resistance of quiescent normal cells to the El A RB family member binding site mutant viruses versus wild-type adenovirus.
- the preferred embodiment of the invention is adenoviral El A RB family member binding mutants, and more preferred are adenoviral El A- CR2 RB family member mutants, that are mutated in the RB family member binding region of EIA.
- These viruses show reduced replication in quiescent normal cells, while replication and cytopathogenicity is greater than wild-type adenovirus in cancer cells and proliferating endothelial cells.
- the enhanced replication and cytopathogenicity of E1A-CR2 RB binding site mutants versus wild-type adenovirus in proliferating cells was unexpected. Indeed, several adenovirus and herpes virus mutants are known that have been genetically attenuated in order to achieve selective replication in tumor cells.
- replication can be reduced by 10 to 100-fold versus the wild-type virus. See, Martuza, R.L. et al., Science 252, 854-856 (1991). This is presumably due to the loss of important viral functions that enhance replication. The reason for the enhanced replication of El A-CR2 RB binding mutants versus wild-type adenovirus is unknown.
- the El A RB binding site mutants disclosed herein, and preferably the E1A-CR2 RB binding site mutants have a large therapeutic index between dividing and quiescent cells, or more specifically, tumor and proliferating microvascular endothelial cells, and quiescent microvascular endothelial cells.
- this preferred embodiment of the invention can be beneficially applied to substantially, and selectively kill dividing tumor cells directly by adenoviral replication and cytopathogenic effect therein. This effect is enhanced by the elimination of developing blood vessels by the adenoviral EIA Rb binding site mutants. Both an ti tumor effects occur with minimal killing of normal quiescent cells.
- adenoviral mutants described herein may be formulated for therapeutic and diagnostic administration to a patient.
- a sterile composition containing a pharmacologically effective dosage of adenovirus is administered to a human patient or veterinary non-human patient for treatment, for example, of a neoplastic condition.
- the composition will comprise about 10 to 10 or more adenovirus particles in an aqueous suspension.
- a pharmaceutically acceptable carrier or excipient is often employed in such sterile compositions.
- a variety of aqueous solutions can be used, e ⁇ g., water, buffered water, 0.4% saline, 0.3% glycine and the like.
- compositions may contain pharmaceutically acceptable auxiliary substances as required to approximate physiological conditions such as pH adjusting and buffering agents, toxicity adjusting agents and the like, for example sodium acetate, sodium chloride, potassium chloride, calcium chloride, sodium lactate, etc.
- auxiliary substances as required to approximate physiological conditions such as pH adjusting and buffering agents, toxicity adjusting agents and the like, for example sodium acetate, sodium chloride, potassium chloride, calcium chloride, sodium lactate, etc.
- Excipients which enhance infection of cells by adenovirus may be included, preferably polycations.
- Adenoviruses of the invention, or the DNA contained therein, may also be delivered to neoplastic cells by liposome or immunoliposome delivery; such delivery may be selectively targeted to neoplastic cells on the basis of a cell surface property present on the neoplastic cell population (e.g., the presence of a cell surface protein which binds an immunoglobulin in an immunoliposome).
- a cell surface property present on the neoplastic cell population e.g., the presence of a cell surface protein which binds an immunoglobulin in an immunoliposome.
- an aqueous suspension containing the virions are encapsulated in liposomes or immunoliposomes.
- a suspension of adenovirus virions can be encapsulated in micelles to form immunoliposomes by conventional methods (U.S. Patent 5,043,164, U.S.
- Immunoliposomes comprising an antibody that binds specifically to a cancer cell antigen (e.g., CALLA, CEA) present on the cancer cells of the individual may be used to target virions, or virion DNA to those cells.
- a cancer cell antigen e.g., CALLA, CEA
- compositions containing the present adenoviruses or cocktails thereof can be administered for prophylactic and/or therapeutic treatments of neoplastic disease.
- compositions are administered to a patient already affected by the particular neoplastic disease, in an amount sufficient to cure or at least partially arrest the condition and its complications.
- An amount adequate to accomplish this is defined as a "therapeutically effective dose” or “efficacious dose.” Amounts effective for this use will depend upon the severity of the condition, the general state of the patient, and the route of administration. Single or multiple administrations of the compositions can be carried out with dose levels and pattern being selected by the treating physician.
- the pharmaceutical formulations should provide a quantity of EIA RB family member binding mutant adenoviruses of this invention sufficient to effectively treat the patient.
- compositions containing the invention adenoviruses, or cocktails thereof are administered to a patient not presently in a neoplastic disease state to enhance the patient's resistance to recurrence of a cancer or to prolong remission time.
- Such an amount is defined to be a "prophylactically effective dose.”
- the precise amounts again depend upon the patient's state of health and general level of immunity.
