Abstract

Despite the presence of a vigorous and broadly reactive HIV-1 specific CTL response in infected individuals, progression to AIDS almost inevitably occurs. The factors that allow disease progression in the setting of this strong CTL response have not been well defined. One hypothesis suggests that mutations within critical epitopes may allow HIV-1 to escape immune recognition by cytotoxic T lymphocytes. In this case the ability of the host to generate new CTL responses may be a critical factor in containing viral replication. Another hypothesis suggests that the deletion of HIV-specific CTL clones over the course of disease i.e. """"""""clonal exhaustion"""""""" may be a factor explaining the decline in CTL activity that accompanies disease progression. We have developed methods to sequence the T cell receptor genes of HIV-1-specific CTL and have shown that the vigorous CTL response in an infected individual may be due to an oligoclonal expansion of effector cells that can persist for several years. We have also found instances in which HIV-1 variation within CTL epitopes leads to a loss of recognition by CTL previously isolated from that individual, yet the majority of the CTL response remains directed at a minor in vivo sequece variant. Our ability to follow population of particular HIV epitope-specific CTL by the analysis of their TCR usage will allow us to determine the fate of these cells over the course of infection. The purpose of the experiments in this proposal is to use T cell receptor (TCR) sequence analysis as a means to assess the diversity of the CTL response to known HIV-1 epitopes and to assess variation of HIV-1 sequences within these epitopes in patients with different disease courses.
Our aim i s to test the following hypotheses: a) A broadly directed HIV-specific CTL response, against multiple HIV epitopes correlates with slow disease progression. b) The vigorous CTL responses in subjects with non-progressing illness will be mediated by a population of CTL clones with heterogeneous TCR that are better able to cope with HIV-1 sequence variation. c) If HIV-1 sequence variation exists within these epitopes in these subjects, CTL populations exist that are able to recognize these variants, indicating an ability to response to HIV variation. Specifically we propose to 1) Determine the epitope specifically and TCR heterogeneity of HIV-specific CTL clones in persons matched at three or more class I alleles but with different disease states and viral loads. 2) Determine the longevity of - defined clonal responses by measuring CTL precursor frequency and by probing TCR cDNA libraries with specific oligonucleotide probes. 3) Correlate the magnitude and heterogeneity of specific clonal responses with the in vivo virus present in persons with different disease outcomes. Understanding the contribution of the HIV-1- specific CTL response to long-term non progressing infection may lead to practical strategies to augment this arm of the immune response.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI039966-03
Application #
2887220
Study Section
AIDS and Related Research Study Section 1 (ARRA)
Program Officer
Plaeger, Susan F
Project Start
1997-04-01
Project End
2002-03-31
Budget Start
1999-04-01
Budget End
2000-03-31
Support Year
3
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

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

  Publications

Conrad, Joseph A; Ramalingam, Ramesh K; Duncan, Coley B et al. (2012) Antiretroviral therapy reduces the magnitude and T cell receptor repertoire diversity of HIV-specific T cell responses without changing T cell clonotype dominance. J Virol 86:4213-21
Conrad, Joseph A; Ramalingam, Ramesh K; Smith, Rita M et al. (2011) Dominant clonotypes within HIV-specific T cell responses are programmed death-1high and CD127low and display reduced variant cross-reactivity. J Immunol 186:6871-85
Meyer-Olson, Dirk; Simons, Brenna C; Conrad, Joseph A et al. (2010) Clonal expansion and TCR-independent differentiation shape the HIV-specific CD8+ effector-memory T-cell repertoire in vivo. Blood 116:396-405
Sadagopal, Shanmugalakshmi; Lorey, Shelly L; Barnett, Louise et al. (2010) Enhanced PD-1 expression by T cells in cerebrospinal fluid does not reflect functional exhaustion during chronic human immunodeficiency virus type 1 infection. J Virol 84:131-40
Schneidewind, Arne; Tang, Yanhua; Brockman, Mark A et al. (2009) Maternal transmission of human immunodeficiency virus escape mutations subverts HLA-B57 immunodominance but facilitates viral control in the haploidentical infant. J Virol 83:8616-27
Antons, Amanda K; Wang, Rui; Kalams, Spyros A et al. (2008) Suppression of HIV-specific and allogeneic T cell activation by human regulatory T cells is dependent on the strength of signals. PLoS One 3:e2952
Simons, Brenna C; Vancompernolle, Scott E; Smith, Rita M et al. (2008) Despite biased TRBV gene usage against a dominant HLA B57-restricted epitope, TCR diversity can provide recognition of circulating epitope variants. J Immunol 181:5137-46
Sadagopal, Shanmugalakshmi; Lorey, Shelly L; Barnett, Louise et al. (2008) Enhancement of human immunodeficiency virus (HIV)-specific CD8+ T cells in cerebrospinal fluid compared to those in blood among antiretroviral therapy-naive HIV-positive subjects. J Virol 82:10418-28
Oswald-Richter, Kyra; Grill, Stacy M; Leelawong, Mindy et al. (2007) Identification of a CCR5-expressing T cell subset that is resistant to R5-tropic HIV infection. PLoS Pathog 3:e58
Martinez-Hackert, Erik; Anikeeva, Nadia; Kalams, Spyros A et al. (2006) Structural basis for degenerate recognition of natural HIV peptide variants by cytotoxic lymphocytes. J Biol Chem 281:20205-12

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