Your search keyword '"TCR sequencing"' showing total 156 results

1. Defining T cell receptor repertoires using nanovial-based binding and functional screening.

Author

Koo, Doyeon, Mao, Zhiyuan, Dimatteo, Robert, Noguchi, Miyako, Tsubamoto, Natalie, McLaughlin, Jami, Tran, Wendy, Lee, Sohyung, Cheng, Donghui, de Rutte, Joseph, Burton Sojo, Giselle, Di Carlo, Dino, and Witte, Owen

Subjects

TCR immunotherapy, TCR sequencing, single-cell secretion analysis, Receptors, Antigen, T-Cell, T-Lymphocytes, Peptides, Histocompatibility Antigens, Antigens

Abstract

The ability to selectively bind to antigenic peptides and secrete effector molecules can define rare and low-affinity populations of cells with therapeutic potential in emerging T cell receptor (TCR) immunotherapies. We leverage cavity-containing hydrogel microparticles, called nanovials, each coated with peptide-major histocompatibility complex (pMHC) monomers to isolate antigen-reactive T cells. T cells are captured and activated by pMHCs inducing the secretion of effector molecules including IFN-γ and granzyme B that are accumulated on nanovials, allowing sorting based on both binding and function. The TCRs of sorted cells on nanovials are sequenced, recovering paired αβ-chains using microfluidic emulsion-based single-cell sequencing. By labeling nanovials having different pMHCs with unique oligonucleotide-barcodes and secretions with oligo-barcoded detection antibodies, we could accurately link TCR sequences to specific targets and rank each TCR based on the corresponding cells secretion level. Using the technique, we identified an expanded repertoire of functional TCRs targeting viral antigens with high specificity and found rare TCRs with activity against cancer-specific splicing-enhanced epitopes.

Published

2024

2. Single-cell RNA and T-cell receptor sequencing unveil mycosis fungoides heterogeneity and a possible gene signature.

Author

Srinivas, Nalini, Peiffer, Lukas, Horny, Kai, Kuan Cheok Lei, Buus, Terkild B., Kubat, Linda, Meng Luo, Menghong Yin, Spassova, Ivelina, Sucker, Antje, Farahpour, Farnoush, Kehrmann, Jan, Ugurel, Selma, Livingstone, Elisabeth, Gambichler, Thilo, Ødum, Niels, and Becker, Jürgen C.

Subjects

CYTOTOXIC T cells, CUTANEOUS T-cell lymphoma, DRUG eruptions, CANCER cells, T cells, MYCOSIS fungoides

Abstract

Background: Mycosis fungoides (MF) is the most common subtype of cutaneous T-cell lymphoma (CTCL). Comprehensive analysis of MF cells in situ and ex vivo is complicated by the fact that is challenging to distinguish malignant from reactive T cells with certainty. Methods: To overcome this limitation, we performed combined single-cell RNA (scRNAseq) and T-cell receptor TCR sequencing (scTCRseq) of skin lesions of cutaneous MF lesions from 12 patients. A sufficient quantity of living T cells was obtained from 9 patients, but 2 had to be excluded due to unclear diagnoses (coexisting CLL or revision to a fixed toxic drug eruption). Results: From the remaining patients we established single-cell mRNA expression profiles and the corresponding TCR repertoire of 18,630 T cells. TCR clonality unequivocally identified 13,592 malignant T cells. Reactive T cells of all patients clustered together, while malignant cells of each patient formed a unique cluster expressing genes typical of naive/memory, such as CD27, CCR7 and IL7R, or cytotoxic T cells, e.g., GZMA, NKG7 and GNLY. Genes encoding classic CTCL markers were not detected in all clusters, consistent with the fact that mRNA expression does not correlate linearly with protein expression. Nevertheless, we successfully pinpointed distinctive gene signatures differentiating reactive malignant from malignant T cells: keratins (KRT81, KRT86), galectins (LGALS1, LGALS3) and S100 genes (S100A4, S100A6) being overexpressed in malignant cells. Conclusions: Combined scRNAseq and scTCRseq not only allows unambiguous identification of MF cells, but also revealed marked heterogeneity between and within patients with unexpected functional phenotypes. While the correlation between mRNA and protein abundance was limited with respect to established MF markers, we were able to identify a single-cell gene expression signature that distinguishes malignant from reactive T cells. [ABSTRACT FROM AUTHOR]

Published

2024

3. The T cell receptor β chain repertoire of tumor infiltrating lymphocytes improves neoantigen prediction and prioritization

Author

Thi Mong Quynh Pham, Thanh Nhan Nguyen, Bui Que Tran Nguyen, Thi Phuong Diem Tran, Nguyen My Diem Pham, Hoang Thien Phuc Nguyen, Thi Kim Cuong Ho, Dinh Viet Linh Nguyen, Huu Thinh Nguyen, Duc Huy Tran, Thanh Sang Tran, Truong Vinh Ngoc Pham, Minh Triet Le, Thi Tuong Vy Nguyen, Minh-Duy Phan, Hoa Giang, Hoai-Nghia Nguyen, and Le Son Tran

Subjects

neoantigen, colorectal cancer, CRC, TCR sequencing, TCRseq, tumor variant calling, Medicine, Science, Biology (General), QH301-705.5

Abstract

In the realm of cancer immunotherapy, the meticulous selection of neoantigens plays a fundamental role in enhancing personalized treatments. Traditionally, this selection process has heavily relied on predicting the binding of peptides to human leukocyte antigens (pHLA). Nevertheless, this approach often overlooks the dynamic interaction between tumor cells and the immune system. In response to this limitation, we have developed an innovative prediction algorithm rooted in machine learning, integrating T cell receptor β chain (TCRβ) profiling data from colorectal cancer (CRC) patients for a more precise neoantigen prioritization. TCRβ sequencing was conducted to profile the TCR repertoire of tumor-infiltrating lymphocytes (TILs) from 28 CRC patients. The data unveiled both intra-tumor and inter-patient heterogeneity in the TCRβ repertoires of CRC patients, likely resulting from the stochastic utilization of V and J segments in response to neoantigens. Our novel combined model integrates pHLA binding information with pHLA-TCR binding to prioritize neoantigens, resulting in heightened specificity and sensitivity compared to models using individual features alone. The efficacy of our proposed model was corroborated through ELISpot assays on long peptides, performed on four CRC patients. These assays demonstrated that neoantigen candidates prioritized by our combined model outperformed predictions made by the established tool NetMHCpan. This comprehensive assessment underscores the significance of integrating pHLA binding with pHLA-TCR binding analysis for more effective immunotherapeutic strategies.

Published

2024

4. Detecting T-cell clonal expansions and quantifying clone survival using deep profiling of immune repertoires.

Author

Pavlova, Anastasia V., Zvyagin, Ivan V., and Shugay, Mikhail

Subjects

T cells, HEMATOPOIETIC stem cell transplantation, MOLECULAR cloning, HEMATOPOIETIC stem cells

Abstract

An individual's T-cell repertoire constantly changes under the influence of external and internal factors. Cells that do not receive a stimulatory signal die, while those that encounter and recognize a pathogen or receive a costimulatory signal divide, resulting in clonal expansions. T-cell clones can be traced by monitoring the presence of their unique T-cell receptor (TCR) sequence, which is assembled de novo through a process known as V(D)J rearrangement. Tracking T cells can provide valuable insights into the survival of cells after hematopoietic stem cell transplantation (HSCT) or cancer treatment response and can indicate the induction of protective immunity by vaccination. In this study, we report a bioinformatic method for quantifying the T-cell repertoire dynamics from TCR sequencing data. We demonstrate its utility by measuring the T-cell repertoire stability in healthy donors, by quantifying the effect of donor lymphocyte infusion (DLI), and by tracking the fate of the different T-cell subsets in HSCT patients and the expansion of pathogen-specific clones in vaccinated individuals. [ABSTRACT FROM AUTHOR]

Published

2024

5. Clonal structure and the specificity of vaccine-induced T cell response to SARS-CoV-2 Spike protein.

Author

Sheetikov, Saveliy A., Khmelevskaya, Alexandra A., Zornikova, Ksenia V., Zvyagin, Ivan V., Shomuradova, Alina S., Serdyuk, Yana V., Shakirova, Naina T., Peshkova, Iuliia O., Titov, Aleksei, Romaniuk, Dmitrii S., Shagina, Irina A., Chudakov, Dmitry M., Kiryukhin, Dmitry O., Shcherbakova, Olga V., Khamaganova, Ekaterina G., Dzutseva, Vitalina, Afanasiev, Andrei, Bogolyubova, Apollinariya V., and Efimov, Grigory A.

Subjects

T cells, T cell receptors, CLINICAL trials, SARS-CoV-2, VACCINE effectiveness

Abstract

Adenovirus vaccines, particularly the COVID-19 Ad5-nCoV adenovirus vaccine, have emerged as promising tools in the fight against infectious diseases. In this study, we investigated the structure of the T cell response to the Spike protein of the SARS-CoV-2 virus used in the COVID-19 Ad5-nCoV adenoviral vaccine in a phase 3 clinical trial (NCT04540419). In 69 participants, we collected peripheral blood samples at four time points after vaccination or placebo injection. Sequencing of T cell receptor repertoires from Spike-stimulated T cell cultures at day 14 from 17 vaccinated revealed a more diverse CD4+ T cell repertoire compared to CD8+. Nevertheless, CD8+ clonotypes accounted for more than half of the Spike-specific repertoire. Our longitudinal analysis showed a peak T cell response at day 14, followed by a decline untilmonth 6. Remarkably, multiple T cell clonotypes persisted for at least 6 months after vaccination, as demonstrated by ex vivo stimulation. Examination of CDR3 regions revealed homologous sequences in both CD4+ and CD8+ clonotypes, with major CD8+ clonotypes sharing high similarity with annotated sequences specific for the NYNYLYRLF peptide, suggesting potential immunodominance. In conclusion, our study demonstrates the immunogenicity of the Ad5-nCoV adenoviral vaccine and highlights its ability to induce robust and durable T cell responses. These findings provide valuable insight into the efficacy of the vaccine against COVID-19 and provide critical information for ongoing efforts to control infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2024

6. Defining T cell receptor repertoires using nanovial-based binding and functional screening.

Author

Doyeon Koo, Zhiyuan Mao, Dimatteo, Robert, Miyako Noguchi, Tsubamoto, Natalie, McLaughlin, Jami, Tran, Wendy, Sohyung Lee, Donghui Cheng, de Rutte, Joseph, Sojo, Giselle Burton, Witte, Owen N., and Di Carlo, Dino

Subjects

*T cell receptors, *MAJOR histocompatibility complex, *CELL populations, *VIRAL antigens, *T cells

Abstract

The ability to selectively bind to antigenic peptides and secrete effector molecules can define rare and low-affinity populations of cells with therapeutic potential in emerging T cell receptor (TCR) immunotherapies. We leverage cavity-containing hydrogel microparticles, called nanovials, each coated with peptide-major histocompatibility complex (pMHC) monomers to isolate antigen-reactive T cells. T cells are captured and activated by pMHCs inducing the secretion of effector molecules including IFN-γ and granzyme B that are accumulated on nanovials, allowing sorting based on both binding and function. The TCRs of sorted cells on nanovials are sequenced, recovering paired αβ-chains using microfluidic emulsion-based single-cell sequencing. By labeling nanovials having different pMHCs with unique oligonucleotide-barcodes and secretions with oligo-barcoded detection antibodies, we could accurately link TCR sequences to specific targets and rank each TCR based on the corresponding cell's secretion level. Using the technique, we identified an expanded repertoire of functional TCRs targeting viral antigens with high specificity and found rare TCRs with activity against cancer-specific splicing-enhanced epitopes. [ABSTRACT FROM AUTHOR]

Published

2024

7. Terminally differentiated cytotoxic CD4+ T cells were clonally expanded in the brain lesion of radiation‐induced brain injury.

