Search

Your search keyword '"Lichen Jing"' showing total 18 results
Start Over Author "Lichen Jing" Publication Year Range Last 3 years
18 results on '"Lichen Jing"'

1. Abacavir inhibits but does not cause self-reactivity to HLA-B*57:01-restricted EBV specific T cell receptors

Author

Anuradha Sooda, Francois Rwandamuriye, Celestine N. Wanjalla, Lichen Jing, David M. Koelle, Bjoern Peters, Shay Leary, Abha Chopra, Michael A. Calderwood, Simon A. Mallal, Rebecca Pavlos, Mark Watson, Elizabeth J. Phillips, and Alec J. Redwood

Subjects
Biology (General), QH301-705.5
Abstract

HLA-B*57:01 restricted EBV-specific T-cell receptor specificity is altered by abacavir, suggesting a potentially inhibitory effect of abacavir on HLA-B*57:01 restricted TCR recognition.

Published
2022
Full Text
View/download PDF

2. CD4 and CD8 co-receptors modulate functional avidity of CD1b-restricted T cells

Author

Charlotte A. James, Yuexin Xu, Melissa S. Aguilar, Lichen Jing, Erik D. Layton, Martine Gilleron, Adriaan J. Minnaard, Thomas J. Scriba, Cheryl L. Day, Edus H. Warren, David M. Koelle, and Chetan Seshadri

Subjects
Science
Abstract

CD4 and CD8 co-receptors are routinely used to define distinct functional and phenotypic lineages of T cells. Here the authors show CD4 and CD8 also modulate the functional avidity of the CD1b-restricted response to mycobacterial lipid antigens

Published
2022
Full Text
View/download PDF

3. Transcriptional and functional analyses of neoantigen-specific CD4 T cells during a profound response to anti-PD-L1 in metastatic Merkel cell carcinoma

Author

Vladimir Makarov, Paul Nghiem, Jaehyuk Choi, Timothy A Chan, Kimberly S Smythe, Jean S Campbell, Robert H Pierce, Raphael Gottardo, Candice Church, David M Koelle, Thomas Pulliam, Natalie Longino, Song Y Park, Nadeem Riaz, Lichen Jing, and Robert Amezquita

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Background Merkel cell carcinoma (MCC) often responds to PD-1 pathway blockade, regardless of tumor-viral status (~80% of cases driven by the Merkel cell polyomavirus (MCPyV)). Prior studies have characterized tumor-specific T cell responses to MCPyV, which have typically been CD8, but little is known about the T cell response to UV-induced neoantigens.Methods A patient in her mid-50s with virus-negative (VN) MCC developed large liver metastases after a brief initial response to chemotherapy. She received anti-PD-L1 (avelumab) and had a partial response within 4 weeks. Whole exome sequencing (WES) was performed to determine potential neoantigen peptides. Characterization of peripheral blood neoantigen T cell responses was evaluated via interferon-gamma (IFNγ) ELISpot, flow cytometry and single-cell RNA sequencing. Tumor-resident T cells were characterized by multiplexed immunohistochemistry.Results WES identified 1027 tumor-specific somatic mutations, similar to the published average of 1121 for VN-MCCs. Peptide prediction with a binding cut-off of ≤100 nM resulted in 77 peptides that were synthesized for T cell assays. Although peptides were predicted based on class I HLAs, we identified circulating CD4 T cells targeting 5 of 77 neoantigens. In contrast, no neoantigen-specific CD8 T cell responses were detected. Neoantigen-specific CD4 T cells were undetectable in blood before anti-PD-L1 therapy but became readily detectible shortly after starting therapy. T cells produced robust IFNγ when stimulated by neoantigen (mutant) peptides but not by the normal (wild-type) peptides. Single cell RNAseq showed neoantigen-reactive T cells expressed the Th1-associated transcription factor (T-bet) and associated cytokines. These CD4 T cells did not significantly exhibit cytotoxicity or non-Th1 markers. Within the pretreatment tumor, resident CD4 T cells were also Th1-skewed and expressed T-bet.Conclusions We identified and characterized tumor-specific Th1-skewed CD4 T cells targeting multiple neoantigens in a patient who experienced a profound and durable partial response to anti-PD-L1 therapy. To our knowledge, this is the first report of neoantigen-specific T cell responses in MCC. Although CD4 and CD8 T cells recognizing viral tumor antigens are often detectible in virus-positive MCC, only CD4 T cells recognizing neoantigens were detected in this patient. These findings suggest that CD4 T cells can play an important role in the response to anti-PD-(L)1 therapy.