- Adenoviral therapy of the present invention may be combined with other antineoplastic protocols, such as conventional chemotherapy, or with other viruses. See U.S. Patent No. 5,677,178, issued October 14, 1997.
- Chemotherapy may be administered by methods well known to the skilled practitioner, including systemically, direct injection into the cancer, or by localization at the site of the cancer by associating the desired chemotherapeutic agent with an appropriate slow release material or intra-arterial perfusing the tumor.
- the preferred chemotherapeutic agent is cisplatin, and the preferred dose may be chosen by the practitioner based on the nature of the cancer to be treated, and other factors routinely considered in administering cisplatin.
- cisplatin will be administered intravenously at a dose of 50-120 mg/m 2 over 3-6 hours. More preferably it is administered intravenously at a dose of 80 mg/m 2 over 4 hours.
- a second chemotherapeutic agent, which is preferably administered in combination with cisplatin is 5-fluorouracil.
- the preferred dose of 5- fluorouracil is 800-1200 mg/m per day for 5 consecutive days.
- Adenoviral therapy using the instant invention adenoviruses may be combined with other antineoplastic protocols, such as gene therapy. See, U. S. Patent No. 5, 648, 478.
- adenovirus constructs for use in the instant invention will exhibit specific cancer cell killing, preferably though the expression of pro-drug activator genes driven off a tissue specific promoter. See, U. S. Patent No. 5, 631, 236.
- the instant invention adenoviral mutants elicit an immune response that dampens their effect in a host animal, they can be administered with an appropriate immunosuppressive drug to maximize their effect.
- a major immunogenic component of adenovirus' exterior coat, hexon protein can be genetically engineered to be less immunogenic. This is done by creating a chimeric hexon protein by substituting for normal viral hexon protein epitopes a sequence of amino acids not normally found in hexon protein.
- Such adenoviral constructs are less immunogenic than the wild type virus.
- adenoviral EIA mutant constructs they may be modified to exhibit enhanced tropism for particular tumor cell types.
- a protein on the exterior coat of adenovirus may be modified to display a chemical agent, preferably a polypeptide, that binds to a receptor present on tumor cells to a greater degree than normal cells.
- a chemical agent preferably a polypeptide
- the polypeptide can be antibody, and preferably is single chain antibody. Purification of Adenoviral Mutants
- Adenovirus is routinely purified by a number of techniques including cesium chloride banding using an ultracentrifuge.
- methods which give larger yields than those readily obtainable by cesium chloride ultracentrifugation are desirable, and involve one or more chromatographic steps.
- the preferred method utilizes ion exchange chromatography. See, for example, PCT/US97/21504; and Huyghe et al., Human Gene Therapy, vol. 6: 1403- 1416 (1996).
- D1922/947 has a deletion of amino acids 122 to 129 ⁇ See, Whyte, P., Ruley, H. & Harlow, E., J Virology 62, 257-265 (1988) ⁇
- dll 107 has a deletion of amino acids 111 to 123 ⁇ See, Jelsma, T. et al., Virology 171, 120-130 (1989) ⁇
- Pm928 has a point mutation resulting in conversion of amino acid 124 from a cysteine to a glycine.
- Ad5 and wild-type D were used as wild-type adenovirus controls; these viruses are nearly identical except for deletions in the E3 region in wild-type D. See, Barker, D.D., et al, Virology 156, 107-121 (1987).
- Percent of control values was calculated as the optical density (O.D.) of test wells/ O.D. of mock controls and plotted versus viral multiplicity of infection (MOI). Normal cells were made quiescent following growth to complete confluence and subsequent growth in 0.2 % FBS. Quiescence was confirmed by cell cycle analysis and cell counts before each assay.
- non-small cell lung carcinoma A549, H2009, H1299
- colon carcinoma RKO
- cervical carcinoma C33A
- laryngeal carcinoma HaC
- Example 2 Replication of Adenoviral E1A-CR2 RB Family Member Binding Site Mutants
- Viral replication assays were carried out as previously described. See, Bischoff, J.R. et al, Science 274, 373-376 (1996). Briefly, cells were grown as described for the cytopathic effect assays in Example 1, and were infected at a MOI of 10 with each virus. Forty-eight hours later, both cells and supernatant were harvested for virus titration analysis. Cell lysates underwent three cycles of freezing and thawing, followed by a 30-s pulse in a sonicator water bath. Serial dilutions of supernatants and lysates were titered on HEK293 cells (human embryonic kidney cells expressing the El region of Ad2).
- D1922/947 was unable to replicate to a titer above the input titer in quiescent, non-immortalized human microvascular endothelial cells (MVEC) ( Figure 2).
- MVEC microvascular endothelial cells
- Figure 2 both EIA mutant viruses, dll 107 and pm928, replicated significantly better than wild-type adenovirus in actively proliferating MVECs. Similar results were obtained with quiescent and proliferating human mammary epithelial cells (data not shown).