Author

Ma, Xueying, Zuo, You, Hu, Xia, Chen, Sitai, Zhong, Ke, Xue, Ruiqi, Gui, Shushu, Liu, Kejia, Li, Shaojian, Zhu, Xiaoqiu, Yang, Jingwen, Deng, Zhenhong, Liu, Xiaolu, Xu, Yongteng, Liu, Sheng, Shi, Zhongshan, Zhou, Meijuan, and Tang, Yamei

Subjects

*CYTOTOXIC T cells, *BRAIN damage, *BRAIN injuries, *T cells, *CHEMOKINE receptors

Abstract

Background: Accumulating evidence supports the involvement of adaptive immunity in the development of radiation‐induced brain injury (RIBI). Our previous work has emphasized the cytotoxic function of CD8+ T cells in RIBI. In this study, we aimed to investigate the presence and potential roles of cytotoxic CD4+ T cells (CD4+ CTLs) in RIBI to gain a more comprehensive understanding of adaptive immunity in this context. Main Text: Utilizing single‐cell RNA sequencing (scRNA‐seq), we analyzed 3934 CD4+ T cells from the brain lesions of four RIBI patients and identified six subclusters within this population. A notable subset, the cytotoxic CD4+ T cells (CD4+ CTLs), was marked with high expression of cytotoxicity‐related genes (NKG7, GZMH, GNLY, FGFBP2, and GZMB) and several chemokine and chemokine receptors (CCL5, CX3CR1, and CCL4L2). Through in‐depth pseudotime analysis, which simulates the development of CD4+ T cells, we observed that the CD4+ CTLs exhibited signatures of terminal differentiation. Their functions were enriched in protein serine/threonine kinase activity, GTPase regulator activity, phosphoprotein phosphatase activity, and cysteine‐type endopeptidase activity involved in the apoptotic signaling pathway. Correspondingly, mice subjected to gamma knife irradiation on the brain showed a time‐dependent infiltration of CD4+ T cells, an increase of MHCII+ cells, and the existence of CD4+ CTLs in lesions, along with an elevation of apoptotic‐related proteins. Finally, and most crucially, single‐cell T‐cell receptor sequencing (scTCR‐seq) analysis at the patient level determined a large clonal expansion of CD4+ CTLs in lesion tissues of RIBI. Transcriptional factor‐encoding genes TBX21, RORB, and EOMES showed positive correlations with the cytotoxic functions of CD4+ T cells, suggesting their potential to distinguish RIBI‐related CD4+ CTLs from other subsets. Conclusion: The present study enriches the understanding of the transcriptional landscape of adaptive immune cells in RIBI patients. It provides the first description of a clonally expanded CD4+ CTL subset in RIBI lesions, which may illuminate new mechanisms in the development of RIBI and offer potential biomarkers or therapeutic targets for the disease. [ABSTRACT FROM AUTHOR]

Published

2024

8. Single-cell RNA and T-cell receptor sequencing unveil mycosis fungoides heterogeneity and a possible gene signature

Author

Nalini Srinivas, Lukas Peiffer, Kai Horny, Kuan Cheok Lei, Terkild B. Buus, Linda Kubat, Meng Luo, Menghong Yin, Ivelina Spassova, Antje Sucker, Farnoush Farahpour, Jan Kehrmann, Selma Ugurel, Elisabeth Livingstone, Thilo Gambichler, Niels Ødum, and Jürgen C. Becker

Subjects

CTCL, heterogeneity, malignant T cells, single-cell RNA sequencing, TCR sequencing, gene signature, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundMycosis fungoides (MF) is the most common subtype of cutaneous T-cell lymphoma (CTCL). Comprehensive analysis of MF cells in situ and ex vivo is complicated by the fact that is challenging to distinguish malignant from reactive T cells with certainty.MethodsTo overcome this limitation, we performed combined single-cell RNA (scRNAseq) and T-cell receptor TCR sequencing (scTCRseq) of skin lesions of cutaneous MF lesions from 12 patients. A sufficient quantity of living T cells was obtained from 9 patients, but 2 had to be excluded due to unclear diagnoses (coexisting CLL or revision to a fixed toxic drug eruption).ResultsFrom the remaining patients we established single-cell mRNA expression profiles and the corresponding TCR repertoire of 18,630 T cells. TCR clonality unequivocally identified 13,592 malignant T cells. Reactive T cells of all patients clustered together, while malignant cells of each patient formed a unique cluster expressing genes typical of naive/memory, such as CD27, CCR7 and IL7R, or cytotoxic T cells, e.g., GZMA, NKG7 and GNLY. Genes encoding classic CTCL markers were not detected in all clusters, consistent with the fact that mRNA expression does not correlate linearly with protein expression. Nevertheless, we successfully pinpointed distinctive gene signatures differentiating reactive malignant from malignant T cells: keratins (KRT81, KRT86), galectins (LGALS1, LGALS3) and S100 genes (S100A4, S100A6) being overexpressed in malignant cells.ConclusionsCombined scRNAseq and scTCRseq not only allows unambiguous identification of MF cells, but also revealed marked heterogeneity between and within patients with unexpected functional phenotypes. While the correlation between mRNA and protein abundance was limited with respect to established MF markers, we were able to identify a single-cell gene expression signature that distinguishes malignant from reactive T cells.

Published

2024

9. Editorial: Adaptive immunity in atherosclerosis

Author

Bram Slütter and Klaus Ley

Subjects

atherosclerosis, B-cell, T-cell, adaptive immunity, TCR sequencing, Immunologic diseases. Allergy, RC581-607

Published

2024

10. Characterization of T-Cell receptor repertoire in immunoglobulin a nephropathy

Author

Szu-Ying Ho, Chih-Chin Kao, Che-Mai Chang, Yi-Chien Chou, Wei-Tzu Luo, Wan-Hsuan Chou, I-Lin Tsai, Mai-Szu Wu, and Wei-Chiao Chang

Subjects

Immunoglobulin A nephropathy (IgAN), T-cell receptor (TCR) repertoire, TCR sequencing, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Immunoglobulin A nephropathy (IgAN) is an autoimmune disease characterized by abnormal IgA deposition in glomerulus. Current diagnosis of IgAN still depends on renal biopsy, an invasive method that might increase the risk of clinical outcomes. Therefore, we aimed to explore the characteristics of T cell repertoire in IgAN from peripheral blood samples for identifying innovative diagnostic biomarkers. Herein, we included 8 IgAN patients, 25 non-IgAN patients, and 10 healthy controls in the study. A high-throughput immune repertoire sequencing was conducted to investigate the T-cell receptor beta-chain (TCRβ) repertoire of peripheral blood. Characteristics of TCRβ repertoire were assessed for these three distinct groups. A reduced TCRβ repertoire diversity was observed in IgAN patients compared to non-IgAN and healthy individuals. A skewed distribution toward shorter TCRβ complementarity determining region (CDR3) length was found in non-IgAN relative to IgAN patients. In addition, the differences in usages of five TRBV genes (TRBV5-4, TRBV6-4, TRBV12-1, TRBV16, and TRBV21-1) were identified between IgAN, non-IgAN, and healthy subjects. Of note, the TRBV6-4 gene, which is associated with mucosal-associated invariant T (MAIT) cells, exhibited higher usage in IgAN patients, suggesting potential importance of MAIT cells in IgAN. In short, our findings supported TCR repertoire characteristics as potential biomarkers for IgAN diagnosis.

Published

2024

11. T-cell receptor sequencing in interrogating antigen-specific T-cell responses to foreign and self-antigens.

Author

Johansson, Alexandra M. and Kwok, William W.

Published

2024

12. Diagnosing Viral Infections Through T-Cell Receptor Sequencing of Activated CD8+ T Cells.

Author

Vujkovic, Alexandra, Ha, My, Block, Tessa de, Petersen, Lida van, Brosius, Isabel, Theunissen, Caroline, Ierssel, Sabrina H van, Bartholomeus, Esther, Adriaensen, Wim, Vanham, Guido, Elias, George, Damme, Pierre Van, Tendeloo, Viggo Van, Beutels, Philippe, Frankenhuijsen, Maartje van, Vlieghe, Erika, Ogunjimi, Benson, Laukens, Kris, Meysman, Pieter, and Vercauteren, Koen

Subjects

*SARS-CoV-2, *VIRUS diseases, *T cells, *COVID-19, *EMERGING infectious diseases

Abstract

T-cell–based diagnostic tools identify pathogen exposure but lack differentiation between recent and historical exposures in acute infectious diseases. Here, T-cell receptor (TCR) RNA sequencing was performed on HLA-DR+/CD38+CD8+ T-cell subsets of hospitalized coronavirus disease 2019 (COVID-19) patients (n = 30) and healthy controls (n = 30; 10 of whom had previously been exposed to severe acute respiratory syndrome coronavirus 2 [SARS-CoV-2]). CDR3α and CDR3β TCR regions were clustered separately before epitope specificity annotation using a database of SARS-CoV-2–associated CDR3α and CDR3β sequences corresponding to >1000 SARS-CoV-2 epitopes. The depth of the SARS-CoV-2–associated CDR3α/β sequences differentiated COVID-19 patients from the healthy controls with a receiver operating characteristic area under the curve of 0.84 ± 0.10. Hence, annotating TCR sequences of activated CD8+ T cells can be used to diagnose an acute viral infection and discriminate it from historical exposure. In essence, this work presents a new paradigm for applying the T-cell repertoire to accomplish TCR-based diagnostics. [ABSTRACT FROM AUTHOR]

Published

2024

13. Characterization of T-Cell receptor repertoire in immunoglobulin a nephropathy.

Author

Ho, Szu-Ying, Kao, Chih-Chin, Chang, Che-Mai, Chou, Yi-Chien, Luo, Wei-Tzu, Chou, Wan-Hsuan, Tsai, I-Lin, Wu, Mai-Szu, and Chang, Wei-Chiao

Subjects

IGA glomerulonephritis, IMMUNOGLOBULIN receptors, SKEWNESS (Probability theory), T cell receptors, RENAL biopsy, AUTOIMMUNE diseases, T cells

