Your search keyword '"human T cells"' showing total 806 results

1. Modulation of TCR stimulation and pifithrin-α improve the genomic safety profile of CRISPR-engineered human T cells

Author

Ursch, Laurenz T., Müschen, Jule S., Ritter, Julia, Klermund, Julia, Bernard, Bettina E., Kolb, Saskia, Warmuth, Linda, Andrieux, Geoffroy, Miller, Gregor, Jiménez-Muñoz, Marina, Theis, Fabian J., Boerries, Melanie, Busch, Dirk H., Cathomen, Toni, and Schumann, Kathrin

Published

2024

2. T-Cell Immune Responses to SARS-CoV-2 Infection and Vaccination.

Author

Notarbartolo, Samuele

Subjects

T cells, IMMUNOLOGIC memory, COVID-19 vaccines, SARS-CoV-2, VIRAL transmission

Abstract

The innate and adaptive immune systems collaborate to detect SARS-CoV-2 infection, minimize the viral spread, and kill infected cells, ultimately leading to the resolution of the infection. The adaptive immune system develops a memory of previous encounters with the virus, providing enhanced responses when rechallenged by the same pathogen. Such immunological memory is the basis of vaccine function. Here, we review the current knowledge on the immune response to SARS-CoV-2 infection and vaccination, focusing on the pivotal role of T cells in establishing protective immunity against the virus. After providing an overview of the immune response to SARS-CoV-2 infection, we describe the main features of SARS-CoV-2-specific CD4+ and CD8+ T cells, including cross-reactive T cells, generated in patients with different degrees of COVID-19 severity, and of Spike-specific CD4+ and CD8+ T cells induced by vaccines. Finally, we discuss T-cell responses to SARS-CoV-2 variants and hybrid immunity and conclude by highlighting possible strategies to improve the efficacy of COVID-19 vaccination. [ABSTRACT FROM AUTHOR]

Published

2024

3. Modular pooled discovery of synthetic knockin sequences to program durable cell therapies

Author

Blaeschke, Franziska, Chen, Yan Yi, Apathy, Ryan, Daniel, Bence, Chen, Andy Y, Chen, Peixin Amy, Sandor, Katalin, Zhang, Wenxi, Li, Zhongmei, Mowery, Cody T, Yamamoto, Tori N, Nyberg, William A, To, Angela, Yu, Ruby, Bueno, Raymund, Kim, Min Cheol, Schmidt, Ralf, Goodman, Daniel B, Feuchtinger, Tobias, Eyquem, Justin, Jimmie Ye, Chun, Carnevale, Julia, Satpathy, Ansuman T, Shifrut, Eric, Roth, Theodore L, and Marson, Alexander

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Gene Therapy, Genetics, Biotechnology, Immunotherapy, 2.1 Biological and endogenous factors, Cancer, Generic health relevance, Humans, Cell- and Tissue-Based Therapy, Exercise, Gene Library, Research, CRISPR, chimeric antigen receptor, chronic stimulation, human T cells, immunotherapy, knockins, pooled screens, synthetic surface receptor, transcription factor, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

Chronic stimulation can cause T cell dysfunction and limit the efficacy of cellular immunotherapies. Improved methods are required to compare large numbers of synthetic knockin (KI) sequences to reprogram cell functions. Here, we developed modular pooled KI screening (ModPoKI), an adaptable platform for modular construction of DNA KI libraries using barcoded multicistronic adaptors. We built two ModPoKI libraries of 100 transcription factors (TFs) and 129 natural and synthetic surface receptors (SRs). Over 30 ModPoKI screens across human TCR- and CAR-T cells in diverse conditions identified a transcription factor AP4 (TFAP4) construct that enhanced fitness of chronically stimulated CAR-T cells and anti-cancer function in vitro and in vivo. ModPoKI's modularity allowed us to generate an ∼10,000-member library of TF combinations. Non-viral KI of a combined BATF-TFAP4 polycistronic construct enhanced fitness. Overexpressed BATF and TFAP4 co-occupy and regulate key gene targets to reprogram T cell function. ModPoKI facilitates the discovery of complex gene constructs to program cellular functions.