Published
2022
Full Text
View/download PDF

4. T cell receptor sequencing identifies prior SARS-CoV-2 infection and correlates with neutralizing antibodies and disease severity

Author

Rebecca Elyanow, Thomas M. Snyder, Sudeb C. Dalai, Rachel M. Gittelman, Jim Boonyaratanakornkit, Anna Wald, Stacy Selke, Mark H. Wener, Chihiro Morishima, Alexander L. Greninger, Michael Gale Jr., Tien-Ying Hsiang, Lichen Jing, Michael R. Holbrook, Ian M. Kaplan, H. Jabran Zahid, Damon H. May, Jonathan M. Carlson, Lance Baldo, Thomas Manley, Harlan S. Robins, and David M. Koelle

Subjects
COVID-19, Infectious disease, Medicine
Abstract

BACKGROUND Measuring the immune response to SARS-CoV-2 enables assessment of past infection and protective immunity. SARS-CoV-2 infection induces humoral and T cell responses, but these responses vary with disease severity and individual characteristics.METHODS A T cell receptor (TCR) immunosequencing assay was conducted using small-volume blood samples from 302 individuals recovered from COVID-19. Correlations between the magnitude of the T cell response and neutralizing antibody (nAb) titers or indicators of disease severity were evaluated. Sensitivity of T cell testing was assessed and compared with serologic testing.RESULTS SARS-CoV-2–specific T cell responses were significantly correlated with nAb titers and clinical indicators of disease severity, including hospitalization, fever, and difficulty breathing. Despite modest declines in depth and breadth of T cell responses during convalescence, high sensitivity was observed until at least 6 months after infection, with overall sensitivity ~5% greater than serology tests for identifying prior SARS-CoV-2 infection. Improved performance of T cell testing was most apparent in recovered, nonhospitalized individuals sampled > 150 days after initial illness, suggesting greater sensitivity than serology at later time points and in individuals with less severe disease. T cell testing identified SARS-CoV-2 infection in 68% (55 of 81) of samples with undetectable nAb titers (

Published
2022
Full Text
View/download PDF

5. T cell response to intact SARS-CoV-2 includes coronavirus cross-reactive and variant-specific components

Author

Lichen Jing, Xia Wu, Maxwell P. Krist, Tien-Ying Hsiang, Victoria L. Campbell, Christopher L. McClurkan, Sydney M. Favors, Lawrence A. Hemingway, Charmie Godornes, Denise Q. Tong, Stacy Selke, Angela C. LeClair, Chu-Woo Pyo, Daniel E. Geraghty, Kerry J. Laing, Anna Wald, Michael Gale Jr., and David M. Koelle

Subjects
Infectious disease, Medicine
Abstract

SARS-CoV-2 provokes a robust T cell response. Peptide-based studies exclude antigen processing and presentation biology, which may influence T cell detection studies. To focus on responses to whole virus and complex antigens, we used intact SARS-CoV-2 and full-length proteins with DCs to activate CD8 and CD4 T cells from convalescent people. T cell receptor (TCR) sequencing showed partial repertoire preservation after expansion. Resultant CD8 T cells recognize SARS-CoV-2–infected respiratory tract cells, and CD4 T cells detect inactivated whole viral antigen. Specificity scans with proteome-covering protein/peptide arrays show that CD8 T cells are oligospecific per subject and that CD4 T cell breadth is higher. Some CD4 T cell lines enriched using SARS-CoV-2 cross-recognize whole seasonal coronavirus (sCoV) antigens, with protein, peptide, and HLA restriction validation. Conversely, recognition of some epitopes is eliminated for SARS-CoV-2 variants, including spike (S) epitopes in the Alpha, Beta, Gamma, and Delta variant lineages.