Abstract

Immunoglobulin A nephropathy (IgAN) is an autoimmune disease characterized by abnormal IgA deposition in glomerulus. Current diagnosis of IgAN still depends on renal biopsy, an invasive method that might increase the risk of clinical outcomes. Therefore, we aimed to explore the characteristics of T cell repertoire in IgAN from peripheral blood samples for identifying innovative diagnostic biomarkers. Herein, we included 8 IgAN patients, 25 non-IgAN patients, and 10 healthy controls in the study. A high-throughput immune repertoire sequencing was conducted to investigate the T-cell receptor beta-chain (TCRβ) repertoire of peripheral blood. Characteristics of TCRβ repertoire were assessed for these three distinct groups. A reduced TCRβ repertoire diversity was observed in IgAN patients compared to non-IgAN and healthy individuals. A skewed distribution toward shorter TCRβ complementarity determining region (CDR3) length was found in non-IgAN relative to IgAN patients. In addition, the differences in usages of five TRBV genes (TRBV5-4, TRBV6-4, TRBV12-1, TRBV16, and TRBV21-1) were identified between IgAN, non-IgAN, and healthy subjects. Of note, the TRBV6-4 gene, which is associated with mucosal-associated invariant T (MAIT) cells, exhibited higher usage in IgAN patients, suggesting potential importance of MAIT cells in IgAN. In short, our findings supported TCR repertoire characteristics as potential biomarkers for IgAN diagnosis. [ABSTRACT FROM AUTHOR]

Published

2024

14. SARS‐CoV‐2‐associated T‐cell infiltration in the central nervous system.

Author

Mohme, Malte, Schultheiß, Christoph, Piffko, Andras, Fitzek, Antonia, Paschold, Lisa, Thiele, Benjamin, Püschel, Klaus, Glatzel, Markus, Westphal, Manfred, Lamszus, Katrin, Matschke, Jakob, and Binder, Mascha

Subjects

*COVID-19, *CENTRAL nervous system, *CORONAVIRUS diseases, *T cell receptors

Abstract

Objectives: Infection with severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) causes coronavirus disease 2019 (COVID‐19). Although an acute SARS‐CoV‐2 infection mainly presents with respiratory illness, neurologic symptoms and sequelae are increasingly recognised in the long‐term treatment of COVID‐19 patients. The pathophysiology and the neuropathogenesis behind neurologic complications of COVID‐19 remain poorly understood, but mounting evidence points to endothelial dysfunction either directly caused by viral infection or indirectly by inflammatory cytokines, followed by a local immune response that may include virus‐specific T cells. However, the type and role of central nervous system‐infiltrating T cells in COVID‐19 are complex and not fully understood. Methods: We analysed distinct anatomical brain regions of patients who had deceased as a result of COVID‐19‐associated pneumonia or complications thereof and performed T cell receptor Vβ repertoire sequencing. Clonotypes were analysed for SARS‐CoV‐2 association using public TCR repertoire data. Results: Our descriptive study demonstrates that SARS‐CoV‐2‐associated T cells are found in almost all brain areas of patients with fatal COVID‐19 courses. The olfactory bulb, medulla and cerebellum were brain regions showing the most SARS‐CoV‐2 specific sequence patterns. Neuropathological workup demonstrated primary CD8+ T‐cell infiltration with a perivascular infiltration pattern. Conclusion: Future research is needed to better define the relationship between T‐cell infiltration and neurological symptoms and its long‐term impact on patients' cognitive and mental health. [ABSTRACT FROM AUTHOR]

Published

2024

15. T‐cell receptor sequencing reveals hepatocellular carcinoma immune characteristics according to Barcelona Clinic liver cancer stages within liver tissue and peripheral blood.

Author

Li, Rui, Wang, Junxiao, Li, Xiubin, Liang, Yining, Jiang, Yiyun, Zhang, Yuwei, Xu, Pengfei, Deng, Ling, Wang, Zhe, Sun, Tao, Wu, Jian, Xie, Hui, and Wang, Yijin

Abstract

Analysis of T‐cell receptor (TCR) repertoires in different stages of hepatocellular carcinoma (HCC) might help to elucidate its pathogenesis and progression. This study aimed to investigate TCR profiles in liver biopsies and peripheral blood mononuclear cells (PBMCs) in different Barcelona Clinic liver cancer (BCLC) stages of HCC. Ten patients in early stage (BCLC_A), 10 patients in middle stage (BCLC_B), and 10 patients in late stage (BCLC_C) cancer were prospectively enrolled. The liver tumor tissues, adjacent tissues, and PBMCs of each patient were collected and examined by TCR β sequencing. Based on the ImMunoGeneTics (IMGT) database, we aligned the V, D, J, and C gene segments and identified the frequency of CDR3 sequences and amino acids sequence. Diversity of TCR in PBMCs was higher than in both tumor tissues and adjacent tissues, regardless of BCLC stage and postoperative recurrence. TCR clonality was increased in T cells from peripheral blood in advanced HCC, compared with the early and middle stages. No statistical differences were observed between different BCLC stages, either in tumors or adjacent tissues. TCR clonality revealed no significant difference between recurrent tumor and non‐recurrent tumor, therefore PBMCs was better to be representative of TCR characteristics in different stages of HCC compared to tumor tissues. Clonal expansion of T cells was associated with low risk of recurrence in HCC patients. [ABSTRACT FROM AUTHOR]

Published

2024

16. TCR-sequencing in cancer and autoimmunity: barcodes and beyond

Author

Pauken, Kristen E, Lagattuta, Kaitlyn A, Lu, Benjamin Y, Lucca, Liliana E, Daud, Adil I, Hafler, David A, Kluger, Harriet M, Raychaudhuri, Soumya, and Sharpe, Arlene H

Subjects

Cancer, Genetics, Generic health relevance, Inflammatory and immune system, Autoimmunity, Humans, Neoplasms, Receptors, Antigen, T-Cell, T-Lymphocytes, PD-1 immunotherapy, T cell, TCR sequencing, cancer, molecular barcode, single cell sequencing, Immunology

Abstract

The T cell receptor (TCR) endows T cells with antigen specificity and is central to nearly all aspects of T cell function. Each naïve T cell has a unique TCR sequence that is stably maintained during cell division. In this way, the TCR serves as a molecular barcode that tracks processes such as migration, differentiation, and proliferation of T cells. Recent technological advances have enabled sequencing of the TCR from single cells alongside deep molecular phenotypes on an unprecedented scale. In this review, we discuss strengths and limitations of TCR sequences as molecular barcodes and their application to study immune responses following Programmed Death-1 (PD-1) blockade in cancer. Additionally, we consider applications of TCR data beyond use as a barcode.

Published

2022

17. Perturbations of the T-cell immune repertoire in kidney transplant rejection

Author

Sigdel, Tara K, Fields, Paul A, Liberto, Juliane, Damm, Izabella, Kerwin, Maggie, Hood, Jill, Towfighi, Parhom, Sirota, Marina, Robins, Harlan S, and Sarwal, Minnie M

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Immunology, Digestive Diseases, Kidney Disease, Rare Diseases, Transplantation, Clinical Research, Organ Transplantation, Renal and urogenital, Inflammatory and immune system, Humans, T-Lymphocytes, Kidney Transplantation, Cross-Sectional Studies, Postoperative Complications, Biopsy, Antibodies, kidney transplantation, TCR sequencing, acute rejection, immune repertoire, T cell-mediated rejection, antibody-mediated rejection, Medical Microbiology, Biochemistry and cell biology, Genetics

Abstract

In this cross-sectional and longitudinal analysis of mapping the T-cell repertoire in kidney transplant recipients, we have investigated and validated T-cell clonality, immune repertoire chronology at rejection, and contemporaneous allograft biopsy quantitative tissue injury, to better understand the pathobiology of acute T-cell fraction, T-cell repertoire and antibody-mediated kidney transplant rejection. To follow the dynamic evolution of T-cell repertoire changes before and after engraftment and during biopsy-confirmed acute rejection, we sequenced 323 peripheral blood samples from 200 unique kidney transplant recipients, with (n=100) and without (n=100) biopsy-confirmed acute rejection. We report that patients who develop acute allograft rejection, have lower (p=0.01) T-cell fraction even before transplantation, followed by its rise after transplantation and at the time of acute rejection accompanied by high TCR repertoire turnover (p=0.004). Acute rejection episodes occurring after the first 6 months post-transplantation, and those with a component of antibody-mediated rejection, had the highest turnover; p=0.0016) of their T-cell repertoire. In conclusion, we validated that detecting repertoire changes in kidney transplantation correlates with post-transplant rejection episodes suggesting that T-cell receptor sequencing may provide recipient pre-transplant and post-transplant predictors of rejection risk.

Published

2022

18. Single-cell transcriptome landscape and antigen receptor dynamic during SARS-CoV-2 vaccination

Author

Xiaojian Cao, Xiaohua Chen, Yaqi Zhu, Xiaojuan Gou, Keyi Yan, Bing Yang, Dong Men, Lei Liu, Yong-an Zhang, and Gang Cao

Subjects

COVID-19, SARS-CoV-2, Single-cell sequencing, TCR sequencing, Vaccination, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Vaccination by inactivated vaccine is an effective strategy to prevent the COVID-19 pandemic. However, the detailed molecular immune response at single-cell level is poorly understood. In this study, we systematically delineated the landscape of the pre- and post-vaccination single-cell transcriptome, TCR (T cell antigen receptor) and BCR (B cell antigen receptor) expression profile of vaccinated candidates. The bulk TCR sequencing analysis of COVID-19 patients was also performed. Enrichment of a clonal CD8+ T cell cluster expressing specific TCR was identified in both vaccination candidates and COVID-19 patients. These clonal CD8+ T cells showed high expression of cytotoxicity, phagosome and antigen presentation related genes. The cell–cell interaction analysis revealed that monocytes and dendritic cells could interact with these cells and initiate phagocytosis via ICAM1-ITGAM and ITGB2 signaling. Together, our study systematically deciphered the detailed immunological response during SARS-CoV-2 vaccination and infection. It may facilitate understanding the immune response and the T-cell therapy against COVID-19.

Published

2023

19. An open protocol for modeling T Cell Clonotype repertoires using TCRβ CDR3 sequences

Author

Burcu Gurun, Wesley Horton, Dhaarini Murugan, Biqing Zhu, Patrick Leyshock, Sushil Kumar, Katelyn T. Byrne, Robert H. Vonderheide, Adam A. Margolin, Motomi Mori, Paul T. Spellman, Lisa M. Coussens, and Terence P. Speed

Subjects

Multiplex PCR, Amplification bias, Clonotype counts, TCR sequencing, Normalization, Negative binomial, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract T cell receptor repertoires can be profiled using next generation sequencing (NGS) to measure and monitor adaptive dynamical changes in response to disease and other perturbations. Genomic DNA-based bulk sequencing is cost-effective but necessitates multiplex target amplification using multiple primer pairs with highly variable amplification efficiencies. Here, we utilize an equimolar primer mixture and propose a single statistical normalization step that efficiently corrects for amplification bias post sequencing. Using samples analyzed by both our open protocol and a commercial solution, we show high concordance between bulk clonality metrics. This approach is an inexpensive and open-source alternative to commercial solutions.

