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31 results on '"Urbach, Jonathan M."'

1. Impact of HLA class I functional divergence on HIV control

Author

Viard, Mathias, O'hUigin, Colm, Yuki, Yuko, Bashirova, Arman A, Collins, David R, Urbach, Jonathan M, Wolinsky, Steven, Buchbinder, Susan, Kirk, Gregory D, Goedert, James J, Michael, Nelson L, Haas, David W, Deeks, Steven G, Walker, Bruce D, Yu, Xu, and Carrington, Mary

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Infectious Diseases, Genetics, Immunotherapy, HIV/AIDS, Sexually Transmitted Infections, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Humans, Alleles, Disease Progression, Heterozygote, HIV Infections, HLA-B Antigens, Peptides, Male, Female, Young Adult, Adult, Middle Aged, Aged, General Science & Technology
Abstract

Heterozygosity of Human leukocyte antigen (HLA) class I genes is linked to beneficial outcomes after HIV infection, presumably through greater breadth of HIV epitope presentation and cytotoxic T cell response. Distinct allotype pairs, however, differ in the extent to which they bind shared sets of peptides. We developed a functional divergence metric that measures pairwise complementarity of allotype-associated peptide binding profiles. Greater functional divergence for pairs of HLA-A and/or HLA-B allotypes was associated with slower AIDS progression and independently with enhanced viral load control. The metric predicts immune breadth at the peptide level rather than gene level and redefines HLA heterozygosity as a continuum differentially affecting disease outcome. Functional divergence may affect response to additional infections, vaccination, immunotherapy, and other diseases where HLA heterozygote advantage occurs.

Published
2024

2. Molecular basis of differential HLA class I-restricted T cell recognition of a highly networked HIV peptide

Author

Li, Xiaolong, Singh, Nishant Kumar, Collins, David R., Ng, Robert, Zhang, Angela, Lamothe-Molina, Pedro A., Shahinian, Peter, Xu, Shutong, Tan, Kemin, Piechocka-Trocha, Alicja, Urbach, Jonathan M., Weber, Jeffrey K., Gaiha, Gaurav D., Takou Mbah, Overbeck Christian, Huynh, Tien, Cheever, Sophia, Chen, James, Birnbaum, Michael, Zhou, Ruhong, Walker, Bruce D., and Wang, Jia-huai

Published
2023
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3. Functional impairment of HIV-specific CD8+ T cells precedes aborted spontaneous control of viremia

Author

Collins, David R, Urbach, Jonathan M, Racenet, Zachary J, Arshad, Umar, Power, Karen A, Newman, Ruchi M, Mylvaganam, Geetha H, Ly, Ngoc L, Lian, Xiaodong, Rull, Anna, Rassadkina, Yelizaveta, Yanez, Adrienne G, Peluso, Michael J, Deeks, Steven G, Vidal, Francesc, Lichterfeld, Mathias, Yu, Xu G, Gaiha, Gaurav D, Allen, Todd M, and Walker, Bruce D

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Prevention, Genetics, Sexually Transmitted Infections, Infectious Diseases, Clinical Research, HIV/AIDS, 2.1 Biological and endogenous factors, Aetiology, Infection, Good Health and Well Being, Adult, CD8-Positive T-Lymphocytes, Female, HIV Infections, Humans, Male, Middle Aged, Recurrence, Viremia, CD8(+) T cell dysfunction, HIV control, human immunology
Abstract

Spontaneous control of HIV infection has been repeatedly linked to antiviral CD8+ T cells but is not always permanent. To address mechanisms of durable and aborted control of viremia, we evaluated immunologic and virologic parameters longitudinally among 34 HIV-infected subjects with differential outcomes. Despite sustained recognition of autologous virus, HIV-specific proliferative and cytolytic T cell effector functions became selectively and intrinsically impaired prior to aborted control. Longitudinal transcriptomic profiling of functionally impaired HIV-specific CD8+ T cells revealed altered expression of genes related to activation, cytokine-mediated signaling, and cell cycle regulation, including increased expression of the antiproliferative transcription factor KLF2 but not of genes associated with canonical exhaustion. Lymphoid HIV-specific CD8+ T cells also exhibited poor functionality during aborted control relative to durable control. Our results identify selective functional impairment of HIV-specific CD8+ T cells as prognostic of impending aborted HIV control, with implications for clinical monitoring and immunotherapeutic strategies.

