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6. Differential Escape Patterns within the Dominant HLA-B*57:03-Restricted HIV Gag Epitope Reflect Distinct Clade-Specific Functional Constraints

Author

Payne, RP, Branch, S, Kløverpris, H, Matthews, PC, Koofhethile, CK, Strong, T, Adland, E, Leitman, E, Frater, J, Ndung'u, T, Hunter, E, Haubrich, R, Mothe, B, Edwards, A, Riddell, L, Chen, F, Harrigan, PR, Brumme, ZL, Mallal, S, John, M, Jooste, JP, Shapiro, R, Deeks, SG, Walker, BD, Brander, C, Landis, C, Carlson, JM, Prado, JG, and Goulder, PJR

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Infectious Diseases, Vaccine Related, Genetics, Sexually Transmitted Infections, HIV/AIDS, Clinical Research, Immunization, 2.1 Biological and endogenous factors, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Adult, Cohort Studies, Epitopes, Female, Genotype, HIV Infections, HLA-B Antigens, Humans, Immune Evasion, Male, Middle Aged, Mutation, Missense, Selection, Genetic, T-Lymphocytes, Cytotoxic, gag Gene Products, Human Immunodeficiency Virus, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences
Abstract

UnlabelledHLA-B*57:01 and HLA-B*57:03, the most prevalent HLA-B*57 subtypes in Caucasian and African populations, respectively, are the HLA alleles most protective against HIV disease progression. Understanding the mechanisms underlying this immune control is of critical importance, yet they remain unclear. Unexplained differences are observed in the impact of the dominant cytotoxic T lymphocyte (CTL) response restricted by HLA-B*57:01 and HLA-B*57:03 in chronic infection on the Gag epitope KAFSPEVIPMF (KF11; Gag 162 to 172). We previously showed that the HLA-B*57:03-KF11 response is associated with a >1-log-lower viral setpoint in C clade virus infection and that this response selects escape mutants within the epitope. We first examined the relationship of KF11 responses in B clade virus-infected subjects with HLA-B*57:01 to immune control and observed that a detectable KF11 response was associated with a >1-log-higher viral load (P = 0.02). No evidence of HLA-B*57:01-KF11-associated selection pressure was identified in previous comprehensive analyses of >1,800 B clade virus-infected subjects. We then studied a B clade virus-infected cohort in Barbados, where HLA-B*57:03 is highly prevalent. In contrast to findings for B clade virus-infected subjects expressing HLA-B*57:01, we observed strong selection pressure driven by the HLA-B*57:03-KF11 response for the escape mutation S173T. This mutation reduces recognition of virus-infected cells by HLA-B*57:03-KF11 CTLs and is associated with a >1-log increase in viral load in HLA-B*57:03-positive subjects (P = 0.009). We demonstrate functional constraints imposed by HIV clade relating to the residue at Gag 173 that explain the differential clade-specific escape patterns in HLA-B*57:03 subjects. Further studies are needed to evaluate the role of the KF11 response in HLA-B*57:01-associated HIV disease protection.ImportanceHLA-B*57 is the HLA class I molecule that affords the greatest protection against disease progression in HIV infection. Understanding the key mechanism(s) underlying immunosuppression of HIV is of importance in guiding therapeutic and vaccine-related approaches to improve the levels of HIV control occurring in nature. Numerous mechanisms have been proposed to explain the HLA associations with differential HIV disease outcome, but no consensus exists. These studies focus on two subtypes of HLA-B*57 prevalent in Caucasian and African populations, HLA-B*57:01 and HLA-B*57:03, respectively. These alleles appear equally protective against HIV disease progression. The CTL epitopes presented are in many cases identical, and the dominant response in chronic infection in each case is to the Gag epitope KF11. However, there the similarity ends. This study sought to better understand the reasons for these differences and what they teach us about which immune responses contribute to immune control of HIV infection.

Published
2014

7. LB1801 A multi-omic single-cell atlas of Stevens-Johnson syndrome and toxic epidermal necrolysis

Author

Gibson, A., primary, Li, Y., additional, Gangula, R., additional, Chopra, A., additional, Mukherjee, E., additional, Palubinsky, A., additional, Campbell, C., additional, Peter, J., additional, Lehloenya, R., additional, Trubiano, J., additional, Choshi, P., additional, Porter, M., additional, Mallal, S., additional, Ram, R., additional, and Phillips, E.J., additional

Published
2023
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9. List of Contributors

Author

Alcock, J., primary, Aoki, K., additional, Arunkumar, G., additional, Austad, S.N., additional, Ayala, F.J., additional, Bailey, D.H., additional, Balloux, F., additional, Bar-Yosef, O., additional, Barrett, H.C., additional, Baum, W.M., additional, Bilbao Leis, A., additional, Borchert, T., additional, Boyle, E., additional, Cabral, L.G., additional, Canfield, A.L., additional, Cela-Conde, C.J., additional, Cervantes, B.G., additional, Deacon, T.W., additional, DeGregori, J., additional, Dubreuil, B., additional, Feldman, M.W., additional, Finch, C.E., additional, Flinn, M.V., additional, Fumagalli, M., additional, Gagneux, P., additional, Gaudieri, S., additional, Greer, L.F., additional, Hameroff, S., additional, Henneberg, M., additional, Hill, A.K., additional, John, M., additional, Kingstone, A., additional, Kronfeldner, M., additional, Laidlaw, K.E.W., additional, Lordkipanidze, D., additional, Mallal, S., additional, McDermott, R., additional, McKenzie, K., additional, Monroe, K.R., additional, Murphy, J., additional, Nasiopoulos, E., additional, Oakley, B., additional, Peters, T., additional, Pitchappan, R.M., additional, Preuss, T.M., additional, Puts, D.A., additional, Reimers, M., additional, Risko, E.F., additional, Roland, A., additional, Rose, M.R., additional, Roughgarden, J., additional, Rozhok, A.I., additional, Rühli, F., additional, Ruse, M., additional, Rutledge, G.A., additional, Stoneking, M., additional, Templeton, A.R., additional, Tibayrenc, M., additional, Varki, A., additional, Verschuuren, G.M., additional, Wakano, J.Y., additional, Wood, B., additional, and Zampieri, F., additional

Published
2017
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12. List of Contributors

Author

Buck, C.B., primary, Creech, C.B., additional, Del Tordello, E., additional, Delany, I., additional, Edwards, K.M., additional, Eller, M.A., additional, Gaudieri, S., additional, Gilbert, P.B., additional, Gottardo, R., additional, John, M., additional, Kanekiyo, M., additional, Mallal, S., additional, Moody, T.A., additional, Morris, L., additional, Parks, C.L., additional, Rappuoli, R., additional, and Rolland, M., additional

Published
2017
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13. SARS-CoV-2 vaccination induces immunological T cell memory able to cross-recognize variants from Alpha to Omicron

Author

Tarke, A., Coelho, C.H., Zhang, Z., Dan, J.M., Yu, E.D., Methot, N., Bloom, N.I., Goodwin, B., Phillips, E., Mallal, S., Sidney, J., Filaci, G., Weiskopf, D., da Silva Antunes, R., Crotty, S., Grifoni, A., Sette, A., Tarke, A., Coelho, C.H., Zhang, Z., Dan, J.M., Yu, E.D., Methot, N., Bloom, N.I., Goodwin, B., Phillips, E., Mallal, S., Sidney, J., Filaci, G., Weiskopf, D., da Silva Antunes, R., Crotty, S., Grifoni, A., and Sette, A.