Published

2023

20. Editorial: Synthetic peptide vaccine platforms targeting tumor-specific antigens: advances and challenges

Author

Reid M. Rubsamen and Andrew E. Sloan

Subjects

peptide vaccine, synthetic vaccines, tumor specific antigens, toll like receptor (TLR), MHC binding affinity prediction, TCR sequencing, Therapeutics. Pharmacology, RM1-950

Published

2024

21. SARS‐CoV‐2‐associated T‐cell infiltration in the central nervous system

Author

Malte Mohme, Christoph Schultheiß, Andras Piffko, Antonia Fitzek, Lisa Paschold, Benjamin Thiele, Klaus Püschel, Markus Glatzel, Manfred Westphal, Katrin Lamszus, Jakob Matschke, and Mascha Binder

Subjects

central nervous system, COVID‐19, COVID‐19‐specific T cell, neuroinflammation, SARS‐CoV‐2, TCR sequencing, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Objectives Infection with severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) causes coronavirus disease 2019 (COVID‐19). Although an acute SARS‐CoV‐2 infection mainly presents with respiratory illness, neurologic symptoms and sequelae are increasingly recognised in the long‐term treatment of COVID‐19 patients. The pathophysiology and the neuropathogenesis behind neurologic complications of COVID‐19 remain poorly understood, but mounting evidence points to endothelial dysfunction either directly caused by viral infection or indirectly by inflammatory cytokines, followed by a local immune response that may include virus‐specific T cells. However, the type and role of central nervous system‐infiltrating T cells in COVID‐19 are complex and not fully understood. Methods We analysed distinct anatomical brain regions of patients who had deceased as a result of COVID‐19‐associated pneumonia or complications thereof and performed T cell receptor Vβ repertoire sequencing. Clonotypes were analysed for SARS‐CoV‐2 association using public TCR repertoire data. Results Our descriptive study demonstrates that SARS‐CoV‐2‐associated T cells are found in almost all brain areas of patients with fatal COVID‐19 courses. The olfactory bulb, medulla and cerebellum were brain regions showing the most SARS‐CoV‐2 specific sequence patterns. Neuropathological workup demonstrated primary CD8+ T‐cell infiltration with a perivascular infiltration pattern. Conclusion Future research is needed to better define the relationship between T‐cell infiltration and neurological symptoms and its long‐term impact on patients' cognitive and mental health.

Published

2024

22. A Framework to Identify Antigen-Expanded T Cell Receptor Clusters Within Complex Repertoires.

Author

Ceglia, Valentina, Kelley, Erin J, Boyle, Annalee S, Zurawski, Sandra, Mead, Heather L, Harms, Caroline E, Blanck, Jean-Philippe, Flamar, Anne-Laure, Kirschman, Jung Hwa, Ogongo, Paul, Ernst, Joel D, Levy, Yves, Zurawski, Gerard, and Altin, John A

Subjects

T-Lymphocytes, Humans, Receptors, Antigen, T-Cell, Cell Separation, Immunologic Techniques, T cell receptor, T cell responses, TCR sequencing, dendritic cells, monoclonal antibodies, vaccines, Prevention, Immunization, Vaccine Related, Good Health and Well Being, Immunology, Medical Microbiology

Abstract

Common approaches for monitoring T cell responses are limited in their multiplexity and sensitivity. In contrast, deep sequencing of the T Cell Receptor (TCR) repertoire provides a global view that is limited only in terms of theoretical sensitivity due to the depth of available sampling; however, the assignment of antigen specificities within TCR repertoires has become a bottleneck. This study combines antigen-driven expansion, deep TCR sequencing, and a novel analysis framework to show that homologous 'Clusters of Expanded TCRs (CETs)' can be confidently identified without cell isolation, and assigned to antigen against a background of non-specific clones. We show that clonotypes within each CET respond to the same epitope, and that protein antigens stimulate multiple CETs reactive to constituent peptides. Finally, we demonstrate the personalized assignment of antigen-specificity to rare clones within fully-diverse uncultured repertoires. The method presented here may be used to monitor T cell responses to vaccination and immunotherapy with high fidelity.

Published

2021

23. TCR Sequencing in Mouse Models of Allorecognition Unveils the Features of Directly and Indirectly Activated Clonotypes.

Author

Tereshchenko, Valeriy, Shevyrev, Daniil, Fisher, Marina, Bulygin, Aleksei, Khantakova, Julia, and Sennikov, Sergey

Subjects

*T-cell receptor genes, *LABORATORY mice, *T cell receptors, *NUCLEOTIDE sequencing, *IMMUNE response

Abstract

Allorecognition is known to involve a large number of lymphocytes carrying diverse T-cell receptor repertoire. Thus, one way to understand allorecognition and rejection mechanisms is via high-throughput sequencing of T-cell receptors. In this study, in order to explore and systematize the properties of the alloreactive T-cell receptor repertoire, we modeled direct and indirect allorecognition pathways using material from inbred mice in vitro and in vivo. Decoding of the obtained T-cell receptor genes using high-throughput sequencing revealed some features of the alloreactive repertoires. Thus, alloreactive T-cell receptor repertoires were characterized by specific V-gene usage patterns, changes in CDR3 loop length, and some amino acid occurrence probabilities in the CDR3 loop. Particularly pronounced changes were observed for directly alloreactive clonotypes. We also revealed a clustering of directly and indirectly alloreactive clonotypes by their ability to bind a single antigen; amino acid patterns of the CDR3 loop of alloreactive clonotypes; and the presence in alloreactive repertoires of clonotypes also associated with infectious, autoimmune, and tumor diseases. The obtained results were determined by the modeling of the simplified allorecognition reaction in inbred mice in which stimulation was performed with a single MHCII molecule. We suppose that the decomposition of the diverse alloreactive TCR repertoire observed in humans with transplants into such simple reactions will help to find alloreactive repertoire features; e.g., a dominant clonotype or V-gene usage pattern, which may be targeted to correct the entire rejection reaction in patients. In this work, we propose several technical ways for such decomposition analysis, including separate modeling of the indirect alloreaction pathway and clustering of alloreactive clonotypes according to their ability to bind a single antigen, among others. [ABSTRACT FROM AUTHOR]

Published

2023

24. A novel statistical method for decontaminating T-cell receptor sequencing data.

Author

Li, Ruoxing, Altan, Mehmet, Reuben, Alexandre, Lin, Ruitao, Heymach, John V, Tran, Hai, Chen, Runzhe, Little, Latasha, Hubert, Shawna, Zhang, Jianjun, and Li, Ziyi

Subjects

*STATISTICAL models, *FOOD contamination, *T cells, *MOVEMENT sequences, *DATA visualization

Abstract

The T-cell receptor (TCR) repertoire is highly diverse among the population and plays an essential role in initiating multiple immune processes. TCR sequencing (TCR-seq) has been developed to profile the T cell repertoire. Similar to other high-throughput experiments, contamination can happen during several steps of TCR-seq, including sample collection, preparation and sequencing. Such contamination creates artifacts in the data, leading to inaccurate or even biased results. Most existing methods assume 'clean' TCR-seq data as the starting point with no ability to handle data contamination. Here, we develop a novel statistical model to systematically detect and remove contamination in TCR-seq data. We summarize the observed contamination into two sources, pairwise and cross-cohort. For both sources, we provide visualizations and summary statistics to help users assess the severity of the contamination. Incorporating prior information from 14 existing TCR-seq datasets with minimum contamination, we develop a straightforward Bayesian model to statistically identify contaminated samples. We further provide strategies for removing the impacted sequences to allow for downstream analysis, thus avoiding any need to repeat experiments. Our proposed model shows robustness in contamination detection compared with a few off-the-shelf detection methods in simulation studies. We illustrate the use of our proposed method on two TCR-seq datasets generated locally. [ABSTRACT FROM AUTHOR]

Published

2023

25. Rigorous benchmarking of T-cell receptor repertoire profiling methods for cancer RNA sequencing.

Author

Peng, Kerui, Nowicki, Theodore S, Campbell, Katie, Vahed, Mohammad, Peng, Dandan, Meng, Yiting, Nagareddy, Anish, Huang, Yu-Ning, Karlsberg, Aaron, Miller, Zachary, Brito, Jaqueline, Nadel, Brian, Pak, Victoria M, Abedalthagafi, Malak S, Burkhardt, Amanda M, Alachkar, Houda, Ribas, Antoni, and Mangul, Serghei

Subjects

*RNA sequencing, *T cells, *TUMOR antigens, *T cell receptors, *EARLY detection of cancer, *CANCER research

Abstract

The ability to identify and track T-cell receptor (TCR) sequences from patient samples is becoming central to the field of cancer research and immunotherapy. Tracking genetically engineered T cells expressing TCRs that target specific tumor antigens is important to determine the persistence of these cells and quantify tumor responses. The available high-throughput method to profile TCR repertoires is generally referred to as TCR sequencing (TCR-Seq). However, the available TCR-Seq data are limited compared with RNA sequencing (RNA-Seq). In this paper, we have benchmarked the ability of RNA-Seq-based methods to profile TCR repertoires by examining 19 bulk RNA-Seq samples across 4 cancer cohorts including both T-cell-rich and T-cell-poor tissue types. We have performed a comprehensive evaluation of the existing RNA-Seq-based repertoire profiling methods using targeted TCR-Seq as the gold standard. We also highlighted scenarios under which the RNA-Seq approach is suitable and can provide comparable accuracy to the TCR-Seq approach. Our results show that RNA-Seq-based methods are able to effectively capture the clonotypes and estimate the diversity of TCR repertoires, as well as provide relative frequencies of clonotypes in T-cell-rich tissues and low-diversity repertoires. However, RNA-Seq-based TCR profiling methods have limited power in T-cell-poor tissues, especially in highly diverse repertoires of T-cell-poor tissues. The results of our benchmarking provide an additional appealing argument to incorporate RNA-Seq into the immune repertoire screening of cancer patients as it offers broader knowledge into the transcriptomic changes that exceed the limited information provided by TCR-Seq. [ABSTRACT FROM AUTHOR]

Published

2023

26. An open protocol for modeling T Cell Clonotype repertoires using TCRβ CDR3 sequences.

Author

Gurun, Burcu, Horton, Wesley, Murugan, Dhaarini, Zhu, Biqing, Leyshock, Patrick, Kumar, Sushil, Byrne, Katelyn T., Vonderheide, Robert H., Margolin, Adam A., Mori, Motomi, Spellman, Paul T., Coussens, Lisa M., and Speed, Terence P.