- the replication of dl922/947 was increased in proliferating versus non- proliferating endothelial cells by approximately 25-fold (7 x 10 7 versus 2.6 x 10 6 pfu/ml) versus a 2-fold difference for wild-type adenovirus (4 x 10 7 versus 2 x 10 7 pfu/ml).
- the three EIA RB binding mutant viruses replicated better than wild-type adenovirus in both tumor cell lines. Similar results were obtained in A549 carcinoma cells (normal RB expression).
- Example 3 Adenoviral E1A-CR2 RB Family Member Binding Site Mutants Show Enhanced Efficacy in Nude Mouse-Human Tumor Xenograft Models.
- Female athymic mice Hsd: Athymic Nude-nu
- RKO-RC 7.14 or HLaC human carcinoma cells (2 x 10 6 cells) were injected subcutaneously in the flanks of 6 to 8 week old mice.
- an El A-CR2 RB binding site mutant pm928 or dl922/947
- E1A-CR2 RB Family Member Mutants Show Decreased Replication and Toxcitv in Quiescent Cotton Rat Lung Cells Compared to Wild Type Virus
- the cotton rat is a permissive host for human adenovirus. See, Ginsberg, H.S. et al, Proc Natl Acad Sci U S A 86, 3823-3827 (1989). Its lung is an established model to study adenoviral replication and pathology in vivo. See, Prince, G.A. et al., J Virol 67, 101-111 (1993); Ginsberg, H.S. & Prince, G.A., Infect Agents Dis 3, 1-8 (1994).
- In situ hybridization (performed as described in Example 3) of the lungs infected with dl922/947 demonstrated no replication in one case and low level replication in the other cases on day 3 post-infection.
- in situ hybridization of the lungs infected with wild-type adenovirus demonstrated higher level replication in all animals. Wild-type adenovirus infected cells diffusely throughout the bronchiolar epithelium and within the lung parenchyma, whereas dl922/947 replication was limited to isolated bronchiolar epithelial cells. The alveolar histopathology was also reduced in the dl922/947 infected lungs versus wild-type infected lungs both 3 days and 14 days after infection.
- dl922/947 was significantly less effective at inducing S-phase; only 26% of cells were in S- phase after twenty-four hours. Viral DNA replication was estimated by dot blot analysis in the same assay after twenty-four hours. Although viral DNA production was roughly equivalent for wild-type adenovirus and dlll07, the viral DNA replication documented with dl922/947 was significantly less (approximately 30 % of wild-type levels; p ⁇ 0.05).
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JP2000578017A JP2004517798A (en) | 1998-10-26 | 1999-10-15 | Methods for killing tumors and tumor-associated endothelial cells using adenovirus variants |
AT99953196T ATE299708T1 (en) | 1998-10-26 | 1999-10-15 | METHOD FOR DESTROYING TUMORS AND TUMOR-ASSOCIATED ENDOTHELIAL CELLS USING ADENOVIRAL MUTANTS |
AU65187/99A AU775611B2 (en) | 1998-10-26 | 1999-10-15 | Method for killing tumor and tumor associated endothelial cells using adenoviral mutants |
EP99953196A EP1121137B1 (en) | 1998-10-26 | 1999-10-15 | Method for killing tumor and tumor associated endothelial cells using adenoviral mutants |
CA002348634A CA2348634A1 (en) | 1998-10-26 | 1999-10-15 | Methods for killing tumor and tumor associated endothelial cells using adenoviral mutants |
DE69926251T DE69926251T2 (en) | 1998-10-26 | 1999-10-15 | METHOD FOR DESTROYING TUMORS AND TUMOR-ASSOCIATED ENDOTHELIAL CELLS WITH ADENOVIRAL MUTANTS |
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Cited By (8)
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EP1424894A2 (en) * | 2001-01-12 | 2004-06-09 | Sbarro Health Research Organization | Inhibition of pathological angiogenesis in vivo |
EP1613731A2 (en) * | 2003-03-27 | 2006-01-11 | National Jewish Medical and Research Center | Modified adenoviral e1a constructs and methods of use thereof |
WO2010084100A1 (en) | 2009-01-20 | 2010-07-29 | Transgene Sa | Soluble icam-1 as biomarker for prediction of therapeutic response |
WO2010108908A1 (en) | 2009-03-24 | 2010-09-30 | Transgene Sa | Biomarker for monitoring patients |
WO2010119003A1 (en) | 2009-04-17 | 2010-10-21 | Transgene Sa | Biomarker for monitoring patients |
WO2011003905A1 (en) | 2009-07-10 | 2011-01-13 | Transgene Sa | Biomarker for selecting patients and related methods |