Published
2022
Full Text
View/download PDF

6. HSV-2-Specific Human Female Reproductive Tract Tissue Resident Memory T Cells Recognize Diverse HSV Antigens

Author

David M. Koelle, Lichun Dong, Lichen Jing, Kerry J. Laing, Jia Zhu, Lei Jin, Stacy Selke, Anna Wald, Dana Varon, Meei-Li Huang, Christine Johnston, Lawrence Corey, and Christine M. Posavad

Subjects
HSV-2, CD8, CD4, epitope, dendritic cell, female reproductive tract immunology, Immunologic diseases. Allergy, RC581-607
Abstract

Antigen-specific TRM persist and protect against skin or female reproductive tract (FRT) HSV infection. As the pathogenesis of HSV differs between humans and model organisms, we focus on humans with well-characterized recurrent genital HSV-2 infection. Human CD8+ TRM persisting at sites of healed human HSV-2 lesions have an activated phenotype but it is unclear if TRM can be cultivated in vitro. We recovered HSV-specific TRM from genital skin and ectocervix biopsies, obtained after recovery from recurrent genital HSV-2, using ex vivo activation by viral antigen. Up to several percent of local T cells were HSV-reactive ex vivo. CD4 and CD8 T cell lines were up to 50% HSV-2-specific after sorting-based enrichment. CD8 TRM displayed HLA-restricted reactivity to specific HSV-2 peptides with high functional avidities. Reactivity to defined peptides persisted locally over several month and was quite subject-specific. CD4 TRM derived from biopsies, and from an extended set of cervical cytobrush specimens, also recognized diverse HSV-2 antigens and peptides. Overall we found that HSV-2-specific TRM are abundant in the FRT between episodes of recurrent genital herpes and maintain competency for expansion. Mucosal sites are accessible for clinical monitoring during immune interventions such as therapeutic vaccination.

Published
2022
Full Text
View/download PDF

8. Data from Prevalent and Diverse Intratumoral Oncoprotein-Specific CD8+ T Cells within Polyomavirus-Driven Merkel Cell Carcinomas

Author

David M. Koelle, Paul Nghiem, Shailender Bhatia, Aude G. Chapuis, Kelly G. Paulson, Alexander L. Greninger, Hong Xie, Maclean M. Cook, Aric Colunga, Olga K. Afanasiev, Jayasri G. Iyer, Dafina Ibrani, Rima M. Kulikauskas, Candice D. Church, Mariliis Ott, and Lichen Jing

Abstract

Merkel cell carcinoma (MCC) is often caused by persistent expression of Merkel cell polyomavirus (MCPyV) T-antigen (T-Ag). These non-self proteins comprise about 400 amino acids (AA). Clinical responses to immune checkpoint inhibitors, seen in about half of patients, may relate to T-Ag–specific T cells. Strategies to increase CD8+ T-cell number, breadth, or function could augment checkpoint inhibition, but vaccines to augment immunity must avoid delivery of oncogenic T-antigen domains. We probed MCC tumor-infiltrating lymphocytes (TIL) with an artificial antigen-presenting cell (aAPC) system and confirmed T-Ag recognition with synthetic peptides, HLA-peptide tetramers, and dendritic cells (DC). TILs from 9 of 12 (75%) subjects contained CD8+ T cells recognizing 1–8 MCPyV epitopes per person. Analysis of 16 MCPyV CD8+ TIL epitopes and prior TIL data indicated that 97% of patients with MCPyV+ MCC had HLA alleles with the genetic potential that restrict CD8+ T-cell responses to MCPyV T-Ag. The LT AA 70–110 region was epitope rich, whereas the oncogenic domains of T-Ag were not commonly recognized. Specific recognition of T-Ag–expressing DCs was documented. Recovery of MCPyV oncoprotein–specific CD8+ TILs from most tumors indicated that antigen indifference was unlikely to be a major cause of checkpoint inhibition failure. The myriad of epitopes restricted by diverse HLA alleles indicates that vaccination can be a rational component of immunotherapy if tumor immune suppression can be overcome, and the oncogenic regions of T-Ag can be modified without impacting immunogenicity.

Published
2023

11. Data from Tumor-Infiltrating Merkel Cell Polyomavirus-Specific T Cells Are Diverse and Associated with Improved Patient Survival

Author

Paul Nghiem, David M. Koelle, Thomas Blankenstein, Martin McIntosh, Gerald Willimsky, Ioannis Gavvovidis, Michi Shinohara, Lichen Jing, Kristina Lachance, Matthew P. Fitzgibbon, David Crispin, Lichun Dong, Candice D. Church, and Natalie J. Miller