Subjects

*NUCLEOTIDE sequencing, *T cell receptors, *T cells

Abstract

T cell receptor repertoires can be profiled using next generation sequencing (NGS) to measure and monitor adaptive dynamical changes in response to disease and other perturbations. Genomic DNA-based bulk sequencing is cost-effective but necessitates multiplex target amplification using multiple primer pairs with highly variable amplification efficiencies. Here, we utilize an equimolar primer mixture and propose a single statistical normalization step that efficiently corrects for amplification bias post sequencing. Using samples analyzed by both our open protocol and a commercial solution, we show high concordance between bulk clonality metrics. This approach is an inexpensive and open-source alternative to commercial solutions. [ABSTRACT FROM AUTHOR]

Published

2023

27. Clonal Kinetics and Single-Cell Transcriptional Profiles of T Cells Mobilized to Blood by Acute Exercise.

Author

ZÚÑIGA, TIFFANY M., BAKER, FORREST L., SMITH, KYLE A., BATATINHA, HELENA, LAU, BRANDEN, BURGESS, SHANE C., GUSTAFSON, MICHAEL P., KATSANIS, EMMANUEL, and SIMPSON, RICHARD J.

Subjects

*VIRAL antigens, *CYTOMEGALOVIRUSES, *MONONUCLEAR leukocytes, *SEQUENCE analysis, *INFLUENZA A virus, *OXYGEN consumption, *CELL receptors, *IMMUNE system, *RNA, *APOPTOSIS, *DYNAMICS, *LYMPHOCYTES, *EXERCISE, *GENE expression profiling, *DESCRIPTIVE statistics, *TRANSCRIPTION factors, *T cells, *IMMUNOLOGIC memory, *TUMOR antigens, *DATA analysis software, *CELL surface antigens, *EPSTEIN-Barr virus diseases, *CELL death, *IMMUNODIAGNOSIS

Abstract

Purpose: Acute exercise redistributes large numbers of memory T cells, which may contribute to enhanced immune surveillance in regular exercisers. It is not known, however, if acute exercise promotes a broad or oligoclonal T-cell receptor (TCR) repertoire or evokes transcriptomic changes in "exercise-responsive" T-cell clones. Methods: Healthy volunteers completed a graded bout of cycling exercise up to 80% V̇O2max. DNA was extracted from peripheral blood mononuclear cells collected at rest, during exercise (EX), and 1 h after (+1H) exercise, and processed for deep TCR-β chain sequencing and tandem single-cell RNA sequencing. Results: The number of unique clones and unique rearrangements was decreased at EX compared with rest (P < 0.01) and +1H (P < 0.01). Productive clonality was increased compared with rest (P < 0.05) and +1H (P < 0.05), whereas Shannon's Index was decreased compared with rest (P < 0.05) and +1H (P < 0.05). The top 10 rearrangements in the repertoire were increased at EX compared with rest (P < 0.05) and +1H (P < 0.05). Cross-referencing TCR-β sequences with a public database (VDJdb) revealed that exercise increased the number of clones specific for the most prevalent motifs, including Epstein–Barr virus, cytomegalovirus, and influenza A. We identified 633 unique exercise-responsive T-cell clones that were mobilized and/or egressed in response to exercise. Among these clones, there was an upregulation in genes related to cell death, cytotoxicity, and activation (P < 0.05). Conclusions: Acute exercise promotes an oligoclonal T-cell repertoire by preferentially mobilizing the most dominant clones, several of which are specific to known viral antigens and display differentially expressed genes indicative of cytotoxicity, activation, and apoptosis. [ABSTRACT FROM AUTHOR]

Published

2023

28. Editorial: Adaptive immunity in atherosclerosis.

Author

Slütter, Bram and Ley, Klaus

Subjects

AUTOIMMUNE diseases, ATHEROSCLEROSIS, REGULATORY T cells, IMMUNITY, T-cell exhaustion

Abstract

This document is an editorial published in the journal Frontiers in Immunology. It discusses the role of adaptive immunity in atherosclerosis, a condition that contributes to acute cardiovascular events. The editorial highlights the importance of chronic inflammation in atherosclerosis and the potential for new intervention strategies. It also explores the use of new immunological techniques to study the role of the adaptive immune system in the development, progression, and regression of atherosclerosis. The document includes summaries of several research papers that investigate different aspects of adaptive immunity in atherosclerosis, including T cell and B cell responses. Overall, the editorial provides an overview of the latest findings in this field and serves as a valuable resource for researchers interested in studying adaptive immunity in atherosclerosis. [Extracted from the article]

Published

2024

29. Exercise mobilizes diverse antigen specific T-cells and elevates neutralizing antibodies in humans with natural immunity to SARS CoV-2

Author

Forrest L. Baker, Tiffany M. Zúñiga, Kyle A. Smith, Helena Batatinha, Terese S. Kulangara, Michael D. Seckeler, Shane C. Burgess, Emmanuel Katsanis, and Richard J. Simpson

Subjects

Exercise immunology, VSTs, SARS Specific T-cells, TCR Sequencing, Physical activity, Epstein-barr virus, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Epidemiological data suggest that physical activity protects against severe COVID-19 and improves clinical outcomes, but how exercise augments the SARS-CoV-2 viral immune response has yet to be elucidated. Here we determine the antigen-specific CD4 and CD8 T-cell and humoral immunity to exercise in non-vaccinated individuals with natural immunity to SARS CoV-2, using whole-blood SARS-CoV-2 peptide stimulation assays, IFN-γ ELISPOT assays, 8-color flow cytometry, deep T-cell receptor (TCR) β sequencing, and anti-RBD-1 neutralizing antibody serology. We found that acute exercise reliably mobilized (∼2.5-fold increase) highly functional SARS-CoV-2-specific T-cells to the blood compartment in those with natural immunity to the virus. The mobilized cells reacted with spike protein (including alpha (α) and delta (δ)-variants), membrane, and nucleocapsid peptides in those previously infected but not in controls. Both groups reliably mobilized T-cells reacting with Epstein-Barr viral peptides. Exercise mobilized SARS-CoV-2 specific T-cells maintained broad TCR-β diversity with no impact on CDR3 length or V and J family gene usage. Exercise predominantly mobilized MHC I restricted (i.e. CD8+) SARS-CoV-2 specific T-cells that recognized ORF1ab, surface, ORF7b, nucleocapsid, and membrane proteins. SARS-CoV-2 neutralizing antibodies were transiently elevated ∼1.5-fold during exercise after infection. In conclusion, we provide novel data on a potential mechanism by which exercise could increase SARS-CoV-2 immunosurveillance via the mobilization and redistribution of antigen-specific CD8 T-cells and neutralizing antibodies. Further research is needed to define the tissue specific disease protective effects of exercise as SARS-CoV-2 continues to evolve, as well as the impact of COVID-19 vaccination on this response.

Published

2023

30. Revealing the specificity of regulatory T cells in murine autoimmune diabetes.

Author

Spence, Allyson, Purtha, Whitney, Tam, Janice, Dong, Shen, Kim, Youmin, Ju, Chia-Hsin, Sterling, Teague, Nakayama, Maki, Robinson, William H, Bluestone, Jeffrey A, Anderson, Mark S, and Tang, Qizhi

Subjects

Animals, Mice, Inbred NOD, Mice, SCID, Diabetes Mellitus, Type 1, Autoimmune Diseases, Disease Models, Animal, Insulin, Autoantigens, Islets of Langerhans Transplantation, Immune Tolerance, T-Lymphocytes, Regulatory, T cell receptor, TCR sequencing, antigen specificity, regulatory T cells, type 1 diabetes, Autoimmune Disease, Diabetes, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Metabolic and endocrine

Abstract

Regulatory T cells (Tregs) control organ-specific autoimmunity in a tissue antigen-specific manner, yet little is known about their specificity in a natural repertoire. In this study, we used the nonobese diabetic (NOD) mouse model of autoimmune diabetes to investigate the antigen specificity of Tregs present in the inflamed tissue, the islets of Langerhans. Compared with Tregs present in spleen and lymph node, Tregs in the islets showed evidence of antigen stimulation that correlated with higher proliferation and expression of activation markers CD103, ICOS, and TIGIT. T cell receptor (TCR) repertoire profiling demonstrated that islet Treg clonotypes are expanded in the islets, suggesting localized antigen-driven expansion in inflamed islets. To determine their specificity, we captured TCRαβ pairs from islet Tregs using single-cell TCR sequencing and found direct evidence that some of these TCRs were specific for islet-derived antigens including insulin B:9-23 and proinsulin. Consistently, insulin B:9-23 tetramers readily detected insulin-specific Tregs in the islets of NOD mice. Lastly, islet Tregs from prediabetic NOD mice were effective at preventing diabetes in Treg-deficient NOD.CD28-/- recipients. These results provide a glimpse into the specificities of Tregs in a natural repertoire that are crucial for opposing the progression of autoimmune diabetes.

Published

2018

31. Perturbations of the T-cell immune repertoire in kidney transplant rejection.

Author

Sigdel, Tara K., Fields, Paul A., Liberto, Juliane, Damm, Izabella, Kerwin, Maggie, Hood, Jill, Towfighi, Parhom, Sirota, Marina, Robins, Harlan S., and Sarwal, Minnie M.

Subjects

KIDNEY transplantation, GRAFT rejection, T cells, HOMOGRAFTS, SOFT tissue injuries

Abstract

In this cross-sectional and longitudinal analysis of mapping the T-cell repertoire in kidney transplant recipients, we have investigated and validated T-cell clonality, immune repertoire chronology at rejection, and contemporaneous allograft biopsy quantitative tissue injury, to better understand the pathobiology of acute T-cell fraction, T-cell repertoire and antibody-mediated kidney transplant rejection. To follow the dynamic evolution of T-cell repertoire changes before and after engraftment and during biopsy-confirmed acute rejection, we sequenced 323 peripheral blood samples from 200 unique kidney transplant recipients, with (n=100) and without (n=100) biopsy-confirmed acute rejection. We report that patients who develop acute allograft rejection, have lower (p=0.01) T-cell fraction even before transplantation, followed by its rise after transplantation and at the time of acute rejection accompanied by high TCR repertoire turnover (p=0.004). Acute rejection episodes occurring after the first 6 months posttransplantation, and those with a component of antibody-mediated rejection, had the highest turnover; p=0.0016) of their T-cell repertoire. In conclusion, we validated that detecting repertoire changes in kidney transplantation correlates with post-transplant rejection episodes suggesting that T-cell receptor sequencing may provide recipient pre-transplant and posttransplant predictors of rejection risk. [ABSTRACT FROM AUTHOR]

Published

2022

32. Systematic pattern analyses of Vδ2+ TCRs reveal that shared "public" Vδ2+ γδ T cell clones are a consequence of rearrangement bias and a higher expansion status.