Published
2021

4. Exon shuffling and alternative splicing of ROCO genes in brown algae enables a diverse repertoire of candidate immune receptors.

Author

Linhong Teng, Yuhuan Sun, Jiayi Chen, Chenghui Wang, Urbach, Jonathan M., Kobe, Bostjan, Naihao Ye, and Qiangcheng Zeng

Subjects
ALTERNATIVE RNA splicing, GREEN algae, RED algae, GENE families, GENETIC engineering
Abstract

The ROCO family is a family of GTPases characterized by a central ROC-COR tandem domain. Interest in the structure and function of ROCO proteins has increased with the identification of their important roles in human disease. Nevertheless, the functions of most ROCO proteins are still unknown. In the present study, we characterized the structure, evolution, and expression of ROCOs in four species of brown algae. Brown algae have a larger number of ROCO proteins than other organisms reported to date. Phylogenetic analyses showed that ROCOs have an ancient origin, likely originated in prokaryotes. ROCOs in brown algae clustered into four groups and showed no strong relationship with red algae or green algae. Brown algal ROCOs retain the ancestral LRR-ROC-COR domain arrangement, which is found in prokaryotes, plants and some basal metazoans. Remarkably, individual LRR motifs in ROCO genes are each encoded by separate exons and exhibit intense exon shuffling and diversifying selection. Furthermore, the tandem LRR exons exhibit alternative splicing to generate multiple transcripts. Both exon shuffling and alternative splicing of LRR repeats may be important mechanisms for generating diverse ligand-binding specificities as immune receptors. Besides their potential immune role, expression analysis shows that many ROCO genes are responsive to other stress conditions, suggesting they could participate in multiple signal pathways, not limited to the immune response. Our results substantially enhance our understanding of the structure and function of this mysterious gene family. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Cytolytic CD8+ T cells infiltrate germinal centers to limit ongoing HIV replication in spontaneous controller lymph nodes.

Author

Collins, David R., Hitschfel, Julia, Urbach, Jonathan M., Mylvaganam, Geetha H., Ly, Ngoc L., Arshad, Umar, Racenet, Zachary J., Yanez, Adrienne G., Diefenbach, Thomas J., and Walker, Bruce D.

Abstract

Follicular CD8+ T cells (fCD8) mediate surveillance in lymph node (LN) germinal centers against lymphotropic infections and cancers, but the precise mechanisms by which these cells mediate immune control remain incompletely resolved. To address this, we investigated functionality, clonotypic compartmentalization, spatial localization, phenotypic characteristics, and transcriptional profiles of LN-resident virus-specific CD8+ T cells in persons who control HIV without medications. Antigen-induced proliferative and cytolytic potential consistently distinguished spontaneous controllers from noncontrollers. T cell receptor analysis revealed complete clonotypic overlap between peripheral and LN-resident HIV-specific CD8+ T cells. Transcriptional analysis of LN CD8+ T cells revealed gene signatures of inflammatory chemotaxis and antigen-induced effector function. In HIV controllers, the cytotoxic effectors perforin and granzyme B were elevated among virus-specific CXCR5+ fCD8s proximate to foci of HIV RNA within germinal centers. These results provide evidence consistent with cytolytic control of lymphotropic infection supported by inflammatory recruitment, antigen-specific proliferation, and cytotoxicity of fCD8s. Spontaneous controller secrets revealed: Individuals who spontaneously control HIV infection without antiviral treatment have provided critical insights into natural HIV immunity. Collins and Hitschfel et al. studied CD8+ T cells in spontaneous controllers of HIV to better understand mechanisms involved in HIV control. They examined the phenotypic, transcriptomic, and functional features, spatial localization, and clonotypic compartmentalization of peripheral and lymph node (LN)–resident CD8+ T cells. Controllers displayed antigen-specific proliferation and cytolytic potential that was different from noncontrollers. Within controllers, TCR analysis confirmed shared clonotypes detected in periphery and LN, although LN CD8+ T cells had a gene signature enriched in effector and inflammatory chemotaxis functions. CXCR5+ follicular CD8+ T cells enriched in controllers expressed cytolytic effectors near HIV RNA foci in germinal centers. These findings provide insight into how HIV-specific lymphoid cells mediate control of HIV in LNs. —CNF [ABSTRACT FROM AUTHOR]

