Anti‐HCV therapies in chimeric scid‐Alb/uPA mice parallel outcomes in human clinical application

Compounds with in vitro anti‐hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This limits prediction of clinical efficacy of compounds in the HCV drug pipeline, and may expose human subjects to unnecessary treatment effects....

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Published in	Hepatology (Baltimore, Md.) Vol. 43; no. 6; pp. 1346 - 1353
Main Authors	Kneteman, Norman M., Weiner, Amy J., O'Connell, John, Collett, Marc, Gao, Tiejun, Aukerman, Lea, Kovelsky, Rosemary, Ni, Zhi‐Jie, Hashash, Ahmad, Kline, Janine, Hsi, Belinda, Schiller, Daniel, Douglas, Donna, Tyrrell, D Lorne J, Mercer, David F.
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.06.2006 Wiley
Subjects	Analysis of Variance Animals Antiviral Agents - pharmacology Base Sequence Biological and medical sciences Carbamates - pharmacology Disease Models, Animal Gastroenterology. Liver. Pancreas. Abdomen Hepacivirus - drug effects Hepatitis C - drug therapy Hepatitis C - pathology Hepatitis C Antibodies - analysis Hepatitis C Antibodies - immunology Humans Interferon-alpha - pharmacology Macrocyclic Compounds - pharmacology Medical sciences Mice Mice, SCID Molecular Sequence Data Oncogene Proteins, Fusion - genetics Oncogene Proteins, Fusion - metabolism Probability Quinolines - pharmacology Recombinant Proteins Reverse Transcriptase Polymerase Chain Reaction RNA, Viral - analysis Sensitivity and Specificity Thiazoles - pharmacology Treatment Outcome Human Vertebrata Mammalia Prognosis Treatment Mouse Animal Rodentia Gastroenterology
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ISSN	0270-9139 1527-3350
DOI	10.1002/hep.21209

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Abstract	Compounds with in vitro anti‐hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This limits prediction of clinical efficacy of compounds in the HCV drug pipeline, and may expose human subjects to unnecessary treatment effects. The scid‐Alb‐uPA mouse supports proliferation of transplanted human hepatocytes and subsequent HCV infection. Cohorts of genotype 1a HCV‐infected mice were treated with interferon α‐2b(IFN‐α), BILN‐2061 (anti‐NS3 protease), or HCV371 (anti‐NS5B polymerase). Mice treated with 1350IU/g/day IFN‐α intramuscularly for 10 to 28 days demonstrated reduced viral titers compared with controls in all five experiments (P < .05, t test); viral titers rebounded after treatment withdrawal. A more pronounced antiviral effect with IFN‐α was seen in genotype 3a–infected mice. Pilot studies with BILN2061 confirmed exposure to 10X replicon EC50 at trough and reduced viral titer over 2 log at 4 days. In a second 7‐day study, mean HCV RNA titers dropped 1.1 log in BILN2061‐treated animals, 0.6 log in IFN‐treated mice, and rose 0.2 log in controls (P = .013, ANOVA). Pre‐existing mutants with partial resistance to BILN2061 were identified by sequencing both the human inoculum and sera from treated mice. The polymerase inhibitor HCV371 yielded a decline in HCV titers of 0.3 log relative to vehicle‐treated controls (P = NS). Performance of all three antiviral regimens in the chimeric mouse model paralleled responses in humans. In conclusion, this system may help selection of lead compounds for advancement into human trials with an increased likelihood of clinical success while broadening the tools available for study of the biology of HCV infection. (HEPATOLOGY 2006;43:1346–1353.)