Abstract

We address whether T cell responses induced by different vaccine platforms (mRNA-1273, BNT162b2, Ad26.COV2.S, NVX-CoV2373) cross-recognize early SARS-CoV-2 variants. T cell responses to early variants were preserved across vaccine platforms. By contrast, significant overall decreases were observed for memory B cells and neutralizing antibodies. In subjects ∼6 months post-vaccination, 90% (CD4+) and 87% (CD8+) of memory T cell responses were preserved against variants on average by AIM assay, and 84% (CD4+) and 85% (CD8+) preserved against Omicron. Omicron RBD memory B cell recognition was substantially reduced to 42% compared to other variants. T cell epitope repertoire analysis revealed a median of 11 and 10 spike epitopes recognized by CD4+ and CD8+ T cells, with average preservation > 80% for Omicron. Functional preservation of the majority of T cell responses may play an important role as second-level defenses against diverse variants.

Published
2022

14. Deep sequencing analysis of individual HIV-1 proviruses reveals frequent asymmetric long terminal repeats

Author

Joseph, K.W., Halvas, E.K., Brandt, L.D., Patro, S.C., Rausch, J.W., Chopra, A., Mallal, S., Kearney, M.F., Coffin, J.M., Mellors, J.W., Kirchhoff, F., Joseph, K.W., Halvas, E.K., Brandt, L.D., Patro, S.C., Rausch, J.W., Chopra, A., Mallal, S., Kearney, M.F., Coffin, J.M., Mellors, J.W., and Kirchhoff, F.

Abstract

Effective strategies to eliminate human immunodeficiency virus type 1 (HIV-1) reservoirs are likely to require more thorough characterizations of proviruses that persist on antiretroviral therapy (ART). The rarity of infected CD4+ T-cells and related technical challenges have limited the characterization of integrated proviruses. Current approaches using next-generation sequencing can be inefficient and limited sequencing depth can make it difficult to link proviral sequences to their respective integration sites. Here, we report on an efficient method by which HIV-1 proviruses and their sites of integration are amplified and sequenced. Across five HIV-1-positive individuals on clinically effective ART, a median of 41.2% (n = 88 of 209) of amplifications yielded near-full-length proviruses and their 5′-host-virus junctions containing a median of 430 bp (range, 18 to 1,363 bp) of flanking host sequence. Unexpectedly, 29.5% (n = 26 of 88) of the sequenced proviruses had structural asymmetries between the 5′ and 3′ long terminal repeats (LTRs), commonly in the form of major 3′ deletions. Sequence-intact proviruses were detected in 3 of 5 donors, and infected CD4+ T-cell clones were detected in 4 of 5 donors. The accuracy of the method was validated by amplifying and sequencing full-length proviruses and flanking host sequences directly from peripheral blood mononuclear cell DNA. The individual proviral sequencing assay (IPSA) described here can provide an accurate, in-depth, and longitudinal characterization of HIV-1 proviruses that persist on ART, which is important for targeting proviruses for elimination and assessing the impact of interventions designed to eradicate HIV-1.

Published
2022

15. Positive selection of mutations in the Helicobacter pylori katA 5′ untranslated region in a Mongolian Gerbil Model of gastric disease

Author

Loh, J.T., Shuman, J.H.B., Lin, A.S., Favret, N., Piazuelo, M.B., Mallal, S., Chopra, A., McClain, M.S., Cover, T.L., Brodsky, I.E., Loh, J.T., Shuman, J.H.B., Lin, A.S., Favret, N., Piazuelo, M.B., Mallal, S., Chopra, A., McClain, M.S., Cover, T.L., and Brodsky, I.E.

Abstract

To evaluate potential effects of gastric inflammation on Helicobacter pylori diversification and evolution within the stomach, we experimentally infected Mongolian gerbils with an H. pylori strain in which Cag type IV secretion system (T4SS) activity is controlled by a TetR/tetO system. Gerbils infected with H. pylori under conditions in which Cag T4SS activity was derepressed had significantly higher levels of gastric inflammation than gerbils infected under conditions with repressed Cag T4SS activity. Mutations in the 5′ untranslated region (UTR) of katA (encoding catalase) were detected in strains cultured from 8 of the 17 gerbils infected with Cag T4SS-active H. pylori and none of the strains from 17 gerbils infected with Cag T4SS-inactive H. pylori. Catalase enzymatic activity, steady-state katA transcript levels, and katA transcript stability were increased in strains with these single nucleotide polymorphisms (SNPs) compared to strains in which these SNPs were absent. Moreover, strains harboring these SNPs exhibited increased resistance to bactericidal effects of hydrogen peroxide, compared to control strains. Experimental introduction of the SNPs into the wild-type katA 5′ UTR resulted in increased katA transcript stability, increased katA steady-state levels, and increased catalase enzymatic activity. Based on site-directed mutagenesis and modeling of RNA structure, increased katA transcript levels were correlated with higher predicted thermal stability of the katA 5′ UTR secondary structure. These data suggest that high levels of gastric inflammation positively select for H. pylori strains producing increased levels of catalase, which may confer survival advantages to the bacteria in an inflammatory gastric environment.

Published
2022

16. Altered subgenomic RNA abundance provides unique insight into SARS-CoV-2 B.1.1.7/Alpha variant infections

Author

Parker, M.D., Stewart, H., Shehata, O.M., Lindsey, B.B., Shah, D.R., Hsu, S., Keeley, A.J., Partridge, D.G., Leary, S., Cope, A., State, A., Johnson, K., Ali, N., Raghei, R., Heffer, J., Smith, N., Zhang, P., Gallis, M., Louka, S.F., Hornsby, H.R., Alamri, H., Whiteley, M., Foulkes, B.H., Christou, S., Wolverson, P., Pohare, M., Hansford, S.E., Green, L.R., Evans, C., Raza, M., Wang, D., Firth, A.E., Edgar, J.R., Gaudieri, S., Mallal, S., Collins, M.O., Peden, A.A., de Silva, T.I., Parker, M.D., Stewart, H., Shehata, O.M., Lindsey, B.B., Shah, D.R., Hsu, S., Keeley, A.J., Partridge, D.G., Leary, S., Cope, A., State, A., Johnson, K., Ali, N., Raghei, R., Heffer, J., Smith, N., Zhang, P., Gallis, M., Louka, S.F., Hornsby, H.R., Alamri, H., Whiteley, M., Foulkes, B.H., Christou, S., Wolverson, P., Pohare, M., Hansford, S.E., Green, L.R., Evans, C., Raza, M., Wang, D., Firth, A.E., Edgar, J.R., Gaudieri, S., Mallal, S., Collins, M.O., Peden, A.A., and de Silva, T.I.

