Interdisciplinary analysis of HIV-specific CD8+ T cell responses against variant epitopes reveals restricted TCR promiscuity

HIV-1-specific CTL responses play a key role in limiting viral replication. CTL responses are sensitive to viral escape mutations, which influence recognition of the virus. Although CTLs have been shown to recognize epitope variants, the extent of this cross-reactivity has not been quantitatively in...

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Published inThe Journal of immunology (1950) Vol. 184; no. 9; pp. 5383 - 5391
Main Authors Hoof, Ilka, Pérez, Carina L, Buggert, Marcus, Gustafsson, Rasmus K L, Nielsen, Morten, Lund, Ole, Karlsson, Annika C
Format Journal Article
LanguageEnglish
Published United States 01.05.2010
Subjects
Amino Acid Substitution - genetics
Amino Acid Substitution - immunology
CD8-Positive T-Lymphocytes - immunology
CD8-Positive T-Lymphocytes - metabolism
CD8-Positive T-Lymphocytes - virology
Cytotoxicity, Immunologic - genetics
Epitopes, T-Lymphocyte - genetics
Epitopes, T-Lymphocyte - immunology
Epitopes, T-Lymphocyte - metabolism
Female
Histocompatibility Antigens Class I - genetics
Histocompatibility Antigens Class I - immunology
Histocompatibility Antigens Class I - metabolism
HIV-1 - immunology
HLA-A Antigens - genetics
HLA-A Antigens - immunology
HLA-A Antigens - metabolism
HLA-A2 Antigen - genetics
HLA-A2 Antigen - immunology
HLA-A2 Antigen - metabolism
HLA-B Antigens - genetics
HLA-B Antigens - immunology
HLA-B Antigens - metabolism
HLA-B44 Antigen
HLA-B7 Antigen
Humans
Male
Medicin och hälsovetenskap
Molecular Sequence Data
Predictive Value of Tests
Receptors, Antigen, T-Cell - genetics
Receptors, Antigen, T-Cell - immunology
Receptors, Antigen, T-Cell - metabolism
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Abstract HIV-1-specific CTL responses play a key role in limiting viral replication. CTL responses are sensitive to viral escape mutations, which influence recognition of the virus. Although CTLs have been shown to recognize epitope variants, the extent of this cross-reactivity has not been quantitatively investigated in a genetically diverse cohort of HIV-1-infected patients. Using a novel bioinformatic binding prediction method, we aimed to explain the pattern of epitope-specific CTL responses based on the patients' HLA genotype and autologous virus sequence quantitatively. Sequences covering predicted and tested HLA class I-restricted epitopes (peptides) within the HIV-Gag, Pol, and Nef regions were obtained from 26 study subjects resulting in 1492 patient-specific peptide pairs. Epitopes that were recognized in ELISPOT assays were found to be significantly more similar to the autologous virus than those that did not elicit a response. A single substitution in the presented epitope decreased the chance of a CTL response by 40%. The impact of sequence similarity on cross-recognition was confirmed by testing immune responses against multiple variants of six selected epitopes. Substitutions at central positions in the epitope were particularly likely to result in abrogation of recognition. In summary, the presented data demonstrate a highly restricted promiscuity of HIV-1-specific CTL in the recognition of variant epitopes. In addition, our results illustrate that bioinformatic prediction methods are useful to study the complex pattern of CTL responses exhibited by an HIV-1-infected patient cohort and for identification of optimal targets for novel therapeutic or vaccine approaches.