AbstractList	Compounds with in vitro anti‐hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This limits prediction of clinical efficacy of compounds in the HCV drug pipeline, and may expose human subjects to unnecessary treatment effects. The scid‐Alb‐uPA mouse supports proliferation of transplanted human hepatocytes and subsequent HCV infection. Cohorts of genotype 1a HCV‐infected mice were treated with interferon α‐2b(IFN‐α), BILN‐2061 (anti‐NS3 protease), or HCV371 (anti‐NS5B polymerase). Mice treated with 1350IU/g/day IFN‐α intramuscularly for 10 to 28 days demonstrated reduced viral titers compared with controls in all five experiments (P < .05, t test); viral titers rebounded after treatment withdrawal. A more pronounced antiviral effect with IFN‐α was seen in genotype 3a–infected mice. Pilot studies with BILN2061 confirmed exposure to 10X replicon EC50 at trough and reduced viral titer over 2 log at 4 days. In a second 7‐day study, mean HCV RNA titers dropped 1.1 log in BILN2061‐treated animals, 0.6 log in IFN‐treated mice, and rose 0.2 log in controls (P = .013, ANOVA). Pre‐existing mutants with partial resistance to BILN2061 were identified by sequencing both the human inoculum and sera from treated mice. The polymerase inhibitor HCV371 yielded a decline in HCV titers of 0.3 log relative to vehicle‐treated controls (P = NS). Performance of all three antiviral regimens in the chimeric mouse model paralleled responses in humans. In conclusion, this system may help selection of lead compounds for advancement into human trials with an increased likelihood of clinical success while broadening the tools available for study of the biology of HCV infection. (HEPATOLOGY 2006;43:1346–1353.) Compounds with in vitro anti-hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This limits prediction of clinical efficacy of compounds in the HCV drug pipeline, and may expose human subjects to unnecessary treatment effects. The scid-Alb-uPA mouse supports proliferation of transplanted human hepatocytes and subsequent HCV infection. Cohorts of genotype 1a HCV-infected mice were treated with interferon alpha-2b(IFN-alpha), BILN-2061 (anti-NS3 protease), or HCV371 (anti-NS5B polymerase). Mice treated with 1350 IU/g/day IFN-alpha intramuscularly for 10 to 28 days demonstrated reduced viral titers compared with controls in all five experiments (P < .05, t test); viral titers rebounded after treatment withdrawal. A more pronounced antiviral effect with IFN-alpha was seen in genotype 3a-infected mice. Pilot studies with BILN2061 confirmed exposure to 10X replicon EC50 at trough and reduced viral titer over 2 log at 4 days. In a second 7-day study, mean HCV RNA titers dropped 1.1 log in BILN2061-treated animals, 0.6 log in IFN-treated mice, and rose 0.2 log in controls (P = .013, ANOVA). Pre-existing mutants with partial resistance to BILN2061 were identified by sequencing both the human inoculum and sera from treated mice. The polymerase inhibitor HCV371 yielded a decline in HCV titers of 0.3 log relative to vehicle-treated controls (P = NS). Performance of all three antiviral regimens in the chimeric mouse model paralleled responses in humans. In conclusion, this system may help selection of lead compounds for advancement into human trials with an increased likelihood of clinical success while broadening the tools available for study of the biology of HCV infection.Compounds with in vitro anti-hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This limits prediction of clinical efficacy of compounds in the HCV drug pipeline, and may expose human subjects to unnecessary treatment effects. The scid-Alb-uPA mouse supports proliferation of transplanted human hepatocytes and subsequent HCV infection. Cohorts of genotype 1a HCV-infected mice were treated with interferon alpha-2b(IFN-alpha), BILN-2061 (anti-NS3 protease), or HCV371 (anti-NS5B polymerase). Mice treated with 1350 IU/g/day IFN-alpha intramuscularly for 10 to 28 days demonstrated reduced viral titers compared with controls in all five experiments (P < .05, t test); viral titers rebounded after treatment withdrawal. A more pronounced antiviral effect with IFN-alpha was seen in genotype 3a-infected mice. Pilot studies with BILN2061 confirmed exposure to 10X replicon EC50 at trough and reduced viral titer over 2 log at 4 