Published

2023

4. CAR T cells outperform CAR NK cells in CAR-mediated effector functions in head-to-head comparison

Author

Lukas Egli, Meike Kaulfuss, Juliane Mietz, Arianna Picozzi, Els Verhoeyen, Christian Münz, and Obinna Chijioke

Subjects

Chimeric antigen receptor, Adoptive cell therapy, Human T cells, Human NK cells, IFN-γ, Cytotoxicity, Diseases of the blood and blood-forming organs, RC633-647.5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background CAR NK cells as vehicles for engineered “off-the-shelf” cellular cancer immunotherapy have attracted significant interest. Nonetheless, a comprehensive comparative assessment of the anticancer activity of CAR T cells and CAR NK cells carrying approved benchmark anti-CD19 CAR constructs is missing. Here, we report a direct head-to-head comparison of CD19-directed human T and NK cells. Methods We generated CAR T and CAR NK cells derived from healthy donor PBMC by retroviral transduction with the same benchmark second-generation anti-CD19 CAR construct, FMC63.28z. We investigated IFN-γ secretion and direct cytotoxicity in vitro against various CD19+ cancer cell lines as well as in autologous versus allogeneic settings. Furthermore, we have assessed anticancer activity of CAR T and CAR NK cells in vivo using a xenograft lymphoma model in an autologous versus allogeneic setting and a leukemia model. Results Our main findings are a drastically reduced capacity for CAR-mediated IFN-γ production and lower CAR-mediated cytotoxicity of CAR NK cells relative to CAR T cells in vitro. Consistent with these in vitro findings, we report superior anticancer activity of autologous CAR T cells compared with allogeneic CAR NK cells in vivo. Conclusions CAR T cells had significantly higher CAR-mediated effector functions than CAR NK cells in vitro against several cancer cell lines and autologous CAR T cells outperformed allogeneic CAR NK cells both in vitro and in vivo. CAR NK cells will likely benefit from further engineering to enhance anticancer activity to ultimately fulfill the promise of an effective off-the-shelf product.

Published

2024

5. CAR T cells outperform CAR NK cells in CAR-mediated effector functions in head-to-head comparison.

Author

Egli, Lukas, Kaulfuss, Meike, Mietz, Juliane, Picozzi, Arianna, Verhoeyen, Els, Münz, Christian, and Chijioke, Obinna

Subjects

KILLER cells, T cells, IMMUNE response, CYTOTOXINS, CANCER cells

Abstract

Background: CAR NK cells as vehicles for engineered "off-the-shelf" cellular cancer immunotherapy have attracted significant interest. Nonetheless, a comprehensive comparative assessment of the anticancer activity of CAR T cells and CAR NK cells carrying approved benchmark anti-CD19 CAR constructs is missing. Here, we report a direct head-to-head comparison of CD19-directed human T and NK cells. Methods: We generated CAR T and CAR NK cells derived from healthy donor PBMC by retroviral transduction with the same benchmark second-generation anti-CD19 CAR construct, FMC63.28z. We investigated IFN-γ secretion and direct cytotoxicity in vitro against various CD19+ cancer cell lines as well as in autologous versus allogeneic settings. Furthermore, we have assessed anticancer activity of CAR T and CAR NK cells in vivo using a xenograft lymphoma model in an autologous versus allogeneic setting and a leukemia model. Results: Our main findings are a drastically reduced capacity for CAR-mediated IFN-γ production and lower CAR-mediated cytotoxicity of CAR NK cells relative to CAR T cells in vitro. Consistent with these in vitro findings, we report superior anticancer activity of autologous CAR T cells compared with allogeneic CAR NK cells in vivo. Conclusions: CAR T cells had significantly higher CAR-mediated effector functions than CAR NK cells in vitro against several cancer cell lines and autologous CAR T cells outperformed allogeneic CAR NK cells both in vitro and in vivo. CAR NK cells will likely benefit from further engineering to enhance anticancer activity to ultimately fulfill the promise of an effective off-the-shelf product. [ABSTRACT FROM AUTHOR]

Published

2024

6. T-Cell Immune Responses to SARS-CoV-2 Infection and Vaccination

Author

Samuele Notarbartolo

Subjects

SARS-CoV-2 infection, COVID-19 vaccine, human T cells, immunological memory, antigen-specific T cells, cross-reactive T cells, Medicine

Abstract

The innate and adaptive immune systems collaborate to detect SARS-CoV-2 infection, minimize the viral spread, and kill infected cells, ultimately leading to the resolution of the infection. The adaptive immune system develops a memory of previous encounters with the virus, providing enhanced responses when rechallenged by the same pathogen. Such immunological memory is the basis of vaccine function. Here, we review the current knowledge on the immune response to SARS-CoV-2 infection and vaccination, focusing on the pivotal role of T cells in establishing protective immunity against the virus. After providing an overview of the immune response to SARS-CoV-2 infection, we describe the main features of SARS-CoV-2-specific CD4+ and CD8+ T cells, including cross-reactive T cells, generated in patients with different degrees of COVID-19 severity, and of Spike-specific CD4+ and CD8+ T cells induced by vaccines. Finally, we discuss T-cell responses to SARS-CoV-2 variants and hybrid immunity and conclude by highlighting possible strategies to improve the efficacy of COVID-19 vaccination.