Abstract

B.1.1.7 lineage SARS-CoV-2 is more transmissible, leads to greater clinical severity, and results in modest reductions in antibody neutralization. Subgenomic RNA (sgRNA) is produced by discontinuous transcription of the SARS-CoV-2 genome. Applying our tool (periscope) to ARTIC Network Oxford Nanopore Technologies genomic sequencing data from 4400 SARS-CoV-2 positive clinical samples, we show that normalised sgRNA is significantly increased in B.1.1.7 (alpha) infections (n = 879). This increase is seen over the previous dominant lineage in the UK, B.1.177 (n = 943), which is independent of genomic reads, E cycle threshold and days since symptom onset at sampling. A noncanonical sgRNA which could represent ORF9b is found in 98.4% of B.1.1.7 SARS-CoV-2 infections compared with only 13.8% of other lineages, with a 16-fold increase in median sgRNA abundance. We demonstrate that ORF9b protein levels are increased 6-fold in B.1.1.7 compared to a B lineage virus in vitro. We hypothesise that increased ORF9b in B.1.1.7 is a direct consequence of a triple nucleotide mutation in nucleocapsid (28280:GAT > CAT, D3L) creating a transcription regulatory-like sequence complementary to a region 3’ of the genomic leader. These findings provide a unique insight into the biology of B.1.1.7 and support monitoring of sgRNA profiles to evaluate emerging potential variants of concern.

Published
2022

17. Single-cell multi-omic approaches define common molecular and cellular signals of dominant antigen-driven cells at the site of drug-induced Stevens Johnson Syndrome and Toxic Epidermal Necrolysis (SJS/TEN) tissue damage

Author

Gibson, A., Li, Y., Thorne, M., Ram, R., Palubinsky, A., Choshi, P., Porter, M., Trubiano, J., Deshpande, P., Chopra, A., Leary, S., Gangula, R., White, K., Pilkington, M., Konvinse, K., Wang, C-W, Pan, R-Y, Hung, S-I, Chung, W-H, Peter, J., Mallal, S., Phillips, E., Gibson, A., Li, Y., Thorne, M., Ram, R., Palubinsky, A., Choshi, P., Porter, M., Trubiano, J., Deshpande, P., Chopra, A., Leary, S., Gangula, R., White, K., Pilkington, M., Konvinse, K., Wang, C-W, Pan, R-Y, Hung, S-I, Chung, W-H, Peter, J., Mallal, S., and Phillips, E.

Abstract

Human leukocyte antigen (HLA)-restricted CD8+ T-cells expressing dominant T-cell receptor (TCR) clonotypes are recently implicated drivers of keratinocyte cell death, cutaneous blistering, and mortality in drug-induced Stevens Johnson Syndrome/Toxic epidermal necrolysis (SJS/TEN). Signatures of these effector population(s) remain undefined in affected tissue but hold utility for early diagnosis and targeted therapy.

Published
2022

20. The TCR repertoire of α-synuclein-specific T cells in Parkinson’s disease is surprisingly diverse

Author

Singhania, A., Pham, J., Dhanwani, R., Frazier, A., Rezende Dutra, J., Marder, K.S., Phillips, E., Mallal, S., Amara, A.W., Standaert, D.G., Sulzer, D., Peters, B., Sette, A., Lindestam Arlehamn, C.S., Singhania, A., Pham, J., Dhanwani, R., Frazier, A., Rezende Dutra, J., Marder, K.S., Phillips, E., Mallal, S., Amara, A.W., Standaert, D.G., Sulzer, D., Peters, B., Sette, A., and Lindestam Arlehamn, C.S.

Abstract

The self-antigen α-synuclein (α-syn) was recently shown to be associated with Parkinson’s disease (PD). Here we mapped the T cell receptor (TCR) repertoire of α-syn-specific T cells from six PD patients. The self-antigen α-syn-specific repertoire was compared to the repertoire of T cells specific for pertussis (PT), as a representative foreign antigen that most individuals are exposed to, revealing that the repertoire for α-syn was as diverse as the repertoire for PT. The diversity of PT-specific clonotypes was similar between individuals with PD diagnosis and age-matched healthy controls. We found that the TCR repertoire was specific to each PD patient, and no shared TCRs among patients were defined, likely due to differences in HLA expression that select for different subsets of epitope-specific TCR rearrangements. This study provides the first characterization of α-syn-specific TCR clonotypes in individuals with PD. Antigen-specific TCRs can serve as immunotherapeutics and diagnostics, and means to track longitudinal changes in specific T cells, and disease progression.

Published
2021

21. Generation of a novel SARS-CoV-2 Sub-genomic RNA due to the R203K/G204R variant in Nucleocapsid: Homologous recombination has potential to change SARS-CoV-2 at both protein and RNA level

Author

Leary, S., Gaudieri, S., Parker, M.D., Chopra, A., James, I., Pakala, S., Alves, E., John, M., Lindsey, B.B., Keeley, A.J., Rowland-Jones, S.L., Swanson, M.S., Ostrov, D.A., Bubenik, J.L., Das, S.R., Sidney, J., Sette, A., de Silva, T.I., Phillips, E., Mallal, S., Leary, S., Gaudieri, S., Parker, M.D., Chopra, A., James, I., Pakala, S., Alves, E., John, M., Lindsey, B.B., Keeley, A.J., Rowland-Jones, S.L., Swanson, M.S., Ostrov, D.A., Bubenik, J.L., Das, S.R., Sidney, J., Sette, A., de Silva, T.I., Phillips, E., and Mallal, S.

Abstract

Background: Genetic variations across the SARS-CoV-2 genome may influence transmissibility of the virus and the host’s anti-viral immune response, in turn affecting the frequency of variants over time. In this study, we examined the adjacent amino acid polymorphisms in the nucleocapsid (R203K/G204R) of SARS-CoV-2 that arose on the background of the spike D614G change and describe how strains harboring these changes became dominant circulating strains globally. Methods: Deep-sequencing data of SARS-CoV-2 from public databases and from clinical samples were analyzed to identify and map genetic variants and sub-genomic RNA transcripts across the genome. Results: Sequence analysis suggests that the 3 adjacent nucleotide changes that result in the K203/R204 variant have arisen by homologous recombination from the core sequence of the leader transcription-regulating sequence (TRS) rather than by stepwise mutation. The resulting sequence changes generate a novel sub-genomic RNA transcript for the C-terminal dimerization domain of nucleocapsid. Deep-sequencing data from 981 clinical samples confirmed the presence of the novel TRS-CS-dimerization domain RNA in individuals with the K203/R204 variant. Quantification of sub-genomic RNA indicates that viruses with the K203/R204 variant may also have increased expression of sub-genomic RNA from other open reading frames. Conclusions: The finding that homologous recombination from the TRS may have occurred since the introduction of SARS-CoV-2 in humans, resulting in both coding changes and novel sub-genomic RNA transcripts, suggests this as a mechanism for diversification and adaptation within its new host.

Published
2021

22. Visual genomics analysis studio as a tool to analyze multiomic data

Author

Hertzman, R.J., Deshpande, P., Leary, S., Li, Y., Ram, R., Chopra, A., Cooper, D., Watson, M., Palubinsky, A.M., Mallal, S., Gibson, A., Phillips, E.J., Hertzman, R.J., Deshpande, P., Leary, S., Li, Y., Ram, R., Chopra, A., Cooper, D., Watson, M., Palubinsky, A.M., Mallal, S., Gibson, A., and Phillips, E.J.