days. In a second 7-day study, mean HCV RNA titers dropped 1.1 log in BILN2061-treated animals, 0.6 log in IFN-treated mice, and rose 0.2 log in controls (P = .013, ANOVA). Pre-existing mutants with partial resistance to BILN2061 were identified by sequencing both the human inoculum and sera from treated mice. The polymerase inhibitor HCV371 yielded a decline in HCV titers of 0.3 log relative to vehicle-treated controls (P = NS). Performance of all three antiviral regimens in the chimeric mouse model paralleled responses in humans. In conclusion, this system may help selection of lead compounds for advancement into human trials with an increased likelihood of clinical success while broadening the tools available for study of the biology of HCV infection. Compounds with in vitro anti-hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This limits prediction of clinical efficacy of compounds in the HCV drug pipeline, and may expose human subjects to unnecessary treatment effects. The scid-Alb-uPA mouse supports proliferation of transplanted human hepatocytes and subsequent HCV infection. Cohorts of genotype 1a HCV-infected mice were treated with interferon alpha-2b(IFN-alpha), BILN-2061 (anti-NS3 protease), or HCV371 (anti-NS5B polymerase). Mice treated with 1350 IU/g/day IFN-alpha intramuscularly for 10 to 28 days demonstrated reduced viral titers compared with controls in all five experiments (P < .05, t test); viral titers rebounded after treatment withdrawal. A more pronounced antiviral effect with IFN-alpha was seen in genotype 3a-infected mice. Pilot studies with BILN2061 confirmed exposure to 10X replicon EC50 at trough and reduced viral titer over 2 log at 4 days. In a second 7-day study, mean HCV RNA titers dropped 1.1 log in BILN2061-treated animals, 0.6 log in IFN-treated mice, and rose 0.2 log in controls (P = .013, ANOVA). Pre-existing mutants with partial resistance to BILN2061 were identified by sequencing both the human inoculum and sera from treated mice. The polymerase inhibitor HCV371 yielded a decline in HCV titers of 0.3 log relative to vehicle-treated controls (P = NS). Performance of all three antiviral regimens in the chimeric mouse model paralleled responses in humans. In conclusion, this system may help selection of lead compounds for advancement into human trials with an increased likelihood of clinical success while broadening the tools available for study of the biology of HCV infection.
Author	Kline, Janine Mercer, David F. Kneteman, Norman M. Weiner, Amy J. Gao, Tiejun Hsi, Belinda Collett, Marc Aukerman, Lea Hashash, Ahmad Tyrrell, D Lorne J Ni, Zhi‐Jie Schiller, Daniel Kovelsky, Rosemary O'Connell, John Douglas, Donna
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Notes	Potential conflict of interest: Dr. Tyrrell is an officer and shareholder in Virexx. Dr. Mercer owns stock in KMT Hepatech. N.M.K. holds a Wyeth/Canadian Institute for Health Research Chair in Transplantation Research and is a Senior Scholar of the Alberta Heritage Foundation for Medical Research. fax: 780‐407‐7374. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
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Snippet	Compounds with in vitro anti‐hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This... Compounds with in vitro anti-hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This...
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SubjectTerms	Analysis of Variance Animals Antiviral Agents - pharmacology Base Sequence Biological and medical sciences Carbamates - pharmacology Disease Models, Animal Gastroenterology. Liver. Pancreas. Abdomen Hepacivirus - drug effects Hepatitis C - drug therapy Hepatitis C - pathology Hepatitis C Antibodies - analysis Hepatitis C Antibodies - immunology Humans Interferon-alpha - pharmacology Macrocyclic Compounds - pharmacology Medical sciences Mice Mice, SCID Molecular Sequence Data Oncogene Proteins, Fusion - genetics Oncogene Proteins, Fusion - metabolism Probability Quinolines - pharmacology Recombinant Proteins Reverse Transcriptase Polymerase Chain Reaction RNA, Viral - analysis Sensitivity and Specificity Thiazoles - pharmacology Treatment Outcome
Title	Anti‐HCV therapies in chimeric scid‐Alb/uPA mice parallel outcomes in human clinical application
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