Published

2024

7. Piezo1 mechanosensing regulates integrin-dependent chemotactic migration in human T cells

Author

Chinky Shiu Chen Liu, Tithi Mandal, Parijat Biswas, Md Asmaul Hoque, Purbita Bandopadhyay, Bishnu Prasad Sinha, Jafar Sarif, Ranit D'Rozario, Deepak Kumar Sinha, Bidisha Sinha, and Dipyaman Ganguly

Subjects

Piezo1, human T cells, chemotaxis, cell migration, mechanosensing, focal adhesion kinase, Medicine, Science, Biology (General), QH301-705.5

Abstract

T cells are crucial for efficient antigen-specific immune responses and thus their migration within the body, to inflamed tissues from circulating blood or to secondary lymphoid organs, plays a very critical role. T cell extravasation in inflamed tissues depends on chemotactic cues and interaction between endothelial adhesion molecules and cellular integrins. A migrating T cell is expected to sense diverse external and membrane-intrinsic mechano-physical cues, but molecular mechanisms of such mechanosensing in cell migration are not established. We explored if the professional mechanosensor Piezo1 plays any role during integrin-dependent chemotaxis of human T cells. We found that deficiency of Piezo1 in human T cells interfered with integrin-dependent cellular motility on ICAM-1-coated surface. Piezo1 recruitment at the leading edge of moving T cells is dependent on and follows focal adhesion formation at the leading edge and local increase in membrane tension upon chemokine receptor activation. Piezo1 recruitment and activation, followed by calcium influx and calpain activation, in turn, are crucial for the integrin LFA1 (CD11a/CD18) recruitment at the leading edge of the chemotactic human T cells. Thus, we find that Piezo1 activation in response to local mechanical cues constitutes a membrane-intrinsic component of the ‘outside-in’ signaling in human T cells, migrating in response to chemokines, that mediates integrin recruitment to the leading edge.

Published

2024

8. Characterization of the T Cell Response to Lactobacillus casei Cell Wall Extract in Children With Kawasaki Disease and Its Potential Role in Vascular Inflammation

Author

Hsieh, Li-En, Tremoulet, Adriana H, Burns, Jane C, Rivas, Magali Noval, Arditi, Moshe, and Franco, Alessandra

Subjects

Biomedical and Clinical Sciences, Immunology, Heart Disease, Emerging Infectious Diseases, Autoimmune Disease, Cardiovascular, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Kawasaki disease, Lactobacillus casei cell wall extract, T cells, T cell homing, human T cells, Paediatrics and Reproductive Medicine, Other Medical and Health Sciences, Paediatrics

Abstract

KD is an acute febrile illness and systemic vasculitis of unknown etiology among young children, which can cause coronary artery abnormalities and aneurysms (CAA) and is the leading cause of acquired heart disease among children in the US. Lactobacillus casei cell wall extract (LCWE) induces in mice a vasculitis following intraperitoneal injection defined by the activation of macrophages, dendritic cells and CD8+ cytotoxic T cells leading to aortitis, coronary arteritis, aneurysms and myocarditis that strongly mimic the immunopathology and the cardiac lesions observed in children with Kawasaki disease (KD). To address a potential pathogenic role of LCWE-specific T cells in human vascular inflammation, we studied the activation of circulating CD4+ and CD8+ T cells ex vivo in response to LCWE in 3 cohorts: (1) KD children 2-3 weeks after fever onset, (2) age-similar healthy children controls, (3) healthy adult controls. In all subjects studied, pro-inflammatory CD4+ and CD8+T cells responded to LCWE with no significant differences. Peripherally-induced regulatory T cells (iTreg) also responded to LCWE and potentially reverted to Th17, as suggested by the detection of IL-17 in culture supernatants. Central memory T cells were also detectable and were more abundant in adults. The potential homing to the vessels of LCWE-specific T cells was suggested by the expression of CCR6 and CD31. In conclusion, a non-pathogenic, LCWE-specific T cell repertoire could lead to KD depending upon priming conditions, genetic factors and immune activation by other antigens.