AbstractList HIV-1-specific CTL responses play a key role in limiting viral replication. CTL responses are sensitive to viral escape mutations, which influence recognition of the virus. Although CTLs have been shown to recognize epitope variants, the extent of this cross-reactivity has not been quantitatively investigated in a genetically diverse cohort of HIV-1-infected patients. Using a novel bioinformatic binding prediction method, we aimed to explain the pattern of epitope-specific CTL responses based on the patients' HLA genotype and autologous virus sequence quantitatively. Sequences covering predicted and tested HLA class I-restricted epitopes (peptides) within the HIV-Gag, Pol, and Nef regions were obtained from 26 study subjects resulting in 1492 patient-specific peptide pairs. Epitopes that were recognized in ELISPOT assays were found to be significantly more similar to the autologous virus than those that did not elicit a response. A single substitution in the presented epitope decreased the chance of a CTL response by 40%. The impact of sequence similarity on cross-recognition was confirmed by testing immune responses against multiple variants of six selected epitopes. Substitutions at central positions in the epitope were particularly likely to result in abrogation of recognition. In summary, the presented data demonstrate a highly restricted promiscuity of HIV-1-specific CTL in the recognition of variant epitopes. In addition, our results illustrate that bioinformatic prediction methods are useful to study the complex pattern of CTL responses exhibited by an HIV-1-infected patient cohort and for identification of optimal targets for novel therapeutic or vaccine approaches.
Abstract HIV-1–specific CTL responses play a key role in limiting viral replication. CTL responses are sensitive to viral escape mutations, which influence recognition of the virus. Although CTLs have been shown to recognize epitope variants, the extent of this cross-reactivity has not been quantitatively investigated in a genetically diverse cohort of HIV-1–infected patients. Using a novel bioinformatic binding prediction method, we aimed to explain the pattern of epitope-specific CTL responses based on the patients’ HLA genotype and autologous virus sequence quantitatively. Sequences covering predicted and tested HLA class I-restricted epitopes (peptides) within the HIV-Gag, Pol, and Nef regions were obtained from 26 study subjects resulting in 1492 patient-specific peptide pairs. Epitopes that were recognized in ELISPOT assays were found to be significantly more similar to the autologous virus than those that did not elicit a response. A single substitution in the presented epitope decreased the chance of a CTL response by 40%. The impact of sequence similarity on cross-recognition was confirmed by testing immune responses against multiple variants of six selected epitopes. Substitutions at central positions in the epitope were particularly likely to result in abrogation of recognition. In summary, the presented data demonstrate a highly restricted promiscuity of HIV-1–specific CTL in the recognition of variant epitopes. In addition, our results illustrate that bioinformatic prediction methods are useful to study the complex pattern of CTL responses exhibited by an HIV-1–infected patient cohort and for identification of optimal targets for novel therapeutic or vaccine approaches.
Author Pérez, Carina L
Gustafsson, Rasmus K L
Hoof, Ilka
Buggert, Marcus
Karlsson, Annika C
Lund, Ole
Nielsen, Morten
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Snippet HIV-1-specific CTL responses play a key role in limiting viral replication. CTL responses are sensitive to viral escape mutations, which influence recognition...
Abstract HIV-1–specific CTL responses play a key role in limiting viral replication. CTL responses are sensitive to viral escape mutations, which influence...
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SubjectTerms Amino Acid Substitution - genetics
Amino Acid Substitution - immunology
CD8-Positive T-Lymphocytes - immunology
CD8-Positive T-Lymphocytes - metabolism
CD8-Positive T-Lymphocytes - virology
Cytotoxicity, Immunologic - genetics
Epitopes, T-Lymphocyte - genetics
Epitopes, T-Lymphocyte - immunology
Epitopes, T-Lymphocyte - metabolism
Female
Histocompatibility Antigens Class I - genetics
Histocompatibility Antigens Class I - immunology
Histocompatibility Antigens Class I - metabolism
HIV-1 - immunology
HLA-A Antigens - genetics
HLA-A Antigens - immunology
HLA-A Antigens - metabolism
HLA-A2 Antigen - genetics
HLA-A2 Antigen - immunology
HLA-A2 Antigen - metabolism
HLA-B Antigens - genetics
HLA-B Antigens - immunology
HLA-B Antigens - metabolism
HLA-B44 Antigen
HLA-B7 Antigen
Humans
Male
Medicin och hälsovetenskap
Molecular Sequence Data
Predictive Value of Tests
Receptors, Antigen, T-Cell - genetics
Receptors, Antigen, T-Cell - immunology
Receptors, Antigen, T-Cell - metabolism
Title Interdisciplinary analysis of HIV-specific CD8+ T cell responses against variant epitopes reveals restricted TCR promiscuity
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