Abstract

Tumor-infiltrating CD8+ T cells are associated with improved survival of patients with Merkel cell carcinoma (MCC), an aggressive skin cancer causally linked to Merkel cell polyomavirus (MCPyV). However, CD8+ T-cell infiltration is robust in only 4% to 18% of MCC tumors. We characterized the T-cell receptor (TCR) repertoire restricted to one prominent epitope of MCPyV (KLLEIAPNC, “KLL”) and assessed whether TCR diversity, tumor infiltration, or T-cell avidity correlated with clinical outcome. HLA-A*02:01/KLL tetramer+ CD8+ T cells from MCC patient peripheral blood mononuclear cells (PBMC) and tumor-infiltrating lymphocytes (TIL) were isolated via flow cytometry. TCRβ (TRB) sequencing was performed on tetramer+ cells from PBMCs or TILs (n = 14) and matched tumors (n = 12). Functional avidity of T-cell clones was determined by IFNγ production. We identified KLL tetramer+ T cells in 14% of PBMC and 21% of TIL from MCC patients. TRB repertoires were strikingly diverse (397 unique TRBs were identified from 12 patients) and mostly private (only one TCRb clonotype shared between two patients). An increased fraction of KLL-specific TIL (>1.9%) was associated with significantly increased MCC-specific survival P = 0.0009). T-cell cloning from four patients identified 42 distinct KLL-specific TCRa/b pairs. T-cell clones from patients with improved MCC-specific outcomes were more avid (P < 0.05) and recognized an HLA-appropriate MCC cell line. T cells specific for a single MCPyV epitope display marked TCR diversity within and between patients. Intratumoral infiltration by MCPyV-specific T cells was associated with significantly improved MCC-specific survival, suggesting that augmenting the number or avidity of virus-specific T cells may have therapeutic benefit. Cancer Immunol Res; 5(2); 137–47. ©2017 AACR.

Published
2023

12. Data from Merkel Cell Polyomavirus-Specific CD8+ and CD4+ T-cell Responses Identified in Merkel Cell Carcinomas and Blood

Author

Paul Nghiem, David M. Koelle, Cassian Yee, Denise Galloway, David Byrd, Erik Farrar, Ivy Lai, Joseph Carter, Lichun Dong, Joshua O. Marshak, Lichen Jing, Kotaro Nagase, Kelly Paulson, Christopher McClurkan, Olga K. Afanasiev, and Jayasri G. Iyer

Abstract

Purpose: Merkel cell polyomavirus (MCPyV) is prevalent in the general population, integrates into most Merkel cell carcinomas (MCC), and encodes oncoproteins required for MCC tumor growth. We sought to characterize T-cell responses directed against viral proteins that drive this cancer as a step toward immunotherapy.Experimental Design: Intracellular cytokine cytometry, IFN-γ enzyme-linked immunospot (ELISPOT) assay, and a novel HLA-A*2402–restricted MCPyV tetramer were used to identify and characterize T-cell responses against MCPyV oncoproteins in tumors and blood of MCC patients and control subjects.Results: We isolated virus-reactive CD8 or CD4 T cells from MCPyV-positive MCC tumors (2 of 6) but not from virus-negative tumors (0 of 4). MCPyV-specific T-cell responses were also detected in the blood of MCC patients (14 of 27) and control subjects (5 of 13). These T cells recognized a broad range of peptides derived from capsid proteins (2 epitopes) and oncoproteins (24 epitopes). HLA-A*2402–restricted MCPyV oncoprotein processing and presentation by mammalian cells led to CD8-mediated cytotoxicity. Virus-specific CD8 T cells were markedly enriched among tumor infiltrating lymphocytes as compared with blood, implying intact T-cell trafficking into the tumor. Although tetramer-positive CD8 T cells were detected in the blood of 2 of 5 HLA-matched MCC patients, these cells failed to produce IFN-γ when challenged ex vivo with peptide.Conclusions: Our findings suggest that MCC tumors often develop despite the presence of T cells specific for MCPyV T-Ag oncoproteins. The identified epitopes may be candidates for peptide-specific vaccines and tumor- or virus-specific adoptive immunotherapies to overcome immune evasion mechanisms in MCC patients. Clin Cancer Res; 17(21); 6671–80. ©2011 AACR.