Author

Lihua Deng, Harms, Anna, Ravens, Sarina, Prinz, Immo, and Likai Tan

Subjects

T cells, CORD blood, GENETIC code, THYMUS

Abstract

Background: Vγ9Vδ2+ T cells are a major innate T cell subset in human peripheral blood. Their Vd2+ VDJ-rearrangements are short and simple in the fetal thymus and gradually increase in diversity and CDR3 length along with development. So-called "public" versions of Vd2+ TCRs are shared among individuals of all ages. However, it is unclear whether such frequently occurring "public" Vγ9Vδ2+ T cell clones are derived from the fetal thymus and whether they are fitter to proliferate and persist than infrequent "private" clones. Methods: Shared "public" Vδ2+ TCRs were identified from Vδ2+ TCRrepertoires collected from 89 individuals, including newborns (cord blood), infants, and adults (peripheral blood). Distance matrices of Vδ2+ CDR3 were generated by TCRdist3 and then embedded into a UMAP for visualizing the heterogeneity of Vδ2+ TCRs. Results: Vδ2+ CDR3 distance matrix embedded by UMAP revealed that the heterogeneity of Vδ2+ TCRs is primarily determined by the J-usage and CDR3aa length, while age or publicity-specific motifs were not found. The most prevalent public Vδ2+ TCRs showed germline-like rearrangement with low N-insertions. Age-related features were also identified. Public Vδ2+ TRDJ1 TCRs from cord blood showed higher N-insertions and longer CDR3 lengths. Synonymous codons resulting from VDJ rearrangement also contribute to the generation of public Vδ2+ TCRs. Each public TCR was always produced by multiple different transcripts, even with different D gene usage, and the publicity of Vδ2+ TCRs was positively associated with expansion status. Conclusion: To conclude, the heterogeneity of Vδ2+ TCRs is mainly determined by TRDJ-usage and the length of CDR3aa sequences. Public Vδ2+ TCRs result from germline-like rearrangement and synonymous codons, associated with a higher expansion status. [ABSTRACT FROM AUTHOR]

Published

2022

33. The T cell receptor β chain repertoire of tumor infiltrating lymphocytes improves neoantigen prediction and prioritization.

Author

Pham TMQ, Nguyen TN, Tran Nguyen BQ, Diem Tran TP, Diem Pham NM, Phuc Nguyen HT, Cuong Ho TK, Linh Nguyen DV, Nguyen HT, Tran DH, Tran TS, Pham TVN, Le MT, Vy Nguyen TT, Phan MD, Giang H, Nguyen HN, and Tran LS

Subjects

Humans, Machine Learning, Algorithms, Lymphocytes, Tumor-Infiltrating immunology, Antigens, Neoplasm immunology, Antigens, Neoplasm genetics, Receptors, Antigen, T-Cell, alpha-beta genetics, Receptors, Antigen, T-Cell, alpha-beta immunology, Receptors, Antigen, T-Cell, alpha-beta metabolism, Colorectal Neoplasms immunology, Colorectal Neoplasms genetics

Abstract

In the realm of cancer immunotherapy, the meticulous selection of neoantigens plays a fundamental role in enhancing personalized treatments. Traditionally, this selection process has heavily relied on predicting the binding of peptides to human leukocyte antigens (pHLA). Nevertheless, this approach often overlooks the dynamic interaction between tumor cells and the immune system. In response to this limitation, we have developed an innovative prediction algorithm rooted in machine learning, integrating T cell receptor β chain (TCRβ) profiling data from colorectal cancer (CRC) patients for a more precise neoantigen prioritization. TCRβ sequencing was conducted to profile the TCR repertoire of tumor-infiltrating lymphocytes (TILs) from 28 CRC patients. The data unveiled both intra-tumor and inter-patient heterogeneity in the TCRβ repertoires of CRC patients, likely resulting from the stochastic utilization of V and J segments in response to neoantigens. Our novel combined model integrates pHLA binding information with pHLA-TCR binding to prioritize neoantigens, resulting in heightened specificity and sensitivity compared to models using individual features alone. The efficacy of our proposed model was corroborated through ELISpot assays on long peptides, performed on four CRC patients. These assays demonstrated that neoantigen candidates prioritized by our combined model outperformed predictions made by the established tool NetMHCpan. This comprehensive assessment underscores the significance of integrating pHLA binding with pHLA-TCR binding analysis for more effective immunotherapeutic strategies., Competing Interests: TP, TN, BT, TD, ND, HP, TC, DL, HN, DT, TT, TP, ML, TV, MP, HG, HN, LT No competing interests declared, (© 2024, Pham et al.)

Published

2024

34. Perturbations of the T-cell immune repertoire in kidney transplant rejection

Author

Tara K. Sigdel, Paul A. Fields, Juliane Liberto, Izabella Damm, Maggie Kerwin, Jill Hood, Parhom Towfighi, Marina Sirota, Harlan S. Robins, and Minnie M. Sarwal

Subjects

kidney transplantation, TCR sequencing, acute rejection, immune repertoire, T cell-mediated rejection, antibody-mediated rejection, Immunologic diseases. Allergy, RC581-607

Abstract

In this cross-sectional and longitudinal analysis of mapping the T-cell repertoire in kidney transplant recipients, we have investigated and validated T-cell clonality, immune repertoire chronology at rejection, and contemporaneous allograft biopsy quantitative tissue injury, to better understand the pathobiology of acute T-cell fraction, T-cell repertoire and antibody-mediated kidney transplant rejection. To follow the dynamic evolution of T-cell repertoire changes before and after engraftment and during biopsy-confirmed acute rejection, we sequenced 323 peripheral blood samples from 200 unique kidney transplant recipients, with (n=100) and without (n=100) biopsy-confirmed acute rejection. We report that patients who develop acute allograft rejection, have lower (p=0.01) T-cell fraction even before transplantation, followed by its rise after transplantation and at the time of acute rejection accompanied by high TCR repertoire turnover (p=0.004). Acute rejection episodes occurring after the first 6 months post-transplantation, and those with a component of antibody-mediated rejection, had the highest turnover; p=0.0016) of their T-cell repertoire. In conclusion, we validated that detecting repertoire changes in kidney transplantation correlates with post-transplant rejection episodes suggesting that T-cell receptor sequencing may provide recipient pre-transplant and post-transplant predictors of rejection risk.

Published

2022

35. Corrigendum: Systematic pattern analyses of Vδ2+ TCRs reveal that shared 'public' Vδ2+ γδ T cell clones are a consequence of rearrangement bias and a higher expansion status

Author

Lihua Deng, Anna Harms, Sarina Ravens, Immo Prinz, and Likai Tan

Subjects

γδ TCR, Vγ9Vδ2+ T cells, TCR distance, TCR sequencing, TRD rearrangement, Immunologic diseases. Allergy, RC581-607

Published

2022

36. Systematic pattern analyses of Vδ2+ TCRs reveal that shared 'public' Vδ2+ γδ T cell clones are a consequence of rearrangement bias and a higher expansion status

Author

Lihua Deng, Anna Harms, Sarina Ravens, Immo Prinz, and Likai Tan

Subjects

γδ TCR, Vγ9Vδ2+ T cells, TCR distance, TCR sequencing, TRD rearrangement, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundVγ9Vδ2+ T cells are a major innate T cell subset in human peripheral blood. Their Vδ2+ VDJ-rearrangements are short and simple in the fetal thymus and gradually increase in diversity and CDR3 length along with development. So-called “public” versions of Vδ2+ TCRs are shared among individuals of all ages. However, it is unclear whether such frequently occurring “public” Vγ9Vδ2+ T cell clones are derived from the fetal thymus and whether they are fitter to proliferate and persist than infrequent “private” clones.MethodsShared “public” Vδ2+ TCRs were identified from Vδ2+ TCR-repertoires collected from 89 individuals, including newborns (cord blood), infants, and adults (peripheral blood). Distance matrices of Vδ2+ CDR3 were generated by TCRdist3 and then embedded into a UMAP for visualizing the heterogeneity of Vδ2+ TCRs.ResultsVδ2+ CDR3 distance matrix embedded by UMAP revealed that the heterogeneity of Vδ2+ TCRs is primarily determined by the J-usage and CDR3aa length, while age or publicity-specific motifs were not found. The most prevalent public Vδ2+ TCRs showed germline-like rearrangement with low N-insertions. Age-related features were also identified. Public Vδ2+TRDJ1 TCRs from cord blood showed higher N-insertions and longer CDR3 lengths. Synonymous codons resulting from VDJ rearrangement also contribute to the generation of public Vδ2+ TCRs. Each public TCR was always produced by multiple different transcripts, even with different D gene usage, and the publicity of Vδ2+ TCRs was positively associated with expansion status.ConclusionTo conclude, the heterogeneity of Vδ2+ TCRs is mainly determined by TRDJ-usage and the length of CDR3aa sequences. Public Vδ2+ TCRs result from germline-like rearrangement and synonymous codons, associated with a higher expansion status.

Published

2022

37. TCR Sequencing in Mouse Models of Allorecognition Unveils the Features of Directly and Indirectly Activated Clonotypes

Author

Valeriy Tereshchenko, Daniil Shevyrev, Marina Fisher, Aleksei Bulygin, Julia Khantakova, and Sergey Sennikov

Subjects

allorecognition, alloreactivity, transplantation, direct pathway, indirect pathway, TCR sequencing, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Allorecognition is known to involve a large number of lymphocytes carrying diverse T-cell receptor repertoire. Thus, one way to understand allorecognition and rejection mechanisms is via high-throughput sequencing of T-cell receptors. In this study, in order to explore and systematize the properties of the alloreactive T-cell receptor repertoire, we modeled direct and indirect allorecognition pathways using material from inbred mice in vitro and in vivo. Decoding of the obtained T-cell receptor genes using high-throughput sequencing revealed some features of the alloreactive repertoires. Thus, alloreactive T-cell receptor repertoires were characterized by specific V-gene usage patterns, changes in CDR3 loop length, and some amino acid occurrence probabilities in the CDR3 loop. Particularly pronounced changes were observed for directly alloreactive clonotypes. We also revealed a clustering of directly and indirectly alloreactive clonotypes by their ability to bind a single antigen; amino acid patterns of the CDR3 loop of alloreactive clonotypes; and the presence in alloreactive repertoires of clonotypes also associated with infectious, autoimmune, and tumor diseases. The obtained results were determined by the modeling of the simplified allorecognition reaction in inbred mice in which stimulation was performed with a single MHCII molecule. We suppose that the decomposition of the diverse alloreactive TCR repertoire observed in humans with transplants into such simple reactions will help to find alloreactive repertoire features; e.g., a dominant clonotype or V-gene usage pattern, which may be targeted to correct the entire rejection reaction in patients. In this work, we propose several technical ways for such decomposition analysis, including separate modeling of the indirect alloreaction pathway and clustering of alloreactive clonotypes according to their ability to bind a single antigen, among others.

Published

2023

38. Editorial: Synthetic peptide vaccine platforms targeting tumor-specific antigens: advances and challenges.

Author

Rubsamen, Reid M. and Sloan, Andrew E.