Abstract

Type B adverse drug reactions (ADRs) are iatrogenic immune-mediated syndromes with mechanistic etiologies that remain incompletely understood. Some of the most severe ADRs, including delayed drug hypersensitivity reactions, are T-cell mediated, restricted by specific human leukocyte antigen risk alleles and sometimes by public or oligoclonal T-cell receptors (TCRs), central to the immunopathogenesis of tissue-damaging response. However, the specific cellular signatures of effector, regulatory, and accessory immune populations that mediate disease, define reaction phenotype, and determine severity have not been defined. Recent development of single-cell platforms bringing together advances in genomics and immunology provides the tools to simultaneously examine the full transcriptome, TCRs, and surface protein markers of highly heterogeneous immune cell populations at the site of the pathological response at a single-cell level. However, the requirement for advanced bioinformatics expertise and computational hardware and software has often limited the ability of investigators with the understanding of diseases and biological models to exploit these new approaches. Here we describe the features and use of a state-of-the-art, fully integrated application for analysis and visualization of multiomic single-cell data called Visual Genomics Analysis Studio (VGAS). This unique user-friendly, Windows-based graphical user interface is specifically designed to enable investigators to interrogate their own data. While VGAS also includes tools for sequence alignment and identification of associations with host or organism genetic polymorphisms, in this review we focus on its application for analysis of single-cell TCR–RNA–Cellular Indexing of Transcriptomes and Epitopes by Sequencing (CITE)-seq, enabling holistic cellular characterization by unbiased transcriptome and select surface proteome. Critically, VGAS does not require user-directed coding or access to high-performance com

Published
2021

23. Subgenomic RNA identification in SARS-CoV-2 genomic sequencing data

Author

Parker, M.D., Lindsey, B.B., Leary, S., Gaudieri, S., Chopra, A., Wyles, M., Angyal, A., Green, L.R., Parsons, P., Tucker, R.M., Brown, R., Groves, D., Johnson, K., Carrilero, L., Heffer, J., Partridge, D.G., Evans, C., Raza, M., Keeley, A.J., Smith, N., Filipe, A.D., Shepherd, J.G., Davis, C., Bennett, S., Sreenu, V.B., Kohl, A., Aranday-Cortes, E., Tong, L., Nichols, J., Thomson, E.C., Wang, D., Mallal, S., de Silva, T.I., Parker, M.D., Lindsey, B.B., Leary, S., Gaudieri, S., Chopra, A., Wyles, M., Angyal, A., Green, L.R., Parsons, P., Tucker, R.M., Brown, R., Groves, D., Johnson, K., Carrilero, L., Heffer, J., Partridge, D.G., Evans, C., Raza, M., Keeley, A.J., Smith, N., Filipe, A.D., Shepherd, J.G., Davis, C., Bennett, S., Sreenu, V.B., Kohl, A., Aranday-Cortes, E., Tong, L., Nichols, J., Thomson, E.C., Wang, D., Mallal, S., and de Silva, T.I.

Abstract

We have developed periscope, a tool for the detection and quantification of subgenomic RNA (sgRNA) in SARS-CoV-2 genomic sequence data. The translation of the SARS-CoV-2 RNA genome for most open reading frames (ORFs) occurs via RNA intermediates termed “subgenomic RNAs.” sgRNAs are produced through discontinuous transcription, which relies on homology between transcription regulatory sequences (TRS-B) upstream of the ORF start codons and that of the TRS-L, which is located in the 5′ UTR. TRS-L is immediately preceded by a leader sequence. This leader sequence is therefore found at the 5′ end of all sgRNA. We applied periscope to 1155 SARS-CoV-2 genomes from Sheffield, United Kingdom, and validated our findings using orthogonal data sets and in vitro cell systems. By using a simple local alignment to detect reads that contain the leader sequence, we were able to identify and quantify reads arising from canonical and noncanonical sgRNA. We were able to detect all canonical sgRNAs at the expected abundances, with the exception of ORF10. A number of recurrent noncanonical sgRNAs are detected. We show that the results are reproducible using technical replicates and determine the optimum number of reads for sgRNA analysis. In VeroE6 ACE2+/− cell lines, periscope can detect the changes in the kinetics of sgRNA in orthogonal sequencing data sets. Finally, variants found in genomic RNA are transmitted to sgRNAs with high fidelity in most cases. This tool can be applied to all sequenced COVID-19 samples worldwide to provide comprehensive analysis of SARS-CoV-2 sgRNA.

Published
2021

24. Relationship between CD4 T cell turnover, cellular differentiation and HIV persistence during ART

Author

Bacchus-Souffan, C., Fitch, M., Symons, J., Abdel-Mohsen, M., Reeves, D.B., Hoh, R., Stone, M., Hiatt, J., Kim, P., Chopra, A., Ahn, H., York, V.A., Cameron, D.L., Hecht, F.M., Martin, J.N., Yukl, S.A., Mallal, S., Cameron, P.U., Deeks, S.G., Schiffer, J.T., Lewin, S.R., Hellerstein, M.K., McCune, J.M., Hunt, P.W., Bacchus-Souffan, C., Fitch, M., Symons, J., Abdel-Mohsen, M., Reeves, D.B., Hoh, R., Stone, M., Hiatt, J., Kim, P., Chopra, A., Ahn, H., York, V.A., Cameron, D.L., Hecht, F.M., Martin, J.N., Yukl, S.A., Mallal, S., Cameron, P.U., Deeks, S.G., Schiffer, J.T., Lewin, S.R., Hellerstein, M.K., McCune, J.M., and Hunt, P.W.

Abstract

The precise role of CD4 T cell turnover in maintaining HIV persistence during antiretroviral therapy (ART) has not yet been well characterized. In resting CD4 T cell subpopulations from 24 HIV-infected ART-suppressed and 6 HIV-uninfected individuals, we directly measured cellular turnover by heavy water labeling, HIV reservoir size by integrated HIV-DNA (intDNA) and cell-associated HIV-RNA (caRNA), and HIV reservoir clonality by proviral integration site sequencing. Compared to HIV-negatives, ART-suppressed individuals had similar fractional replacement rates in all subpopulations, but lower absolute proliferation rates of all subpopulations other than effector memory (TEM) cells, and lower plasma IL-7 levels (p = 0.0004). Median CD4 T cell half-lives decreased with cell differentiation from naïve to TEM cells (3 years to 3 months, p<0.001). TEM had the fastest replacement rates, were most highly enriched for intDNA and caRNA, and contained the most clonal proviral expansion. Clonal proviruses detected in less mature subpopulations were more expanded in TEM, suggesting that they were maintained through cell differentiation. Earlier ART initiation was associated with lower levels of intDNA, caRNA and fractional replacement rates. In conclusion, circulating integrated HIV proviruses appear to be maintained both by slow turnover of immature CD4 subpopulations, and by clonal expansion as well as cell differentiation into effector cells with faster replacement rates.

Published
2021

25. Comprehensive analysis of T cell immunodominance and immunoprevalence of SARS-CoV-2 epitopes in COVID-19 cases

Author

Tarke, A., Sidney, J., Kidd, C.K., Dan, J.M., Ramirez, S.I., Yu, E.D., Mateus, J., da Silva Antunes, R., Moore, E., Rubiro, P., Methot, N., Phillips, E., Mallal, S., Frazier, A., Rawlings, S.A., Greenbaum, J.A., Peters, B., Smith, D.M., Crotty, S., Weiskopf, D., Grifoni, A., Sette, A., Tarke, A., Sidney, J., Kidd, C.K., Dan, J.M., Ramirez, S.I., Yu, E.D., Mateus, J., da Silva Antunes, R., Moore, E., Rubiro, P., Methot, N., Phillips, E., Mallal, S., Frazier, A., Rawlings, S.A., Greenbaum, J.A., Peters, B., Smith, D.M., Crotty, S., Weiskopf, D., Grifoni, A., and Sette, A.