Published
2023

14. CD8+ T cell clonotypes from prior SARS-CoV-2 infection predominate during the cellular immune response to mRNA vaccination

Author

Emily S. Ford, Koshlan Mayer-Blackwell, Lichen Jing, Anton M. Sholukh, Russell St. Germain, Emily L. Bossard, Hong Xie, Thomas H. Pulliam, Saumya Jani, Stacy Selke, Carlissa J. Burrow, Christopher L. McClurkan, Anna Wald, Michael R. Holbrook, Brett Eaton, Elizabeth Eudy, Michael Murphy, Elena Postnikova, Harlan S. Robins, Rebecca Elyanow, Rachel M. Gittelman, Matyas Ecsedi, Elise Wilcox, Aude G. Chapuis, Andrew Fiore-Gartland, and David M. Koelle

Abstract

Almost three years into the SARS-CoV-2 pandemic, hybrid immunity is highly prevalent worldwide and more protective than vaccination or prior infection alone. Given emerging resistance of variant strains to neutralizing antibodies (nAb), it is likely that T cells contribute to this protection. To understand how sequential SARS-CoV-2 infection and mRNA-vectored SARS-CoV-2 spike (S) vaccines affect T cell clonotype-level expansion kinetics, we identified and cross-referenced TCR sequences from thousands of S-reactive single cells against deeply sequenced peripheral blood TCR repertoires longitudinally collected from persons during COVID-19 convalescence through booster vaccination. Successive vaccinations recalled memory T cells and elicited antigen-specific T cell clonotypes not detected after infection. Vaccine-related recruitment of novel clonotypes and the expansion of S-specific clones were most strongly observed for CD8+ T cells. Severe COVID-19 illness was associated with a more diverse CD4+ T cell response to SARS-CoV-2 both prior to and after mRNA vaccination, suggesting imprinting of CD4+ T cells by severe infection. TCR sequence similarity search algorithms revealed myriad public TCR clusters correlating with human leukocyte antigen (HLA) alleles. Selected TCRs from distinct clusters functionally recognized S in the predicted HLA context, with fine viral peptide requirements differing between TCRs. Most subjects tested had S-specific T cells in the nasal mucosa after a 3rd mRNA vaccine dose. The blood and nasal T cell responses to vaccination revealed by clonal tracking were more heterogeneous than nAb boosts. Analysis of bulk and single cell TCR sequences reveals T cell kinetics and diversity at the clonotype level, without requiring prior knowledge of T cell epitopes or HLA restriction, providing a roadmap for rapid assessment of T cell responses to emerging pathogens.

Published
2022

15. Spike-specific T cells are enriched in breastmilk following SARS-CoV-2 mRNA vaccination

Author

Blair Armistead, Yonghou Jiang, Marc Carlson, Emily S Ford, Saumya Jani, John Houck, Xia Wu, Lichen Jing, Tiffany Pecor, Alisa Kachikis, Winnie Yeung, Tina Nguyen, Nana Minkah, Sasha E Larsen, Rhea N Coler, David M Koelle, and Whitney E Harrington

Subjects
Article
Abstract

Human breastmilk is rich in T cells; however, their specificity and function are largely unknown. We compared the phenotype, diversity, and antigen specificity of T cells in the breastmilk and peripheral blood of lactating individuals who received SARS-CoV-2 mRNA vaccination. Relative to blood, breastmilk contained higher frequencies of T effector and central memory populations that expressed mucosal-homing markers. T cell receptor (TCR) sequence overlap was limited between blood and breastmilk. Overabundan t breastmilk clones were observed in all individuals, were diverse, and contained CDR3 sequences with known epitope specificity including to SARS-CoV-2 Spike. Spike-specific TCRs were more frequent in breastmilk compared to blood and expanded in breastmilk following a third mRNA vaccine dose. Our observations indicate that the lactating breast contains a distinct T cell population that can be modulated by maternal vaccination with potential implications for infant passive protection.One-Sentence SummaryThe breastmilk T cell repertoire is distinct and enriched for SARS-CoV-2 Spike-specificity after maternal mRNA vaccination.