Subjects

PEPTIDE vaccines, ANTIGENS, VIRUS-like particles, T cell receptors, PROTEIN structure prediction, MOLECULAR biology, CANCER vaccines

Abstract

This article is an editorial published in Frontiers in Pharmacology titled "Synthetic peptide vaccine platforms targeting tumor-specific antigens: advances and challenges." The authors discuss the discovery and therapeutic aspects of peptide vaccine platforms, specifically in relation to identifying potential antigen targets on tumors and strategies to enhance their immunogenicity. The article highlights advancements in computational techniques for identifying immunogenic peptide antigens, as well as the use of toll-like receptor agonists to improve the immunogenicity of vaccines. The authors emphasize the importance of confirming peptide binding characteristics through in-vivo or in-vitro determination. The article concludes by discussing the potential advantages of synthetic peptide vaccine platforms and the increasing tools available for designing peptide vaccines for oncology applications. [Extracted from the article]

Published

2024

39. T-Cell Receptor Repertoire Sequencing and Its Applications: Focus on Infectious Diseases and Cancer.

Author

Mazzotti, Lucia, Gaimari, Anna, Bravaccini, Sara, Maltoni, Roberta, Cerchione, Claudio, Juan, Manel, Navarro, Europa Azucena-Gonzalez, Pasetto, Anna, Nascimento Silva, Daniela, Ancarani, Valentina, Sambri, Vittorio, Calabrò, Luana, Martinelli, Giovanni, and Mazza, Massimiliano

Subjects

*TRANSMISSIBLE tumors, *COMMUNICABLE diseases, *T cells, *IMMUNOREGULATION, *NUCLEOTIDE sequencing, *T cell receptors

Abstract

The immune system is a dynamic feature of each individual and a footprint of our unique internal and external exposures. Indeed, the type and level of exposure to physical and biological agents shape the development and behavior of this complex and diffuse system. Many pathological conditions depend on how our immune system responds or does not respond to a pathogen or a disease or on how the regulation of immunity is altered by the disease itself. T-cells are important players in adaptive immunity and, together with B-cells, define specificity and monitor the internal and external signals that our organism perceives through its specific receptors, TCRs and BCRs, respectively. Today, high-throughput sequencing (HTS) applied to the TCR repertoire has opened a window of opportunity to disclose T-cell repertoire development and behavior down to the clonal level. Although TCR repertoire sequencing is easily accessible today, it is important to deeply understand the available technologies for choosing the best fit for the specific experimental needs and questions. Here, we provide an updated overview of TCR repertoire sequencing strategies, providers and applications to infectious diseases and cancer to guide researchers' choice through the multitude of available options. The possibility of extending the TCR repertoire to HLA characterization will be of pivotal importance in the near future to understand how specific HLA genes shape T-cell responses in different pathological contexts and will add a level of comprehension that was unthinkable just a few years ago. [ABSTRACT FROM AUTHOR]

Published

2022

40. Emerging Technologies for Non-invasive Monitoring of Treatment Response to Immunotherapy for Brain Tumors.

Author

Mathios, Dimitrios, Srivastava, Siddhartha, Kim, Timothy, Bettegowda, Chetan, and Lim, Michael

Abstract

Glioblastoma is the most common primary malignant brain tumor and one of the most aggressive tumors across all cancer types with remarkable resistance to any treatment. While immunotherapy has shown a robust clinical benefit in systemic cancers, its benefit is still under investigation in brain cancers. The broader use of immunotherapy in clinical trials for glioblastoma has highlighted the challenges of traditional methods of monitoring progression via imaging. Development of new guidelines, advanced imaging techniques, and immune profiling have emerged to counter premature diagnoses of progressive disease. However, these approaches do not provide a timely diagnosis and are costly and time consuming. Surgery is currently the standard of care for diagnosis of pseudoprogression in cases where MRI is equivocal. However, it is invasive, risky, and disruptive to patient's lives and their oncological treatment. With its increased vascularity, glioblastoma is continually shedding tumor components into the vasculature including tumor cells, genetic material, and extracellular vesicles. These elements can be isolated from routine blood draws and provide a real-time non-invasive indicator of tumor progression. Liquid biopsy therefore presents as an attractive alternative to current methods to guide treatment. While the initial evaluation of liquid biopsy for brain tumors via identification of mutations in the plasma was disappointing, novel technologies and use of alternatives to plasma cell-free DNA analytes provide promise for an effective liquid biopsy approach in brain tumors. This review aims to summarize developments in the use of liquid biopsy to monitor glioblastoma, especially in the context of immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2022

41. Serial Analysis of the T-Cell Receptor β-Chain Repertoire in People Living With HIV Reveals Incomplete Recovery After Long-Term Antiretroviral Therapy.

Author

Towlerton, Andrea M. H., Ravishankar, Shashidhar, Coffey, David G., Puronen, Camille E., and Warren, Edus H.

Subjects

HIV-positive persons, MONONUCLEAR leukocytes, ANTIRETROVIRAL agents, T cells, HIV infections

Abstract

Long-term antiretroviral therapy (ART) in people living with HIV (PLHIV) is associated with sustained increases in CD4+ T-cell count, but its effect on the peripheral blood T-cell repertoire has not been comprehensively evaluated. In this study, we performed serial profiling of the composition and diversity of the T-cell receptor β-chain (TRB) repertoire in 30 adults with HIV infection before and after the initiation of ART to define its long-term impact on the TRB repertoire. Serially acquired blood samples from 30 adults with HIV infection collected over a mean of 6 years (range, 1-12) years, with 1-4 samples collected before and 2-8 samples collected after the initiation of ART, were available for analysis. TRB repertoires were characterized via high-throughput sequencing of the TRB variable region performed on genomic DNA extracted from unsorted peripheral blood mononuclear cells. Additional laboratory and clinical metadata including serial measurements of HIV viral load and CD4 + T-cell count were available for all individuals in the cohort. A previously published control group of 189 TRB repertoires from peripheral blood samples of adult bone marrow transplant donors was evaluated for comparison. ART initiation in PLHIV was associated with a sustained reduction in viral load and a significant increase in TRB repertoire diversity. However, repertoire diversity in PLHIV remained significantly lower than in the control group even after long-term ART. The composition of TRB repertoires of PLHIV after ART also remained perturbed compared to the control cohort, as evidenced by large persistent private clonal expansions, reduced efficiency in the generation of TRB CDR3 amino acid sequences, and a narrower range of CDR3 lengths. Network analysis revealed an antigen-experienced structure in the TRB repertoire of PLHIV both before and after ART initiation that was quite distinct from the structure of control repertoires, with a slight shift toward a more naïve structure observed after ART initiation. Though we observe significant improvement in TRB repertoire diversity with durable viral suppression in PLHIV on long-term ART, the composition and structure of these repertoires remain significantly perturbed compared to the control cohort of adult bone marrow transplant donors. [ABSTRACT FROM AUTHOR]

Published

2022

42. Serial Analysis of the T-Cell Receptor β-Chain Repertoire in People Living With HIV Reveals Incomplete Recovery After Long-Term Antiretroviral Therapy

Author

Andrea M. H. Towlerton, Shashidhar Ravishankar, David G. Coffey, Camille E. Puronen, and Edus H. Warren

Subjects

HIV, T-cell repertoire analysis, Antiretroviral therapy (ART), Immune restoration, TCR sequencing, Immunologic diseases. Allergy, RC581-607

Abstract

Long-term antiretroviral therapy (ART) in people living with HIV (PLHIV) is associated with sustained increases in CD4+ T-cell count, but its effect on the peripheral blood T-cell repertoire has not been comprehensively evaluated. In this study, we performed serial profiling of the composition and diversity of the T-cell receptor β-chain (TRB) repertoire in 30 adults with HIV infection before and after the initiation of ART to define its long-term impact on the TRB repertoire. Serially acquired blood samples from 30 adults with HIV infection collected over a mean of 6 years (range, 1-12) years, with 1-4 samples collected before and 2-8 samples collected after the initiation of ART, were available for analysis. TRB repertoires were characterized via high-throughput sequencing of the TRB variable region performed on genomic DNA extracted from unsorted peripheral blood mononuclear cells. Additional laboratory and clinical metadata including serial measurements of HIV viral load and CD4+ T-cell count were available for all individuals in the cohort. A previously published control group of 189 TRB repertoires from peripheral blood samples of adult bone marrow transplant donors was evaluated for comparison. ART initiation in PLHIV was associated with a sustained reduction in viral load and a significant increase in TRB repertoire diversity. However, repertoire diversity in PLHIV remained significantly lower than in the control group even after long-term ART. The composition of TRB repertoires of PLHIV after ART also remained perturbed compared to the control cohort, as evidenced by large persistent private clonal expansions, reduced efficiency in the generation of TRB CDR3 amino acid sequences, and a narrower range of CDR3 lengths. Network analysis revealed an antigen-experienced structure in the TRB repertoire of PLHIV both before and after ART initiation that was quite distinct from the structure of control repertoires, with a slight shift toward a more naïve structure observed after ART initiation. Though we observe significant improvement in TRB repertoire diversity with durable viral suppression in PLHIV on long-term ART, the composition and structure of these repertoires remain significantly perturbed compared to the control cohort of adult bone marrow transplant donors.

Published

2022

43. Identification and Tracking of Alloreactive T Cell Clones in Rhesus Macaques Through the RM-scTCR-Seq Platform.

Author

Gerdemann, Ulrike, Fleming, Ryan A., Kaminski, James, McGuckin, Connor, Rui, Xianliang, Lane, Jennifer F., Keskula, Paula, Cagnin, Lorenzo, Shalek, Alex K., Tkachev, Victor, and Kean, Leslie S.

Subjects

RHESUS monkeys, T cells, CYTOTOXIC T cells, CLONE cells, T cell receptors

Abstract

T cell receptor (TCR) clonotype tracking is a powerful tool for interrogating T cell mediated immune processes. New methods to pair a single cell's transcriptional program with its TCR identity allow monitoring of T cell clonotype-specific transcriptional dynamics. While these technologies have been available for human and mouse T cells studies, they have not been developed for Rhesus Macaques (RM), a critical translational organism for autoimmune diseases, vaccine development and transplantation. We describe a new pipeline, 'RM-scTCR-Seq', which, for the first time, enables RM specific single cell TCR amplification, reconstruction and pairing of RM TCR's with their transcriptional profiles. We apply this method to a RM model of GVHD, and identify and track in vitro detected alloreactive clonotypes in GVHD target organs and explore their GVHD driven cytotoxic T cell signature. This novel, state-of-the-art platform fundamentally advances the utility of RM to study protective and pathogenic T cell responses. [ABSTRACT FROM AUTHOR]

Published

2022

44. TRB sequences targeting ORF1a/b are associated with disease severity in hospitalized COVID‐19 patients.

Author

Assmann, Jorn L.J.C., Kolijn, P. Martijn, Schrijver, Benjamin, van Gammeren, Adriaan J., Loth, Daan W., Ermens, Ton A.A.M., Dik, Willem A., van der Velden, Vincent H.J., and Langerak, Anton W.