Abstract

T cells are involved in control of SARS-CoV-2 infection. To establish the patterns of immunodominance of different SARS-CoV-2 antigens, and precisely measure virus-specific CD4+ and CD8+ T cells, we study epitope-specific T cell responses of 99 convalescent COVID-19 cases. The SARS-CoV-2 proteome is probed using 1,925 peptides spanning the entire genome, ensuring an unbiased coverage of HLA alleles for class II responses. For HLA class I, we study an additional 5,600 predicted binding epitopes for 28 prominent HLA class I alleles, accounting for wide global coverage. We identify several hundred HLA-restricted SARS-CoV-2-derived epitopes. Distinct patterns of immunodominance are observed, which differ for CD4+ T cells, CD8+ T cells, and antibodies. The class I and class II epitopes are combined into epitope megapools to facilitate identification and quantification of SARS-CoV-2-specific CD4+ and CD8+ T cells.

Published
2021

26. Human leukocyte antigen associations with protection against tuberculosis infection and disease in human immunodeficiency virus-1 infected individuals, despite household exposure and immune suppression

Author

Seedat, F., James, I., Loubser, S., Waja, Z., Mallal, S., Hoffmann, C., Tiemessen, C.T., Chaisson, R.E., Martinson, N.A., Seedat, F., James, I., Loubser, S., Waja, Z., Mallal, S., Hoffmann, C., Tiemessen, C.T., Chaisson, R.E., and Martinson, N.A.

Abstract

Background To determine the association of human leukocyte antigen (HLA) alleles as correlates of risk for and protection against tuberculin skin test (TST) positivity and active TB disease amongst HIV-infected adults. Methods Genomic DNA was extracted from 754 HIV-infected adults whole-blood. HLA-A, -B, -C and -DRB1 loci were genotyped by next generation sequencing methods. HLA alleles were analysed by the presence/absence of TST immune conversion and active TB disease and further stratified by exposure to a household TB contact, CD4 T-cell count and, for active TB disease, TST-positivity. Results HLA-A*29:11 and - B*45:01/07 were associated with TST-positivity, while HLA-A*24:02, -A*29:02 and -B*15:16 with TST-negativity. In participants with a household TB contact, HLA-A*66:01, -A*68:02 and -B*49:01 were associated with TST-negativity. For TB disease, HLA-B*41:01, -C*06:02, -DRB1*04:01 and -DRB1*15:01 were associated with susceptibility, while HLA-B*07:02 and -DRB1*11:01 were protective, even for CD4 T-cell count <350 cells/mm3. For initial TST-positivity and subsequent TB disease, HLA-A*01:01 and -DRB1*11:01 conveyed protection including those with CD4 T-cell count <350 cells/mm3. Conclusion Several HLA alleles are noted as correlates of TB infection, risk and natural protection in HIV-infected individuals. HLA associations may enable risk stratification of those with HIV infection. Protective alleles may assist in future TB vaccine development.

Published
2021

27. Relationship between CD4 T cell turnover, cellular differentiation and HIV persistence during ART

Author

O'Doherty, U, Bacchus-Souffan, C, Fitch, M, Symons, J, Abdel-Mohsen, M, Reeves, DB, Hoh, R, Stone, M, Hiatt, J, Kim, P, Chopra, A, Ahn, H, York, VA, Cameron, DL, Hecht, FM, Martin, JN, Yukl, SA, Mallal, S, Cameron, PU, Deeks, SG, Schiffer, JT, Lewin, SR, Hellerstein, MK, McCune, JM, Hunt, PW, O'Doherty, U, Bacchus-Souffan, C, Fitch, M, Symons, J, Abdel-Mohsen, M, Reeves, DB, Hoh, R, Stone, M, Hiatt, J, Kim, P, Chopra, A, Ahn, H, York, VA, Cameron, DL, Hecht, FM, Martin, JN, Yukl, SA, Mallal, S, Cameron, PU, Deeks, SG, Schiffer, JT, Lewin, SR, Hellerstein, MK, McCune, JM, and Hunt, PW

Abstract

The precise role of CD4 T cell turnover in maintaining HIV persistence during antiretroviral therapy (ART) has not yet been well characterized. In resting CD4 T cell subpopulations from 24 HIV-infected ART-suppressed and 6 HIV-uninfected individuals, we directly measured cellular turnover by heavy water labeling, HIV reservoir size by integrated HIV-DNA (intDNA) and cell-associated HIV-RNA (caRNA), and HIV reservoir clonality by proviral integration site sequencing. Compared to HIV-negatives, ART-suppressed individuals had similar fractional replacement rates in all subpopulations, but lower absolute proliferation rates of all subpopulations other than effector memory (TEM) cells, and lower plasma IL-7 levels (p = 0.0004). Median CD4 T cell half-lives decreased with cell differentiation from naïve to TEM cells (3 years to 3 months, p<0.001). TEM had the fastest replacement rates, were most highly enriched for intDNA and caRNA, and contained the most clonal proviral expansion. Clonal proviruses detected in less mature subpopulations were more expanded in TEM, suggesting that they were maintained through cell differentiation. Earlier ART initiation was associated with lower levels of intDNA, caRNA and fractional replacement rates. In conclusion, circulating integrated HIV proviruses appear to be maintained both by slow turnover of immature CD4 subpopulations, and by clonal expansion as well as cell differentiation into effector cells with faster replacement rates.

Published
2021

28. Cross-Reactivity to mutated viral immune targets can influence CD8+ T cell functionality: An alternative viral adaptation strategy

Author

Currenti, J., Law, B.M.P., Qin, K., John, M., Pilkinton, M.A., Bansal, A., Leary, S., Ram, R., Chopra, A., Gangula, R., Yue, L., Warren, C., Barnett, L., Alves, E., McDonnell, W.J., Sooda, A., Heath, S.L., Mallal, S., Goepfert, P., Kalams, S.A., Gaudieri, S., Currenti, J., Law, B.M.P., Qin, K., John, M., Pilkinton, M.A., Bansal, A., Leary, S., Ram, R., Chopra, A., Gangula, R., Yue, L., Warren, C., Barnett, L., Alves, E., McDonnell, W.J., Sooda, A., Heath, S.L., Mallal, S., Goepfert, P., Kalams, S.A., and Gaudieri, S.

Abstract

Loss of T cell immunogenicity due to mutations in virally encoded epitopes is a well-described adaptation strategy to limit host anti-viral immunity. Another described, but less understood, adaptation strategy involves the selection of mutations within epitopes that retain immune recognition, suggesting a benefit for the virus despite continued immune pressure (termed non-classical adaptation). To understand this adaptation strategy, we utilized a single cell transcriptomic approach to identify features of the HIV-specific CD8+ T cell responses targeting non-adapted (NAE) and adapted (AE) forms of epitopes containing a non-classical adaptation. T cell receptor (TCR) repertoire and transcriptome were obtained from antigen-specific CD8+ T cells of chronic (n=7) and acute (n=4) HIV-infected subjects identified by either HLA class I tetramers or upregulation of activation markers following peptide stimulation. CD8+ T cells were predominantly dual tetramer+, confirming a large proportion of cross-reactive TCR clonotypes capable of recognizing the NAE and AE form. However, single-reactive CD8+ T cells were identified in acute HIV-infected subjects only, providing the potential for the selection of T cell clones over time. The transcriptomic profile of CD8+ T cells was dependent on the autologous virus: subjects whose virus encoded the NAE form of the epitope (and who transitioned to the AE form at a later timepoint) exhibited an ‘effective’ immune response, as indicated by expression of transcripts associated with polyfunctionality, cytotoxicity and apoptosis (largely driven by the genes GZMB, IFNɣ, CCL3, CCL4 and CCL5). These data suggest that viral adaptation at a single amino acid residue can provide an alternative strategy for viral survival by modulating the transcriptome of CD8+ T cells and potentially selecting for less effective T cell clones from the acute to chronic phase.