Published
2022

16. Transcriptional and functional analyses of neoantigen-specific CD4 T cells during a profound response to anti-PD-L1 in metastatic Merkel cell carcinoma

Author

Candice Church, Thomas Pulliam, Natalie Longino, Song Y Park, Kimberly S Smythe, Vladimir Makarov, Nadeem Riaz, Lichen Jing, Robert Amezquita, Jean S Campbell, Raphael Gottardo, Robert H Pierce, Jaehyuk Choi, Timothy A Chan, David M Koelle, and Paul Nghiem

Subjects
Pharmacology, CD4-Positive T-Lymphocytes, Cancer Research, Skin Neoplasms, Immunology, Programmed Cell Death 1 Receptor, Carcinoma, Merkel Cell, Interferon-gamma, Oncology, Merkel cell polyomavirus, Molecular Medicine, Immunology and Allergy, Humans, Female, Antigens, Viral, Tumor, Transcription Factors
Abstract

BackgroundMerkel cell carcinoma (MCC) often responds to PD-1 pathway blockade, regardless of tumor-viral status (~80% of cases driven by the Merkel cell polyomavirus (MCPyV)). Prior studies have characterized tumor-specific T cell responses to MCPyV, which have typically been CD8, but little is known about the T cell response to UV-induced neoantigens.MethodsA patient in her mid-50s with virus-negative (VN) MCC developed large liver metastases after a brief initial response to chemotherapy. She received anti-PD-L1 (avelumab) and had a partial response within 4 weeks. Whole exome sequencing (WES) was performed to determine potential neoantigen peptides. Characterization of peripheral blood neoantigen T cell responses was evaluated via interferon-gamma (IFNγ) ELISpot, flow cytometry and single-cell RNA sequencing. Tumor-resident T cells were characterized by multiplexed immunohistochemistry.ResultsWES identified 1027 tumor-specific somatic mutations, similar to the published average of 1121 for VN-MCCs. Peptide prediction with a binding cut-off of ≤100 nM resulted in 77 peptides that were synthesized for T cell assays. Although peptides were predicted based on class I HLAs, we identified circulating CD4 T cells targeting 5 of 77 neoantigens. In contrast, no neoantigen-specific CD8 T cell responses were detected. Neoantigen-specific CD4 T cells were undetectable in blood before anti-PD-L1 therapy but became readily detectible shortly after starting therapy. T cells produced robust IFNγ when stimulated by neoantigen (mutant) peptides but not by the normal (wild-type) peptides. Single cell RNAseq showed neoantigen-reactive T cells expressed the Th1-associated transcription factor (T-bet) and associated cytokines. These CD4 T cells did not significantly exhibit cytotoxicity or non-Th1 markers. Within the pretreatment tumor, resident CD4 T cells were also Th1-skewed and expressed T-bet.ConclusionsWe identified and characterized tumor-specific Th1-skewed CD4 T cells targeting multiple neoantigens in a patient who experienced a profound and durable partial response to anti-PD-L1 therapy. To our knowledge, this is the first report of neoantigen-specific T cell responses in MCC. Although CD4 and CD8 T cells recognizing viral tumor antigens are often detectible in virus-positive MCC, only CD4 T cells recognizing neoantigens were detected in this patient. These findings suggest that CD4 T cells can play an important role in the response to anti-PD-(L)1 therapy.

Published
2022

17. Expansion of the HSV-2-specific T cell repertoire in skin after immunotherapeutic HSV-2 vaccine

Author

Emily S. Ford, Alvason Li, Christine Johnston, Lichun Dong, Kurt Diem, Lichen Jing, Kerry J. Laing, Alexis Klock, Krithi Basu, Mariliis Ott, Jim Tartaglia, Sanjay Gurunathan, Jack L. Reid, Matyas Ecsedi, Aude G. Chapuis, Meei-Li Huang, Amalia S. Magaret, Jia Zhu, David M. Koelle, and Lawrence Corey

Abstract

The skin at the site of HSV-2 reactivation is enriched for HSV-2 specific T cells. To evaluate whether an immunotherapeutic vaccine could elicit skin-based memory T cells we studied skin biopsies and HSV-2-reactive CD4+ T cells from peripheral blood mononuclear cells (PBMCs) by T-cell receptor (TCR) sequencing before and after vaccination with a replication-incompetent whole virus HSV-2 vaccine candidate (HSV529). The representation of HSV-2-reactive CD4+ T cell sequences from PBMCs increased from a median of 0.03% (range 0-0.09%) to 0.6% (range 0-1.3%) of the total skin TCR repertoire after the first vaccine dose. We found sustained expansion after vaccination in unique, skin-based T-cell clonotypes that were not detected in HSV-2-reactive CD4+ T cells isolated from PBMCs. While detection of skin clonotypes in the blood was related to abundance in the skin it was not related to expansion after vaccination. In one participant a switch in immunodominance was observed after vaccination with the emergence of a newly dominant TCRa/b pair in skin that was not detected in blood. We confirmed that the newly dominant clonotype was derived from an HSV-specific CD4+ T cell by creation of a synthetic TCR in a Jurkat-based cell line with a NR4A1-mNeonGreen reporter system. Our data indicate that the skin in areas of HSV-2 reactivation possesses an oligoclonal TCR repertoire that is distinct from the circulation with prominent clonotypes infrequently detected in the circulation by standard methods. Defining the influence of therapeutic vaccination on the HSV-2-specific TCR repertoire requires tissue-based evaluation.