Published

2021

9. Development of a Highly Sensitive Hybrid LC/MS Assay for the Quantitative Measurement of CTLA-4 in Human T Cells.

Author

Wei, Dong, Horton, Kristin L., Chen, John, Dong, Linlin, Chen, Susan, Abdul-Hadi, Kojo, Zhang, Ting Ting, Casson, Cierra N., Shaw, Michael, Shiraishi, Tsubasa, Wilkinson, Brandon, Ji, Chengjie, and Qian, Mark G.

Subjects

*CYTOTOXIC T lymphocyte-associated molecule-4, *T cells, *DRUG discovery, *CELL analysis, *DRUG development, *CELLULAR therapy, *T cell receptors

Abstract

Cytotoxic T-lymphocyte-associated protein 4 (CTLA-4) is a check point protein expressed on the surface of T cells and plays a central role in regulating the immune response. In recent years, CTLA-4 has become a popular target for cancer immunotherapy in which blocking CTLA-4 can restore T-cell function and enhance the immune response against cancer. Currently, there are many CTLA-4 inhibitors in a variety of modalities, including cell therapies, which are being developed in both preclinical and clinical stages to further harness the potential of the target for the treatment of certain types of cancer. In drug discovery research, measuring the level of CTLA-4 in T cells is important for drug discovery and development because it provides key information for quantitative assessment of the pharmacodynamics, efficacy, and safety of the CTLA-4-based therapies. However, to our best knowledge, there is still no report of a sensitive, specific, accurate, and reliable assay for CTLA-4 measurement. In this work, an LC/MS-based method was developed to measure CTLA-4 in human T cells. The assay demonstrated high specificity with an LLOQ of 5 copies of CTLA-4 per cell when using 2.5 million T cells for analysis. As shown in the work, the assay was successfully used to measure CTLA-4 levels in subtype T-cell samples from individual healthy subjects. The assay could be applied in supporting the studies of CTLA-4-based cancer therapies. [ABSTRACT FROM AUTHOR]

Published

2023

10. Multidimensional control of therapeutic human cell function with synthetic gene circuits.

Author

Hui-Shan Li, Israni, Divya V., Gagnon, Keith A., Gan, Kok Ann, Raymond, Michael H., Sander, Jeffry D., Roybal, Kole T., Joung, J. Keith, Wong, Wilson W., and Khalil, Ahmad S.

Subjects

*SYNTHETIC genes, *CELL physiology, *HUMAN T cells, *GENE regulatory networks

Abstract

Synthetic gene circuits that precisely control human cell function could expand the capabilities of gene- and cell-based therapies. However, platforms for developing circuits in primary human cells that drive robust functional changes in vivo and have compositions suitable for clinical use are lacking. Here, we developed synthetic zinc finger transcription regulators (synZiFTRs), which are compact and based largely on human-derived proteins. As a proof of principle, we engineered gene switches and circuits that allow precise, user-defined control over therapeutically relevant genes in primary T cells using orthogonal, US Food and Drug Administration-approved small-molecule inducers. Our circuits can instruct T cells to sequentially activate multiple cellular programs such as proliferation and antitumor activity to drive synergistic therapeutic responses. This platform should accelerate the development and clinical translation of synthetic gene circuits in diverse human cell types and contexts. [ABSTRACT FROM AUTHOR]

Published

2022

11. Decoding CAR T cell phenotype using combinatorial signaling motif libraries and machine learning.

Author

Daniels, Kyle G., Wang, Shangying, Simic, Milos S., Bhargava, Hersh K., Capponi, Sara, Tonai, Yurie, Wei Yu, Bianco, Simone, and Lim, Wendell A.

Subjects

*CHIMERIC antigen receptors, *IMMUNOLOGY, *HUMAN T cells, *CELL-mediated cytotoxicity, *MACHINE learning

Abstract

Chimeric antigen receptor (CAR) costimulatory domains derived from native immune receptors steer the phenotypic output of therapeutic T cells. We constructed a library of CARs containing ~2300 synthetic costimulatory domains, built from combinations of 13 signaling motifs. These CARs promoted diverse human T cell fates, which were sensitive to motif combinations and configurations. Neural networks trained to decode the combinatorial grammar of CAR signaling motifs allowed extraction of key design rules. For example, non-native combinations of motifs that bind tumor necrosis factor receptor-associated factors (TRAFs) and phospholipase C gamma 1 (PLCg1) enhanced cytotoxicity and stemness associated with effective tumor killing. Thus, libraries built from minimal building blocks of signaling, combined with machine learning, can efficiently guide engineering of receptors with desired phenotypes. [ABSTRACT FROM AUTHOR]

Published

2022

12. Characterization of Rationally Designed CRISPR/Cas9-Based DNA Methyltransferases with Distinct Methyltransferase and Gene Silencing Activities in Human Cell Lines and Primary Human T Cells.