Published
2023
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14. Structure-guided T cell vaccine design for SARS-CoV-2 variants and sarbecoviruses

Author

Nathan, Anusha, primary, Rossin, Elizabeth J., additional, Kaseke, Clarety, additional, Park, Ryan J., additional, Khatri, Ashok, additional, Koundakjian, Dylan, additional, Urbach, Jonathan M., additional, Singh, Nishant K., additional, Bashirova, Arman, additional, Tano-Menka, Rhoda, additional, Senjobe, Fernando, additional, Waring, Michael T., additional, Piechocka-Trocha, Alicja, additional, Garcia-Beltran, Wilfredo F., additional, Iafrate, A. John, additional, Naranbhai, Vivek, additional, Carrington, Mary, additional, Walker, Bruce D., additional, and Gaiha, Gaurav D., additional

Published
2021
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15. HLA class-I-peptide stability mediates CD8+ T cell immunodominance hierarchies and facilitates HLA-associated immune control of HIV

Author

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

Published
2021
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16. HLA class-I-peptide stability mediates CD8+ T cell immunodominance hierarchies and facilitates HLA-associated immune control of HIV

Author

Koch Institute for Integrative Cancer Research at MIT, Ragon Institute of MGH, MIT and Harvard, Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Biology, Kaseke, Clarety, Park, Ryan J, Singh, Nishant K, Koundakjian, Dylan, Bashirova, Arman, Garcia Beltran, Wilfredo F, Takou Mbah, Overbeck C, Ma, Jiaqi, Senjobe, Fernando, Urbach, Jonathan M, Nathan, Anusha, Rossin, Elizabeth J, Tano-Menka, Rhoda, Khatri, Ashok, Piechocka-Trocha, Alicja, Waring, Michael T, Birnbaum, Michael E, Baker, Brian M, Carrington, Mary, Walker, Bruce D, Gaiha, Gaurav D, Koch Institute for Integrative Cancer Research at MIT, Ragon Institute of MGH, MIT and Harvard, Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Biology, Kaseke, Clarety, Park, Ryan J, Singh, Nishant K, Koundakjian, Dylan, Bashirova, Arman, Garcia Beltran, Wilfredo F, Takou Mbah, Overbeck C, Ma, Jiaqi, Senjobe, Fernando, Urbach, Jonathan M, Nathan, Anusha, Rossin, Elizabeth J, Tano-Menka, Rhoda, Khatri, Ashok, Piechocka-Trocha, Alicja, Waring, Michael T, Birnbaum, Michael E, Baker, Brian M, Carrington, Mary, Walker, Bruce D, and Gaiha, Gaurav D

Abstract

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

20. Trehalose Biosynthesis Promotes Pseudomonas aeruginosa Pathogenicity in Plants

Author

Djonović, Slavica, primary, Urbach, Jonathan M., additional, Drenkard, Eliana, additional, Bush, Jenifer, additional, Feinbaum, Rhonda, additional, Ausubel, Jonathan L., additional, Traficante, David, additional, Risech, Martina, additional, Kocks, Christine, additional, Fischbach, Michael A., additional, Priebe, Gregory P., additional, and Ausubel, Frederick M., additional

Published
2013
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24. Genomic analysis reveals that Pseudomonas aeruginosa virulence is combinatorial

Author

Lee, Daniel G, Urbach, Jonathan M, Wu, Gang, Liberati, Nicole T, Feinbaum, Rhonda L, Miyata, Sachiko, Diggins, Lenard T, He, Jianxin, Saucier, Maude, Déziel, Eric, Friedman, Lisa, Li, Li, Grills, George, Montgomery, Kate, Kucherlapati, Raju, Rahme, Laurence G, and Ausubel, Frederick M

Subjects
DNA, Bacterial, Base Sequence, Virulence, Research, Pseudomonas, Combinatorial Chemistry Techniques, Genomics, Sequence Analysis, DNA, Polymerase Chain Reaction, Genome, Bacterial, DNA Primers, Oligonucleotide Array Sequence Analysis
Abstract