Published
2022

18. Viral Shedding 1 Year Following First-Episode Genital HSV-1 Infection

Author

Christine, Johnston, Amalia, Magaret, Hyunju, Son, Michael, Stern, Molly, Rathbun, Daniel, Renner, Moriah, Szpara, Sarah, Gunby, Mariliis, Ott, Lichen, Jing, Victoria L, Campbell, Meei-Li, Huang, Stacy, Selke, Keith R, Jerome, David M, Koelle, and Anna, Wald

Subjects
Adult, Male, Herpes Genitalis, Herpesvirus 2, Human, HIV Infections, Herpes Simplex, Herpesvirus 1, Human, General Medicine, Middle Aged, Virus Shedding, Pregnancy, Humans, Female, Prospective Studies, Genitalia
Abstract

ImportanceHerpes simplex virus type 1 (HSV-1) is the leading cause of first-episode genital herpes in many countries.ObjectiveTo inform counseling messages regarding genital HSV-1 transmission, oral and genital viral shedding patterns among persons with first-episode genital HSV-1 infection were assessed. The trajectory of the development of HSV-specific antibody and T-cell responses was also characterized.Design, Setting, and ParticipantsProspective cohort followed up for up to 2 years, with 82 participants followed up between 2013 and 2018. Participants were recruited from sexual health and primary care clinics in Seattle, Washington. Persons with laboratory-documented first-episode genital HSV-1 infection, without HIV infection or current pregnancy, were referred for enrollment.ExposuresFirst-episode genital HSV-1 infection.Main Outcomes and MeasuresGenital and oral HSV-1 shedding and lesion rates at 2 months, 11 months, and up to 2 years after initial genital HSV-1 infection. Participants self-collected oral and genital swabs for HSV polymerase chain reaction testing for 30 days at 2 and 11 months and up to 2 years after diagnosis of genital HSV-1. Blood samples were collected at serial time points to assess immune responses to HSV-1. Primary HSV-1 infection was defined as absent HSV antibody at baseline or evolving antibody profile using the University of Washington HSV Western Blot. HSV-specific T-cell responses were detected using interferon γ enzyme-linked immunospot.ResultsAmong the 82 participants, the median (range) age was 26 (16-64) years, 54 (65.9%) were women, and 42 (51.2%) had primary HSV-1 infection. At 2 months, HSV-1 was detected from the genital tract in 53 participants (64.6%) and in the mouth in 24 participants (29.3%). Genital HSV-1 shedding was detected on 275 of 2264 days (12.1%) at 2 months and declined significantly to 122 of 1719 days (7.1%) at 11 months (model-predicted rate, 6.2% [95% CI, 4.3%-8.9%] at 2 months vs 3.2% [95% CI, 1.8%-5.7%] at 11 months; relative risk, 0.52 [95% CI, 0.29-0.93]). Genital lesions were rare, reported on 65 of 2497 days (2.6%) at 2 months and 72 of 1872 days (3.8%) at 11 months. Oral HSV-1 shedding was detected on 88 of 2247 days (3.9%) at 2 months. Persons with primary HSV-1 infection had a higher risk of genital shedding compared with those with nonprimary infection (model-predicted rate, 7.9% [95% CI, 5.4%-11.7%] vs 2.9% [95% CI, 1.7%-5.0%]; relative risk, 2.75 [95% CI, 1.40-5.44]). Polyfunctional HSV-specific CD4+ and CD8+ T-cell responses were maintained during the follow-up period.Conclusions and RelevanceGenital HSV-1 shedding was frequent after first-episode genital HSV-1, particularly among those with primary infection, and declined rapidly during the first year after infection.

Published
2022

Catalog

Books, media, physical & digital resources
See catalog results