Published
2021

29. α-Synuclein-specific T cell reactivity is associated with preclinical and early Parkinson’s disease

Author

Lindestam Arlehamn, C.S., Dhanwani, R., Pham, J., Kuan, R., Frazier, A., Rezende Dutra, J., Phillips, E., Mallal, S., Roederer, M., Marder, K.S., Amara, A.W., Standaert, D.G., Goldman, J.G., Litvan, I., Peters, B., Sulzer, D., Sette, A., Lindestam Arlehamn, C.S., Dhanwani, R., Pham, J., Kuan, R., Frazier, A., Rezende Dutra, J., Phillips, E., Mallal, S., Roederer, M., Marder, K.S., Amara, A.W., Standaert, D.G., Goldman, J.G., Litvan, I., Peters, B., Sulzer, D., and Sette, A.

Abstract

A diagnosis of motor Parkinson’s disease (PD) is preceded by a prolonged premotor phase with accumulating neuronal damage. Here we examined the temporal relation between α-synuclein (α-syn) T cell reactivity and PD. A longitudinal case study revealed that elevated α-syn-specific T cell responses were detected prior to the diagnosis of motor PD, and declined after. The relationship between T cell reactivity and early PD in two independent cohorts showed that α-syn-specific T cell responses were highest shortly after diagnosis of motor PD and then decreased. Additional analysis revealed significant association of α-syn-specific T cell responses with age and lower levodopa equivalent dose. These results confirm the presence of α-syn-reactive T cells in PD and show that they are most abundant immediately after diagnosis of motor PD. These cells may be present years before the diagnosis of motor PD, suggesting avenues of investigation into PD pathogenesis and potential early diagnosis.

Published
2020

30. Identification of novel yellow fever Class II epitopes in YF-17D vaccinees

Author

Mateus, J., Grifoni, A., Voic, H., Angelo, M.A., Phillips, E., Mallal, S., Sidney, J., Sette, A., Weiskopf, D., Mateus, J., Grifoni, A., Voic, H., Angelo, M.A., Phillips, E., Mallal, S., Sidney, J., Sette, A., and Weiskopf, D.

Abstract

Yellow fever virus (YFV) is a mosquito-borne member of the genus flavivirus, including other important human-pathogenic viruses, such as dengue, Japanese encephalitis, and Zika. Herein, we report identifying 129 YFV Class II epitopes in donors vaccinated with the live attenuated YFV vaccine (YFV-17D). A total of 1156 peptides predicted to bind 17 different common HLA-DRB1 allelic variants were tested using IFNγ ELISPOT assays in vitro re-stimulated peripheral blood mononuclear cells from twenty-six vaccinees. Overall, we detected responses against 215 YFV epitopes. We found that the capsid and envelope proteins, as well as the non-structural (NS) proteins NS3 and NS5, were the most targeted proteins by CD4+ T cells from YF-VAX vaccinated donors. In addition, we designed and validated by flow cytometry a CD4+ mega pool (MP) composed of structural and non-structural epitopes in an independent cohort of vaccinated donors. Overall, this study provides a comprehensive prediction and validation of YFV epitopes in a cohort of YF-17D vaccinated individuals. With the design of a CD4 epitope MP, we further provide a useful tool to detect ex vivo responses of YFV-specific CD4 T cells in small sample volumes.

Published
2020

31. Identification and characterization of CD4+ T cell epitopes after Shingrix vaccination

Author

Voic, H., de Vries, R.D., Sidney, J., Rubiro, P., Moore, E., Phillips, E., Mallal, S., Schwan, B., Weiskopf, D., Sette, A., Grifoni, A., Goodrum, F., Voic, H., de Vries, R.D., Sidney, J., Rubiro, P., Moore, E., Phillips, E., Mallal, S., Schwan, B., Weiskopf, D., Sette, A., Grifoni, A., and Goodrum, F.

Abstract

Infections with varicella-zoster virus (VZV) are associated with a range of clinical manifestations. Primary infection with VZV causes chicken pox. The virus remains latent in neurons, and it can reactivate later in life, causing herpes zoster (HZ). Two different vaccines have been developed to prevent HZ; one is based on a live attenuated VZV strain (Zostavax), and the other is based on adjuvanted gE recombinant protein (Shingrix). While Zostavax efficacy wanes with age, Shingrix protection retains its efficacy in elderly subjects (individuals 80 years of age and older). In this context, it is of much interest to understand if there is a role for T cell immunity in the differential clinical outcome and if there is a correlate of protection between T cell immunity and Shingrix efficacy. In this study, we characterized the Shingrix-specific ex vivo CD4 T cell responses in the context of natural exposure and HZ vaccination using pools of predicted epitopes. We show that T cell reactivity following natural infection and Zostavax vaccination dominantly targets nonstructural (NS) proteins, while Shingrix vaccination redirects dominant reactivity to target gE. We mapped the gE-specific responses following Shingrix vaccination to 89 different gE epitopes, 34 of which accounted for 80% of the response. Using antigen presentation assays and single HLA molecule-transfected lines, we experimentally determined HLA restrictions for 94 different donor/peptide combinations. Finally, we used our results as a training set to assess strategies to predict restrictions based on measured or predicted HLA binding and the corresponding HLA types of the responding subjects.

Published
2020

32. Selective and cross-reactive SARS-CoV-2 T cell epitopes in unexposed humans

Author

Mateus, J., Grifoni, A., Tarke, A., Sidney, J., Ramirez, S.I., Dan, J.M., Burger, Z.C., Rawlings, S.A., Smith, D.M., Phillips, E., Mallal, S., Lammers, M., Rubiro, P., Quiambao, L., Sutherland, A., Yu, E.D., da Silva Antunes, R., Greenbaum, J., Frazier, A., Markmann, A.J., Premkumar, L., de Silva, A., Peters, B., Crotty, S., Sette, A., Weiskopf, D., Mateus, J., Grifoni, A., Tarke, A., Sidney, J., Ramirez, S.I., Dan, J.M., Burger, Z.C., Rawlings, S.A., Smith, D.M., Phillips, E., Mallal, S., Lammers, M., Rubiro, P., Quiambao, L., Sutherland, A., Yu, E.D., da Silva Antunes, R., Greenbaum, J., Frazier, A., Markmann, A.J., Premkumar, L., de Silva, A., Peters, B., Crotty, S., Sette, A., and Weiskopf, D.

