Your search keyword '"M. Urbach"' showing total 3 results

1. HLA class-I-peptide stability mediates CD8+ T cell immunodominance hierarchies and facilitates HLA-associated immune control of HIV

Author

Clarety Kaseke, Ryan J. Park, Nishant K. Singh, Dylan Koundakjian, Arman Bashirova, Wilfredo F. Garcia Beltran, Overbeck C. Takou Mbah, Jiaqi Ma, Fernando Senjobe, Jonathan M. Urbach, Anusha Nathan, Elizabeth J. Rossin, Rhoda Tano-Menka, Ashok Khatri, Alicja Piechocka-Trocha, Michael T. Waring, Michael E. Birnbaum, Brian M. Baker, Mary Carrington, Bruce D. Walker, and Gaurav D. Gaiha

Subjects

CD8+ T cells, immunodominance, HLA, HIV, epitopes, vaccine, Biology (General), QH301-705.5

Abstract

Summary: Defining factors that govern CD8+ T cell immunodominance is critical for the rational design of vaccines for viral pathogens. Here, we assess the contribution of human leukocyte antigen (HLA) class-I-peptide stability for 186 optimal HIV epitopes across 18 HLA alleles using transporter associated with antigen processing (TAP)-deficient mono-allelic HLA-expressing cell lines. We find that immunodominant HIV epitopes increase surface stabilization of HLA class-I molecules in comparison to subdominant epitopes. HLA class-I-peptide stability is also strongly correlated with overall immunodominance hierarchies, particularly for epitopes from high-abundance proteins (e.g., Gag). Moreover, HLA alleles associated with HIV protection are preferentially stabilized by epitopes derived from topologically important viral regions at a greater frequency than neutral and risk alleles. These findings indicate that relative stabilization of HLA class-I is a key factor for CD8+ T cell epitope immunodominance hierarchies, with implications for HIV control and the design of T-cell-based vaccines.

Published

2021

2. HLA class-I-peptide stability mediates CD8

Author

Clarety, Kaseke, Ryan J, Park, Nishant K, Singh, Dylan, Koundakjian, Arman, Bashirova, Wilfredo F, Garcia Beltran, Overbeck C, Takou Mbah, Jiaqi, Ma, Fernando, Senjobe, Jonathan M, Urbach, Anusha, Nathan, Elizabeth J, Rossin, Rhoda, Tano-Menka, Ashok, Khatri, Alicja, Piechocka-Trocha, Michael T, Waring, Michael E, Birnbaum, Brian M, Baker, Mary, Carrington, Bruce D, Walker, and Gaurav D, Gaiha

Subjects

Protein Denaturation, immunodominance, Immunodominant Epitopes, Protein Stability, Surface Properties, Histocompatibility Antigens Class I, HIV, HIV Infections, CD8-Positive T-Lymphocytes, epitopes, Article, HLA, HEK293 Cells, vaccine, Humans, CD8+ T cells, Female, Peptides, Alleles

Abstract

Summary Defining factors that govern CD8+ T cell immunodominance is critical for the rational design of vaccines for viral pathogens. Here, we assess the contribution of human leukocyte antigen (HLA) class-I-peptide stability for 186 optimal HIV epitopes across 18 HLA alleles using transporter associated with antigen processing (TAP)-deficient mono-allelic HLA-expressing cell lines. We find that immunodominant HIV epitopes increase surface stabilization of HLA class-I molecules in comparison to subdominant epitopes. HLA class-I-peptide stability is also strongly correlated with overall immunodominance hierarchies, particularly for epitopes from high-abundance proteins (e.g., Gag). Moreover, HLA alleles associated with HIV protection are preferentially stabilized by epitopes derived from topologically important viral regions at a greater frequency than neutral and risk alleles. These findings indicate that relative stabilization of HLA class-I is a key factor for CD8+ T cell epitope immunodominance hierarchies, with implications for HIV control and the design of T-cell-based vaccines., Graphical abstract, Highlights • TAP-deficient HLA-expressing cells provide rapid assessment of HLA-peptide stability • Immunodominant HIV CD8+ T cell epitopes are superior stabilizers of HLA molecules • HLA class-I-peptide stability correlates with overall immunodominance hierarchies • Protective HLA alleles are preferentially stabilized by highly networked epitopes, Kaseke et al. describe a cell-based HLA-peptide stability assay that leverages TAP-deficient mono-allelic HLA-expressing cell lines. Robust HLA stabilization is a common feature of immunodominant epitopes, and HLA-peptide stability correlates with immunodominance hierarchies. Epitopes derived from topologically constrained regions of the HIV proteome preferentially stabilize protective HLA class-I alleles.

Published

2020

3. HLA class-I-peptide stability mediates CD8+ T cell immunodominance hierarchies and facilitates HLA-associated immune control of HIV

Author

Overbeck C. Takou Mbah, Bruce D. Walker, Ryan J. Park, Mary Carrington, Ashok Khatri, Michael E. Birnbaum, Elizabeth J. Rossin, Arman Bashirova, Anusha Nathan, Fernando Senjobe, Michael T. Waring, Gaurav D. Gaiha, Jonathan M. Urbach, Nishant K. Singh, Rhoda Tano-Menka, Alicja Piechocka-Trocha, Wilfredo F. Garcia Beltran, Jiaqi Ma, Brian M. Baker, Dylan Koundakjian, and Clarety Kaseke

Subjects

Subdominant, immunodominance, QH301-705.5, HIV, Transporter associated with antigen processing, Immunodominance, Human leukocyte antigen, epitopes, Biology, General Biochemistry, Genetics and Molecular Biology, Epitope, HLA, vaccine, Immunology, CD8+ T cells, Cytotoxic T cell, Biology (General), Allele, CD8

Abstract

Summary: Defining factors that govern CD8+ T cell immunodominance is critical for the rational design of vaccines for viral pathogens. Here, we assess the contribution of human leukocyte antigen (HLA) class-I-peptide stability for 186 optimal HIV epitopes across 18 HLA alleles using transporter associated with antigen processing (TAP)-deficient mono-allelic HLA-expressing cell lines. We find that immunodominant HIV epitopes increase surface stabilization of HLA class-I molecules in comparison to subdominant epitopes. HLA class-I-peptide stability is also strongly correlated with overall immunodominance hierarchies, particularly for epitopes from high-abundance proteins (e.g., Gag). Moreover, HLA alleles associated with HIV protection are preferentially stabilized by epitopes derived from topologically important viral regions at a greater frequency than neutral and risk alleles. These findings indicate that relative stabilization of HLA class-I is a key factor for CD8+ T cell epitope immunodominance hierarchies, with implications for HIV control and the design of T-cell-based vaccines.

Published

2021