Subjects

COVID-19, T cell receptors, HOSPITAL patients, AMINO acid sequence, EPSTEIN-Barr virus diseases

Abstract

The potential protective or pathogenic role of the adaptive immune response to SARS‐CoV‐2 infection has been vigorously debated. While COVID‐19 patients consistently generate a T lymphocyte response to SARS‐CoV‐2 antigens, evidence of significant immune dysregulation in these patients continues to accumulate. In this study, next generation sequencing of the T cell receptor beta chain (TRB) repertoire was conducted in hospitalized COVID‐19 patients to determine if immunogenetic differences of the TRB repertoire contribute to disease course severity. Clustering of highly similar TRB CDR3 amino acid sequences across COVID‐19 patients yielded 781 shared TRB sequences. The TRB sequences were then filtered for known associations with common diseases such as EBV and CMV. The remaining sequences were cross‐referenced to a publicly accessible dataset that mapped COVID‐19 specific TCRs to the SARS‐CoV‐2 genome. We identified 158 SARS‐CoV‐2 specific TRB sequences belonging to 134 clusters in our COVID‐19 patients. Next, we investigated 113 SARS‐CoV‐2 specific clusters binding only one peptide target in relation to disease course. Distinct skewing of SARS‐CoV‐2 specific TRB sequences toward the nonstructural proteins (NSPs) encoded within ORF1a/b of the SARS‐CoV‐2 genome was observed in clusters associated with critical disease course when compared to COVID‐19 clusters associated with a severe disease course. These data imply that T‐lymphocyte reactivity towards peptides from NSPs of SARS‐CoV‐2 may not constitute an effective adaptive immune response and thus may negatively affect disease severity. [ABSTRACT FROM AUTHOR]

Published

2022

45. Identification and Tracking of Alloreactive T Cell Clones in Rhesus Macaques Through the RM-scTCR-Seq Platform

Author

Ulrike Gerdemann, Ryan A. Fleming, James Kaminski, Connor McGuckin, Xianliang Rui, Jennifer F. Lane, Paula Keskula, Lorenzo Cagnin, Alex K. Shalek, Victor Tkachev, and Leslie S. Kean

Subjects

TCR sequencing, single cell sequencing, alloreactive T cells, Rhesus Macaque (Macaca mulatta), GVHD, Immunologic diseases. Allergy, RC581-607

Abstract

T cell receptor (TCR) clonotype tracking is a powerful tool for interrogating T cell mediated immune processes. New methods to pair a single cell’s transcriptional program with its TCR identity allow monitoring of T cell clonotype-specific transcriptional dynamics. While these technologies have been available for human and mouse T cells studies, they have not been developed for Rhesus Macaques (RM), a critical translational organism for autoimmune diseases, vaccine development and transplantation. We describe a new pipeline, ‘RM-scTCR-Seq’, which, for the first time, enables RM specific single cell TCR amplification, reconstruction and pairing of RM TCR’s with their transcriptional profiles. We apply this method to a RM model of GVHD, and identify and track in vitro detected alloreactive clonotypes in GVHD target organs and explore their GVHD driven cytotoxic T cell signature. This novel, state-of-the-art platform fundamentally advances the utility of RM to study protective and pathogenic T cell responses.

Published

2022

46. Acute exercise increases immune responses to SARS CoV-2 in a previously infected man

Author

Forrest L. Baker, Kyle A. Smith, Tiffany M. Zúñiga, Helena Batatinha, Grace M. Niemiro, Charles R. Pedlar, Shane C. Burgess, Emmanuel Katsanis, and Richard J. Simpson

Subjects

Exercise immunology, Long COVID syndrome, α-variant, TCR sequencing, Virus specific T-cells, Metabolic response, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Evidence is emerging that exercise and physical activity provides protection against severe COVID-19 disease in patients infected with SARS-CoV-2, but it is not known how exercise affects immune responses to the virus. A healthy man completed a graded cycling ergometer test prior to and after SARS-CoV-2 infection, then again after receiving an adenovirus vector-based COVID-19 vaccine. Using whole blood SARS-CoV-2 peptide stimulation assays, IFN-γ ELISPOT assays, flow cytometry, ex vivo viral-specific T-cell expansion assays and deep T-cell receptor (TCR) β sequencing, we found that exercise robustly mobilized highly functional SARS-CoV-2 specific T-cells to the blood compartment that recognized spike protein, membrane protein, nucleocapsid antigen and the B.1.1.7 α-variant, and consisted mostly of CD3+/CD8+ T-cells and double-negative (CD4-/CD8-) CD3+ T-cells. The magnitude of SARS-CoV-2 T-cell mobilization with exercise was intensity dependent and robust when compared to T-cells recognizing other viruses (e.g. CMV, EBV, influenza). Vaccination enhanced the number of exercise-mobilized SARS-CoV-2 T-cells recognizing spike protein and the α-variant only. Exercise-mobilized SARS-CoV-2 specific T-cells proliferated more vigorously to ex vivo peptide stimulation and maintained broad TCR-β diversity against SARS-CoV-2 antigens both before and after ex vivo expansion. Neutralizing antibodies to SARS-CoV-2 were transiently elevated during exercise after both infection and vaccination. Finally, infection was associated with an increased metabolic demand to defined exercise workloads, which was restored to pre-infection levels after vaccination. This case study provides impetus for larger studies to determine if these immune responses to exercise can facilitate viral clearance, ameliorate symptoms of long COVID syndrome, and/or restore functional exercise capacity following SARS-CoV-2 infection.

Published

2021

47. Using the T Cell Receptor as a Biomarker in Type 1 Diabetes.

Author

Nakayama, Maki and Michels, Aaron W.

Subjects

T cell receptors, TYPE 1 diabetes, PANCREATIC beta cells, T cells, BIOMARKERS

Abstract

T cell receptors (TCRs) are unique markers that define antigen specificity for a given T cell. With the evolution of sequencing and computational analysis technologies, TCRs are now prime candidates for the development of next-generation non-cell based T cell biomarkers, which provide a surrogate measure to assess the presence of antigen-specific T cells. Type 1 diabetes (T1D), the immune-mediated form of diabetes, is a prototypical organ specific autoimmune disease in which T cells play a pivotal role in targeting pancreatic insulin-producing beta cells. While the disease is now predictable by measuring autoantibodies in the peripheral blood directed to beta cell proteins, there is an urgent need to develop T cell markers that recapitulate T cell activity in the pancreas and can be a measure of disease activity. This review focuses on the potential and challenges of developing TCR biomarkers for T1D. We summarize current knowledge about TCR repertoires and clonotypes specific for T1D and discuss challenges that are unique for autoimmune diabetes. Ultimately, the integration of large TCR datasets produced from individuals with and without T1D along with computational 'big data' analysis will facilitate the development of TCRs as potentially powerful biomarkers in the development of T1D. [ABSTRACT FROM AUTHOR]

Published

2021

48. Proportional Tumor Infiltration of T Cells via Circulation Duplicates the T Cell Receptor Repertoire in a Bilateral Tumor Mouse Model.

Author

Tsunoda, Mikiya, Aoki, Hiroyasu, Shimizu, Haruka, Shichino, Shigeyuki, Matsushima, Kouji, and Ueha, Satoshi

Subjects

T cell receptors, LABORATORY mice, T cells, ANIMAL disease models, CLONE cells

Abstract

Temporal analysis of the T cell receptor (TCR) repertoire has been used to monitor treatment-induced changes in antigen-specific T cells in patients with cancer. However, the lack of experimental models that allow a temporal analysis of the TCR repertoire in the same individual in a homogeneous population limits the understanding of the causal relationship between changes in TCR repertoire and antitumor responses. A bilateral tumor model, where tumor cells were inoculated bilaterally into the backs of mice, could be used for temporal analysis of the TCR repertoire. This study examined the prerequisite for this strategy: the TCR repertoire is conserved between bilateral tumors that grow symmetrically. Bilateral tumors and draining lymph nodes (dLNs) were collected 13 days after tumor inoculation to analyze the TCR repertoire of CD4+ and CD8+ T cells. The tumor-infiltrating T-cell clones were highly similar between the bilateral tumors and expanded to a similar extent. In addition, the differences of TCR repertoire between the bilateral tumors were equivalent to Intra-tumoral heterogeneity on one side. On the other hand, the similarity of the TCR repertoire in the bilateral dLNs was markedly lower than that in the tumor, suggesting that tumor-reactive T cell clones induced independently in each dLN are mixed during recirculation and then proportionally infiltrated the bilateral tumors. These findings provide the basis for future analysis of temporal and treatment-induced changes in tumor-reactive T cell clones using this bilateral tumor model. [ABSTRACT FROM AUTHOR]

Published

2021

49. Mapping the spatial distribution of T cells in repertoire dimension.

Author

Zhang, Junying, Wang, Yu, Yu, Haili, Chen, Gang, Wang, Liting, Liu, Fang, Yuan, Jiangbei, Ni, Qingshan, Xia, Xuefeng, and Wan, Ying

Subjects

*T cell receptors, *T cells, *SMALL intestine, *LYMPH nodes, *INTESTINES, *IMMUNE recognition

Abstract

• Anatomical and physiological niches had significant influence on the distribution of an organism's TCR repertoire. • T cell receptor repertoire diversity and clonal expansion varied by anatomical location. • Small intestinal CD4 + T cell repertoire harbored highly expanded public clonotypes. T cells mediate adaptive immunity in diverse anatomic compartments through recognition of specific antigens via unique T cell receptor (TCR) structures. However, little is known about the spatial distribution of an organism's TCR repertoire. Here, using high-throughput TCR sequencing (TCRseq), we investigated the TCR repertoires of sixteen tissues in healthy C57B/L6 mice. We found that TCR repertoires generally classified into three categories (lymph nodes, non-lymph node tissues and small intestine) based on sequence similarity. Clonal distribution and diversity analyses showed that small intestine compartment had a more skewed repertoire as compared to lymph nodes and non-lymph node tissues. However, analysis of TRBV and TRBJ gene usage across tissue compartments, as well as comparison of CDR3 length distributions, showed no significant tissue-dependent differences. Interestingly, analysis of clonotype sharing between mice showed that although non-redundant public clonotypes were found more easily in lymph nodes, small intestinal CD4 + T cells harbored more abundant public clonotypes. These findings under healthy physiological conditions offer an important reference dataset, which may contribute to our ability to better manipulate T cell responses against infection and vaccination. [ABSTRACT FROM AUTHOR]

Published

2021

50. Using the T Cell Receptor as a Biomarker in Type 1 Diabetes

Author

Maki Nakayama and Aaron W. Michels

Subjects

T cells, TCR sequencing, autoimmunity, type 1 diabetes, HLA, MHC, Immunologic diseases. Allergy, RC581-607

Abstract

T cell receptors (TCRs) are unique markers that define antigen specificity for a given T cell. With the evolution of sequencing and computational analysis technologies, TCRs are now prime candidates for the development of next-generation non-cell based T cell biomarkers, which provide a surrogate measure to assess the presence of antigen-specific T cells. Type 1 diabetes (T1D), the immune-mediated form of diabetes, is a prototypical organ specific autoimmune disease in which T cells play a pivotal role in targeting pancreatic insulin-producing beta cells. While the disease is now predictable by measuring autoantibodies in the peripheral blood directed to beta cell proteins, there is an urgent need to develop T cell markers that recapitulate T cell activity in the pancreas and can be a measure of disease activity. This review focuses on the potential and challenges of developing TCR biomarkers for T1D. We summarize current knowledge about TCR repertoires and clonotypes specific for T1D and discuss challenges that are unique for autoimmune diabetes. Ultimately, the integration of large TCR datasets produced from individuals with and without T1D along with computational ‘big data’ analysis will facilitate the development of TCRs as potentially powerful biomarkers in the development of T1D.

Published

2021