Sequencing of a highly virulent strain of Pseudomonas aeruginosa and comparison to a previously sequenced, less pathogenic, strain, together with experimental testing in a C. elegans model, suggests that Pseudomonas virulence is multifactorial and combinatorial., Background Pseudomonas aeruginosa is a ubiquitous environmental bacterium and an important opportunistic human pathogen. Generally, the acquisition of genes in the form of pathogenicity islands distinguishes pathogenic isolates from nonpathogens. We therefore sequenced a highly virulent strain of P. aeruginosa, PA14, and compared it with a previously sequenced (and less pathogenic) strain, PAO1, to identify novel virulence genes. Results The PA14 and PAO1 genomes are remarkably similar, although PA14 has a slightly larger genome (6.5 megabses [Mb]) than does PAO1 (6.3 Mb). We identified 58 PA14 gene clusters that are absent in PAO1 to determine which of these genes, if any, contribute to its enhanced virulence in a Caenorhabditis elegans pathogenicity model. First, we tested 18 additional diverse strains in the C. elegans model and observed a wide range of pathogenic potential; however, genotyping these strains using a custom microarray showed that the presence of PA14 genes that are absent in PAO1 did not correlate with the virulence of these strains. Second, we utilized a full-genome nonredundant mutant library of PA14 to identify five genes (absent in PAO1) required for C. elegans killing. Surprisingly, although these five genes are present in many other P. aeruginosa strains, they do not correlate with virulence in C. elegans. Conclusion Genes required for pathogenicity in one strain of P. aeruginosa are neither required for nor predictive of virulence in other strains. We therefore propose that virulence in this organism is both multifactorial and combinatorial, the result of a pool of pathogenicity-related genes that interact in various combinations in different genetic backgrounds.

Published
2006

27. Genome-Wide Identification of Pseudomonas aeruginosa Virulence-Related Genes Using a Caenorhabditis elegans Infection Model

Author

Urbach, Jonathan M., Liberati, Nicole T., Adonizio, Allison, Feinbaum, Rhonda Lorin, Djonovic, Slavica, Carvunis, Anne-Ruxandra, and Ausubel, Frederick M.

Subjects
Biology, Evolutionary Biology, Genetics, Genetic Screens, Microbiology, Bacterial Pathogens, Gram Negative, Bacteriology, Bacterial Evolution, Host-Pathogen Interaction, Microbial Evolution, Microbial Pathogens, Pathogenesis, Model Organisms, Animal Models, Caenorhabditis Elegans, Prokaryotic Models
Abstract

Pseudomonas aeruginosa strain PA14 is an opportunistic human pathogen capable of infecting a wide range of organisms including the nematode Caenorhabditis elegans. We used a non-redundant transposon mutant library consisting of 5,850 clones corresponding to 75% of the total and approximately 80% of the non-essential PA14 ORFs to carry out a genome-wide screen for attenuation of PA14 virulence in C. elegans. We defined a functionally diverse 180 mutant set (representing 170 unique genes) necessary for normal levels of virulence that included both known and novel virulence factors. Seven previously uncharacterized virulence genes (ABC transporters PchH and PchI, aminopeptidase PepP, ATPase/molecular chaperone ClpA, cold shock domain protein PA0456, putative enoyl-CoA hydratase/isomerase PA0745, and putative transcriptional regulator PA14_27700) were characterized with respect to pigment production and motility and all but one of these mutants exhibited pleiotropic defects in addition to their avirulent phenotype. We examined the collection of genes required for normal levels of PA14 virulence with respect to occurrence in P. aeruginosa strain-specific genomic regions, location on putative and known genomic islands, and phylogenetic distribution across prokaryotes. Genes predominantly contributing to virulence in C. elegans showed neither a bias for strain-specific regions of the P. aeruginosa genome nor for putatively horizontally transferred genomic islands. Instead, within the collection of virulence-related PA14 genes, there was an overrepresentation of genes with a broad phylogenetic distribution that also occur with high frequency in many prokaryotic clades, suggesting that in aggregate the genes required for PA14 virulence in C. elegans are biased towards evolutionarily conserved genes.

Published
2012
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28. HLA class-I-peptide stability mediates CD8+T cell immunodominance hierarchies and facilitates HLA-associated immune control of HIV

Author

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

Abstract

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
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29. Exon shuffling and alternative splicing of ROCO genes in brown algae enables a diverse repertoire of candidate immune receptors.