EP2390340A2 (en) | 2007-01-30 | 2011-11-30 | Transgene SA | vector encoding Papillomavirus E1 and E2 polypeptides with reduced percentage of identity |
WO2014066443A1 (en) | 2012-10-23 | 2014-05-01 | Emory University | Gm-csf and il-4 conjugates, compositions, and methods related thereto |
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US20040175362A1 (en) * | 1999-05-12 | 2004-09-09 | Curiel David T. | Infectivity-enhanced conditionally-replicative adenovirus and uses thereof |
US7906311B2 (en) * | 2002-03-20 | 2011-03-15 | Merial Limited | Cotton rat lung cells for virus culture |
KR100746122B1 (en) | 2004-05-10 | 2007-08-03 | 연세대학교 산학협력단 | Recombinant Adenoviruses with Defective ??-Binding Capacity Exhibiting Improved Tumor Cell-Specific Cytotoxicity |
ES2385251B1 (en) | 2009-05-06 | 2013-05-06 | Fundació Privada Institut D'investigació Biomèdica De Bellvitge | ONCOLYTIC ADENOVIRUSES FOR THE TREATMENT OF CANCER. |
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JP7015551B2 (en) | 2016-02-23 | 2022-02-15 | ソーク インスティテュート フォー バイオロジカル スタディーズ | Exogenous gene expression in therapeutic adenovirus to minimize its impact on viral dynamics |
JP7054527B2 (en) | 2016-02-23 | 2022-04-14 | ソーク インスティテュート フォー バイオロジカル スタディーズ | High-throughput assay to measure adenovirus replication kinetics |
CA3045892A1 (en) | 2016-12-12 | 2018-06-21 | Salk Institute For Biological Studies | Tumor-targeting synthetic adenoviruses and uses thereof |
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WO1994018992A1 (en) * | 1993-02-16 | 1994-09-01 | Onyx Pharmaceuticals | Cytopathic viruses for therapy and prophylaxis of neoplasia |
US5801029A (en) * | 1993-02-16 | 1998-09-01 | Onyx Pharmaceuticals, Inc. | Cytopathic viruses for therapy and prophylaxis of neoplasia |
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EP1044280A1 (en) * | 1997-12-12 | 2000-10-18 | Onyx Pharmaceuticals, Inc. | SELECTIVE KILLING AND DIAGNOSIS OF p53?+ NEOPLASTIC CELLS |
PT1230378E (en) * | 1999-11-15 | 2007-09-17 | Onyx Pharma Inc | An oncolytic adenovirus |
US7078030B2 (en) * | 1999-11-15 | 2006-07-18 | Onyx Pharmaceuticals, Inc | Oncolytic adenovirus |
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WO1994018992A1 (en) * | 1993-02-16 | 1994-09-01 | Onyx Pharmaceuticals | Cytopathic viruses for therapy and prophylaxis of neoplasia |
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Cited By (12)
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EP1424894A2 (en) * | 2001-01-12 | 2004-06-09 | Sbarro Health Research Organization | Inhibition of pathological angiogenesis in vivo |
EP1424894A4 (en) * | 2001-01-12 | 2005-08-31 | Sbarro Health Res Organization | Inhibition of pathological angiogenesis in vivo |
EP1613731A2 (en) * | 2003-03-27 | 2006-01-11 | National Jewish Medical and Research Center | Modified adenoviral e1a constructs and methods of use thereof |
WO2004087886A3 (en) * | 2003-03-27 | 2006-08-10 | Nat Jewish Med & Res Center | Modified adenoviral e1a constructs and methods of use thereof |
EP1613731A4 (en) * | 2003-03-27 | 2007-06-20 | Nat Jewish Med & Res Center | Modified adenoviral e1a constructs and methods of use thereof |
EP2390340A2 (en) | 2007-01-30 | 2011-11-30 | Transgene SA | vector encoding Papillomavirus E1 and E2 polypeptides with reduced percentage of identity |
WO2010084100A1 (en) | 2009-01-20 | 2010-07-29 | Transgene Sa | Soluble icam-1 as biomarker for prediction of therapeutic response |
WO2010108908A1 (en) | 2009-03-24 | 2010-09-30 | Transgene Sa | Biomarker for monitoring patients |
WO2010119003A1 (en) | 2009-04-17 | 2010-10-21 | Transgene Sa | Biomarker for monitoring patients |
WO2011003905A1 (en) | 2009-07-10 | 2011-01-13 | Transgene Sa | Biomarker for selecting patients and related methods |
WO2014066443A1 (en) | 2012-10-23 | 2014-05-01 | Emory University | Gm-csf and il-4 conjugates, compositions, and methods related thereto |
EP3587455A1 (en) | 2012-10-23 | 2020-01-01 | Emory University | Gm-csf and il-4 conjugates, compositions, and methods related thereto |
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CA2348634A1 (en) | 2000-05-04 |
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