Abstract

The hepatitis C virus (HCV) infects an estimated 170 million individuals worldwide. Poor responsiveness and limited access to drug treatment has prompted efforts to develop an effective HCV vaccine. Studies support that immune control of HCV is possible, with CD8+ cytotoxic T cells (CTL) playing a key role in governing the outcome of acute HCV infection in both humans and chimpanzees. There is significant evidence for the role that CD8+ CTL play in the containment of other highly variable pathogens such as HIV and SIV. However, it is becoming increasingly evident that the propensity of these pathogens to mutate and escape from these responses represents a substantial hurdle. Whereas viral escape from CD8+ CTL responses has been illustrated in the chimpanzee model of HCV infection, the ability of HCV to selectively escape from host CD8+ CTL in humans remains unclear. Recent reports have begun to elucidate the impact of immune selection pressures on shaping the global sequence diversity of highly variable pathogens such as HIV. There is also an increasingly clear role of specific HLA alleles and immune control of highly variable pathogens such as HIV, SIV and HCV which may be related to specific adaptations of the pathogen to other HLA alleles. Therefore, identifying HLA-associated sequence polymorphisms in chronic HCV infection represents a first step towards elucidating the relationship between MHC alleles, CD8 responses, viral diversity and control of HCV. Viral evolution also provides unique insights into immune control. High avidity CD8 T cell responses, found to be exceptional in their ability to control a viral infection, have been associated with rapid viral evolution. Similarly, reversion of CD8 escape mutations upon transmission has been observed and supports an impact of CD8-associated selective pressures on viral fitness. Therefore, characterizing the kinetics of CD8 escape, and the maintenance and frequency of these mutations in the population, may aid in the selection of efficacious CD8 T cell responses against HCV. ? ? The proposed project, therefore, will use whole HCV genome sequencing along with cellular assays to address the impact of viral diversity on immune control, elucidate the role of immune pressures in driving this diversity, and to identify important immune targets for design of an effective HCV vaccine. ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI067926-02
Application #
7273601
Study Section
Virology - B Study Section (VIRB)
Program Officer
Koshy, Rajen
Project Start
2006-08-15
Project End
2010-07-31
Budget Start
2007-08-01
Budget End
2008-07-31
Support Year
2
Fiscal Year
2007
Total Cost
$173,072
Indirect Cost

  Institution

Name
Massachusetts General Hospital
Department
Type
DUNS #
073130411
City
Boston
State
MA
Country
United States
Zip Code
02199

  Publications

Nitschke, Katja; Barriga, Alejandro; Schmidt, Julia et al. (2014) HLA-B*27 subtype specificity determines targeting and viral evolution of a hepatitis C virus-specific CD8+ T cell epitope. J Hepatol 60:22-9
Newman, Ruchi M; Kuntzen, Thomas; Weiner, Brian et al. (2013) Whole genome pyrosequencing of rare hepatitis C virus genotypes enhances subtype classification and identification of naturally occurring drug resistance variants. J Infect Dis 208:17-31
Ruhl, Marianne; Chhatwal, Patrick; Strathmann, Heiko et al. (2012) Escape from a dominant HLA-B*15-restricted CD8+ T cell response against hepatitis C virus requires compensatory mutations outside the epitope. J Virol 86:991-1000
Schulze Zur Wiesch, Julian; Ciuffreda, Donatella; Lewis-Ximenez, Lia et al. (2012) Broadly directed virus-specific CD4+ T cell responses are primed during acute hepatitis C infection, but rapidly disappear from human blood with viral persistence. J Exp Med 209:61-75
Kim, Arthur Y; Kuntzen, Thomas; Timm, Joerg et al. (2011) Spontaneous control of HCV is associated with expression of HLA-B 57 and preservation of targeted epitopes. Gastroenterology 140:686-696.e1
Oniangue-Ndza, Cesar; Kuntzen, Thomas; Kemper, Michael et al. (2011) Compensatory mutations restore the replication defects caused by cytotoxic T lymphocyte escape mutations in hepatitis C virus polymerase. J Virol 85:11883-90
Neumann-Haefelin, Christoph; Oniangue-Ndza, Cesar; Kuntzen, Thomas et al. (2011) Human leukocyte antigen B27 selects for rare escape mutations that significantly impair hepatitis C virus replication and require compensatory mutations. Hepatology 54:1157-66
Kasprowicz, Victoria; Kang, Yu-Hoi; Lucas, Michaela et al. (2010) Hepatitis C virus (HCV) sequence variation induces an HCV-specific T-cell phenotype analogous to spontaneous resolution. J Virol 84:1656-63
Kim, Arthur Y; Timm, Joerg; Nolan, Brian E et al. (2009) Temporal dynamics of a predominant protease inhibitor-resistance mutation in a treatment-naive, hepatitis C virus-infected individual. J Infect Dis 199:737-41
Kuntzen, Thomas; Timm, Joerg; Berical, Andrew et al. (2008) Naturally occurring dominant resistance mutations to hepatitis C virus protease and polymerase inhibitors in treatment-naive patients. Hepatology 48:1769-78

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