Author

Teng L, Sun Y, Chen J, Wang C, Urbach JM, Kobe B, Ye N, and Zeng Q

Abstract

The ROCO family is a family of GTPases characterized by a central ROC-COR tandem domain. Interest in the structure and function of ROCO proteins has increased with the identification of their important roles in human disease. Nevertheless, the functions of most ROCO proteins are still unknown. In the present study, we characterized the structure, evolution, and expression of ROCOs in four species of brown algae. Brown algae have a larger number of ROCO proteins than other organisms reported to date. Phylogenetic analyses showed that ROCOs have an ancient origin, likely originated in prokaryotes. ROCOs in brown algae clustered into four groups and showed no strong relationship with red algae or green algae. Brown algal ROCOs retain the ancestral LRR-ROC-COR domain arrangement, which is found in prokaryotes, plants and some basal metazoans. Remarkably, individual LRR motifs in ROCO genes are each encoded by separate exons and exhibit intense exon shuffling and diversifying selection. Furthermore, the tandem LRR exons exhibit alternative splicing to generate multiple transcripts. Both exon shuffling and alternative splicing of LRR repeats may be important mechanisms for generating diverse ligand-binding specificities as immune receptors. Besides their potential immune role, expression analysis shows that many ROCO genes are responsive to other stress conditions, suggesting they could participate in multiple signal pathways, not limited to the immune response. Our results substantially enhance our understanding of the structure and function of this mysterious gene family., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Teng, Sun, Chen, Wang, Urbach, Kobe, Ye and Zeng.)

Published
2024
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30. Functional impairment of HIV-specific CD8 + T cells precedes aborted spontaneous control of viremia.

Author

Collins DR, Urbach JM, Racenet ZJ, Arshad U, Power KA, Newman RM, Mylvaganam GH, Ly NL, Lian X, Rull A, Rassadkina Y, Yanez AG, Peluso MJ, Deeks SG, Vidal F, Lichterfeld M, Yu XG, Gaiha GD, Allen TM, and Walker BD

Subjects
Adult, Female, Humans, Male, Middle Aged, Recurrence, CD8-Positive T-Lymphocytes immunology, HIV Infections immunology, HIV Infections virology, Viremia immunology, Viremia virology
Abstract

Spontaneous control of HIV infection has been repeatedly linked to antiviral CD8 + T cells but is not always permanent. To address mechanisms of durable and aborted control of viremia, we evaluated immunologic and virologic parameters longitudinally among 34 HIV-infected subjects with differential outcomes. Despite sustained recognition of autologous virus, HIV-specific proliferative and cytolytic T cell effector functions became selectively and intrinsically impaired prior to aborted control. Longitudinal transcriptomic profiling of functionally impaired HIV-specific CD8 + T cells revealed altered expression of genes related to activation, cytokine-mediated signaling, and cell cycle regulation, including increased expression of the antiproliferative transcription factor KLF2 but not of genes associated with canonical exhaustion. Lymphoid HIV-specific CD8 + T cells also exhibited poor functionality during aborted control relative to durable control. Our results identify selective functional impairment of HIV-specific CD8 + T cells as prognostic of impending aborted HIV control, with implications for clinical monitoring and immunotherapeutic strategies., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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31. HLA class-I-peptide stability mediates CD8 + T cell immunodominance hierarchies and facilitates HLA-associated immune control of HIV.

Author

Kaseke C, Park RJ, Singh NK, Koundakjian D, Bashirova A, Garcia Beltran WF, Takou Mbah OC, Ma J, Senjobe F, Urbach JM, Nathan A, Rossin EJ, Tano-Menka R, Khatri A, Piechocka-Trocha A, Waring MT, Birnbaum ME, Baker BM, Carrington M, Walker BD, and Gaiha GD

Subjects
Alleles, Female, HEK293 Cells, Humans, Protein Denaturation, Protein Stability, Surface Properties, CD8-Positive T-Lymphocytes immunology, HIV Infections immunology, Histocompatibility Antigens Class I immunology, Immunodominant Epitopes immunology, Peptides immunology
Abstract

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., Competing Interests: Declaration of interests E.J.R., B.D.W., and G.D.G. have filed patent application PCT/US2020/022403., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2021
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