Abstract

Many unknowns exist about human immune responses to the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) virus. SARS-CoV-2–reactive CD4+ T cells have been reported in unexposed individuals, suggesting preexisting cross-reactive T cell memory in 20 to 50% of people. However, the source of those T cells has been speculative. Using human blood samples derived before the SARS-CoV-2 virus was discovered in 2019, we mapped 142 T cell epitopes across the SARS-CoV-2 genome to facilitate precise interrogation of the SARS-CoV-2–specific CD4+ T cell repertoire. We demonstrate a range of preexisting memory CD4+ T cells that are cross-reactive with comparable affinity to SARS-CoV-2 and the common cold coronaviruses human coronavirus (HCoV)-OC43, HCoV-229E, HCoV-NL63, and HCoV-HKU1. Thus, variegated T cell memory to coronaviruses that cause the common cold may underlie at least some of the extensive heterogeneity observed in coronavirus disease 2019 (COVID-19) disease.

Published
2020

33. Single-cell RNA sequencing reveals profibrotic roles of distinct epithelial and mesenchymal lineages in pulmonary fibrosis

Author

Habermann, A.C., Gutierrez, A.J., Bui, L.T., Yahn, S.L., Winters, N.I., Calvi, C.L., Peter, L., Chung, M-I, Taylor, C.J., Jetter, C., Raju, L., Roberson, J., Ding, G., Wood, L., Sucre, J.M.S., Richmond, B.W., Serezani, A.P., McDonnell, W.J., Mallal, S., Bacchetta, M.J., Loyd, J.E., Shaver, C.M., Ware, L.B., Bremner, R., Walia, R., Blackwell, T.S., Banovich, N.E., Kropski, J.A., Habermann, A.C., Gutierrez, A.J., Bui, L.T., Yahn, S.L., Winters, N.I., Calvi, C.L., Peter, L., Chung, M-I, Taylor, C.J., Jetter, C., Raju, L., Roberson, J., Ding, G., Wood, L., Sucre, J.M.S., Richmond, B.W., Serezani, A.P., McDonnell, W.J., Mallal, S., Bacchetta, M.J., Loyd, J.E., Shaver, C.M., Ware, L.B., Bremner, R., Walia, R., Blackwell, T.S., Banovich, N.E., and Kropski, J.A.

Abstract

Pulmonary fibrosis (PF) is a form of chronic lung disease characterized by pathologic epithelial remodeling and accumulation of extracellular matrix (ECM). To comprehensively define the cell types, mechanisms, and mediators driving fibrotic remodeling in lungs with PF, we performed single-cell RNA sequencing of single-cell suspensions from 10 nonfibrotic control and 20 PF lungs. Analysis of 114,396 cells identified 31 distinct cell subsets/states. We report that a remarkable shift in epithelial cell phenotypes occurs in the peripheral lung in PF and identify several previously unrecognized epithelial cell phenotypes, including a KRT5−/KRT17+ pathologic, ECM-producing epithelial cell population that was highly enriched in PF lungs. Multiple fibroblast subtypes were observed to contribute to ECM expansion in a spatially discrete manner. Together, these data provide high-resolution insights into the complexity and plasticity of the distal lung epithelium in human disease and indicate a diversity of epithelial and mesenchymal cells contribute to pathologic lung fibrosis.

Published
2020

39. Characterization of magnitude and antigen specificity of HLA-DP, DQ, and DRB3/4/5 restricted DENV-specific CD4+ T cell responses

Author

Sette, A., Sidney, J., Weiskopf, D., De Silva, A.M., Phillips, E., Peters, B., Grifoni, A., De Silva, A.D., Mallal, S., Jadi, R., Voic, H., and Moore, E.

Abstract

Background: Dengue Virus (DENV) associated disease is a major public health problem. Assessment of HLA class II restricted DENV-specific responses is relevant for immunopathology and definition of correlates of protection. While previous studies characterized responses restricted by the HLA-DRB1 locus, the responses associated with other class II loci have not been characterized to date. Accordingly, we mapped HLA-DP, DQ, and DRB3/4/5 restricted DENV-specific CD4 T cell epitopes in PBMCs derived from the DENV endemic region Sri Lanka. Methods: We studied 12 DP, DQ, and DRB3/4/5 alleles that are commonly expressed and provide worldwide coverage >82% for each of the loci analyzed and >99% when combined. CD4+ T cells purified by negative selection were stimulated with pools of HLA-predicted binders for 2 weeks with autologous APC. Epitope reactive T cells were enumerated using IFNγ ELISPOT assay. This strategy was previously applied to identify DRB1 restricted epitopes. In parallel, membrane expression levels of HLA-DR, DP, and DQ proteins was assessed using flow cytometry. Results: Epitopes were identified for all DP, DQ, and DRB3/4/5 allelic variants albeit with magnitudes significantly lower than the ones previously observed for the DRB1 locus. This was in line with lower membrane expression of HLA-DP and DQ molecules on the PBMCs tested, as compared to HLA-DR. Significant differences between loci were observed in antigen immunodominance. Capsid responses were dominant for DRB1/3/4/5 and DP alleles but negligible for the DQ alleles. NS3 responses were dominant in the case of DRB1/3/4/5 and DQ but absent in the case of DP. NS1 responses were prominent in the case of the DP alleles, but negligible in the case of DR and DQ. In terms of epitope specificity, repertoire was largely overlapping between DRB1 and DRB3/4/5, while DP and DQ loci recognized largely distinct epitope sets. Conclusion: The HLA-DP, DQ, and DRB3/4/5 loci mediate DENV-CD4 specific immune responses of lower magnitude as compared to HLA-DRB1, consistent with their lower levels of expression. The responses are associated with distinct and characteristic patterns of immunodominance, and variable epitope overlap across loci.

Published
2019
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44. Deep sequence analysis of HIV adaptation following vertical transmission: Importance of human leucocyte antigen-driven selection on the evolution of HIV

Author

Gaudieri, S., Currenti, J., John, M., McKinnon, E., Leary, S., Chopra, A., Pilkington, M., Smith, R., Barnett, L., McDonnell, W., Lucas, M., Mallal, S., Conrad, J., Kalams, S., Gaudieri, S., Currenti, J., John, M., McKinnon, E., Leary, S., Chopra, A., Pilkington, M., Smith, R., Barnett, L., McDonnell, W., Lucas, M., Mallal, S., Conrad, J., and Kalams, S.

Abstract

Background: HIV can adapt to an individual's T cell immune response via mutations that affect antigen recognition and disease outcome. These viral adaptations are specific to the host's human leucocyte antigen (HLA) alleles, as these molecules determine which peptides are presented to T cells. Transmitted viral adaptations can be maintained or undergo reversion in a new host dependent on the cost‐benefit balance. We used the unique features of vertical HIV transmissions, primarily a known source of transmitted virus and sharing of HLA alleles that restrict T cell epitope specificity, to predict the in vivo replicative capacity and immune escape benefit of specific HIV adaptations that could be used to inform vaccine design. Methods: A deep sequencing approach was utilised to determine the HIV clade B quasispecies in 26 confirmed mother‐to‐child transmission pairs where the potential for founder viruses to be pre‐adapted is high due to the pairs being haplo‐identical at HLA loci. This scenario allowed the assessment of the dynamics of known HIV adaptations following transmission in either a non‐selective environment (mediated by HLA mismatched to original selecting HLA), or selective immune environment (mediated by shared HLA alleles). Anti‐HIV‐specific IFN‐ϒ T cell responses were assessed using intracellular cytokine staining. Results: Overall, the transmitted virus was highly adapted to the child's anti‐HIV T cell immune potential. The pattern of reversion and fixation of HIV adaptations following transmission was strongly influenced by the HLA‐driven selective environment of the recipient and provided an insight into the replicative capacity cost associated with specific adaptations. Furthermore, there was evidence of de novo post‐transmission adaptation, representing new targets of the child's T cell responses. These de novo adaptations were more likely to occur at sites relevant to paternally inherited HLA alleles compared to sites relevant to the mother's HLA a

Published
2019

45. Characterization of Magnitude and Antigen Specificity of HLA-DP, DQ, and DRB3/4/5 Restricted DENV-Specific CD4+ T Cell Responses

Author

Grifoni, A., Moore, E., Voic, H., Sidney, J., Phillips, E., Jadi, R., Mallal, S., De Silva, A.D., De Silva, A.M., Peters, B., Weiskopf, D., Sette, A., Grifoni, A., Moore, E., Voic, H., Sidney, J., Phillips, E., Jadi, R., Mallal, S., De Silva, A.D., De Silva, A.M., Peters, B., Weiskopf, D., and Sette, A.

Abstract

Background: Dengue Virus (DENV) associated disease is a major public health problem. Assessment of HLA class II restricted DENV-specific responses is relevant for immunopathology and definition of correlates of protection. While previous studies characterized responses restricted by the HLA-DRB1 locus, the responses associated with other class II loci have not been characterized to date. Accordingly, we mapped HLA-DP, DQ, and DRB3/4/5 restricted DENV-specific CD4 T cell epitopes in PBMCs derived from the DENV endemic region Sri Lanka. Methods: We studied 12 DP, DQ, and DRB3/4/5 alleles that are commonly expressed and provide worldwide coverage >82% for each of the loci analyzed and >99% when combined. CD4+ T cells purified by negative selection were stimulated with pools of HLA-predicted binders for 2 weeks with autologous APC. Epitope reactive T cells were enumerated using IFNγ ELISPOT assay. This strategy was previously applied to identify DRB1 restricted epitopes. In parallel, membrane expression levels of HLA-DR, DP, and DQ proteins was assessed using flow cytometry. Results: Epitopes were identified for all DP, DQ, and DRB3/4/5 allelic variants albeit with magnitudes significantly lower than the ones previously observed for the DRB1 locus. This was in line with lower membrane expression of HLA-DP and DQ molecules on the PBMCs tested, as compared to HLA-DR. Significant differences between loci were observed in antigen immunodominance. Capsid responses were dominant for DRB1/3/4/5 and DP alleles but negligible for the DQ alleles. NS3 responses were dominant in the case of DRB1/3/4/5 and DQ but absent in the case of DP. NS1 responses were prominent in the case of the DP alleles, but negligible in the case of DR and DQ. In terms of epitope specificity, repertoire was largely overlapping between DRB1 and DRB3/4/5, while DP and DQ loci recognized largely distinct epitope sets. Conclusion: The HLA-DP, DQ, and DRB3/4/5 loci mediate DENV-CD4 specific immune responses of

Published
2019

46. Deep sequence analysis of HIV adaptation following vertical transmission reveals the impact of immune pressure on the evolution of HIV

Author

Currenti, J., Chopra, A., John, M., Leary, S., McKinnon, E., Alves, E., Pilkinton, M., Smith, R., Barnett, L., McDonnell, W.J., Lucas, M., Noel, F., Mallal, S., Conrad, J.A., Kalams, S.A., Gaudieri, S., Currenti, J., Chopra, A., John, M., Leary, S., McKinnon, E., Alves, E., Pilkinton, M., Smith, R., Barnett, L., McDonnell, W.J., Lucas, M., Noel, F., Mallal, S., Conrad, J.A., Kalams, S.A., and Gaudieri, S.

Abstract

Human immunodeficiency virus (HIV) can adapt to an individual’s T cell immune response via genomic mutations that affect antigen recognition and impact disease outcome. These viral adaptations are specific to the host’s human leucocyte antigen (HLA) alleles, as these molecules determine which peptides are presented to T cells. As HLA molecules are highly polymorphic at the population level, horizontal transmission events are most commonly between HLA-mismatched donor/recipient pairs, representing new immune selection environments for the transmitted virus. In this study, we utilised a deep sequencing approach to determine the HIV quasispecies in 26 mother-to-child transmission pairs where the potential for founder viruses to be pre-adapted is high due to the pairs being haplo-identical at HLA loci. This scenario allowed the assessment of specific HIV adaptations following transmission in either a non-selective immune environment, due to recipient HLA mismatched to original selecting HLA, or a selective immune environment, mediated by matched donor/recipient HLA. We show that the pattern of reversion or fixation of HIV adaptations following transmission provides insight into the replicative cost, and likely compensatory networks, associated with specific adaptations in vivo. Furthermore, although transmitted viruses were commonly heavily pre-adapted to the child’s HLA genotype, we found evidence of de novo post-transmission adaptation, representing new epitopes targeted by the child’s T cell response. High-resolution analysis of HIV adaptation is relevant when considering vaccine and cure strategies for individuals exposed to adapted viruses via transmission or reactivated from reservoirs.

Published
2019

47. Single cell transcriptomics reveal polyclonal memory T cell responses in abacavir patch test positive skin

Author

Redwood, A.J., Rwandamuriye, F., Chopra, A., Leary, S., Ram, R., McDonnell, W., Konvinse, K., White, K., Pavlos, R., Koelle, D.M., Mallal, S., Phillips, E., Redwood, A.J., Rwandamuriye, F., Chopra, A., Leary, S., Ram, R., McDonnell, W., Konvinse, K., White, K., Pavlos, R., Koelle, D.M., Mallal, S., and Phillips, E.

Abstract

Capsule Summary. Single-cell responses in HLA-B*57:01 abacavir patch test positive skin remote to the acute hypersensitivity reaction demonstrate polyclonal T-cell activation and proliferation characterized by a transcriptional and cellular response consistent with memory responses to altered peptides.

Published
2019

48. Clinical and evolutionary consequences of HIV adaptation to HLA: implications for vaccine and cure

Author

Avila-Rios, S., Carlson, J.M., John, M., Mallal, S., Brumme, Z.L., Avila-Rios, S., Carlson, J.M., John, M., Mallal, S., and Brumme, Z.L.

Abstract

Purpose of review The purpose of this review is to summarize recent advances in our understanding of HIV adaptation to human leukocyte antigen (HLA)-associated immune pressures and its relevance to HIV prevention and cure research. Recent findings Recent research has confirmed that HLA is a major driver of individual and population-level HIV evolution, that HIV strains are adapting to the immunogenetic profiles of the different human ethnic groups in which they circulate, and that HIV adaptation has substantial clinical and immunologic consequences. As such, adaptation represents a major challenge to HIV prevention and cure. At the same time, there are opportunities: Studies of HIV adaptation are revealing why certain HLA alleles are protective in some populations and not others; they are identifying immunogenic viral epitopes that harbor high mutational barriers to escape, and they may help illuminate novel, vaccine-relevant HIV epitopes in regions where circulating adaptation is extensive. Elucidation of HLA-driven adapted and nonadapted viral forms in different human populations and HIV subtypes also renders ‘personalized’ immunogen selection, as a component of HIV cure strategies, conceptually feasible. Summary Though adaptation represents a major challenge to HIV prevention and cure, achieving an in-depth understanding of this phenomenon can help move the design of such strategies forward.

Published
2019

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