Author

Guerra-Resendez RS, Lydon SL, Ma AJ, Bedford GC, Reed DR, Kim S, Terán ER, Nishiguchi T, Escobar M, DiNardo AR, and Hilton IB

Abstract

Nuclease-deactivated Cas (dCas) proteins can be used to recruit epigenetic effectors, and this class of epigenetic editing technologies has revolutionized the ability to synthetically control the mammalian epigenome and transcriptome. DNA methylation is one of the most important and well-characterized epigenetic modifications in mammals, and while many different forms of dCas-based DNA methyltransferases (dCas-DNMTs) have been developed for programmable DNA methylation, these tools are frequently poorly tolerated and/or lowly expressed in mammalian cell types. Further, the use of dCas-DNMTs has largely been restricted to cell lines, which limits mechanistic insights in karyotypically normal contexts and hampers translational utility in the longer term. Here, we extend previous insights into the rational design of the catalytic core of the mammalian DNMT3A methyltransferase and test three dCas9-DNMT3A/3L variants across different human cell lines and in primary donor-derived human T cells. We find that mutations within the catalytic core of DNMT3A stabilize the expression of dCas9-DNMT3A/3L fusion proteins in Jurkat T cells without sacrificing DNA methylation or gene-silencing performance. We also show that these rationally engineered mutations in DNMT3A alter DNA methylation profiles at loci targeted with dCas9-DNMT3A/3L in cell lines and donor-derived human T cells. Finally, we leverage the transcriptionally repressive effects of dCas9-DNMT3A/3L variants to functionally link the expression of a key immunomodulatory transcription factor to cytokine secretion in donor-derived T cells. Overall, our work expands the synthetic biology toolkit for epigenetic editing and provides a roadmap for the use of engineered dCas-based DNMTs in primary mammalian cell types.

Published

2025

13. Dual Activation-Induced Marker Combinations Efficiently Identify and Discern Antigen-Specific and Bystander-Activated Human CD4 + T Cells.

Author

Ceraolo MG, Leccese M, Cassotta A, Triolo S, Bombaci M, Coluccio E, Prati D, Ungaro R, Abrignani S, Bandera A, Sallusto F, Lanzavecchia A, and Notarbartolo S

Abstract

Identifying activated T lymphocytes and differentiating antigen-specific from bystander T cells is crucial for understanding adaptive immune responses. This study investigates the efficacy of activation-induced markers (AIMs) in distinguishing these cell populations. We measured the expression of commonly used AIMs (CD25, CD38, CD40L, CD69, CD137, HLA-DR, ICOS, and OX40) in an in vitro T-cell activation system and evaluated their sensitivity, specificity, and positive predictive value. We demonstrated that individual AIMs, while specific in detecting activated CD4 + T cells, poorly discriminate between antigen-specific and bystander activation, as assessed by a discriminative capacity (DC) score we developed. Our analysis revealed that dual AIM combinations significantly enhanced the ability to distinguish antigen-specific from bystander-activated T cells, achieving DC scores above 90%. These combinations also improved positive predictive value and specificity with a modest reduction in sensitivity. The CD25 hi /ICOS hi combination emerged as the most efficient, with an average sensitivity of 84.35%, specificity of 99.7%, and DC score of 90.12%. Validation through T-cell cloning and antigen re-stimulation confirmed the robustness of our predictions. This study provides a practical framework for researchers to optimize strategies for identifying and isolating antigen-specific human CD4 + T lymphocytes and studying their phenotype, function, and T-cell receptor repertoire., (© 2024 The Author(s). European Journal of Immunology published by Wiley‐VCH GmbH.)

Published

2024

14. Cryopreservation of human T lymphocytes under fast cooling with controlled ice nucleation in cryoprotective solutions of low toxicity.

Author

Huang, Zhiyong, Liu, Wei, Liu, Baolin, He, Xiaowen, Guo, Hao, Xue, Suxia, Yan, Xiaojuan, and Jaganathan, Ganesh K.

Subjects

*T cells, *DIMETHYL sulfoxide, *CRYOPRESERVATION of cells, *CRYOPROTECTIVE agents, *CLINICAL medicine, *COOLING, *CYTOTOXIC T cells

Abstract

Cryopreservation of human T lymphocytes has become an essential tool for some cell-based immunotherapy. However, the cryopreservation procedure of the cells has not been systematically studied. In particular, the key factors of ice seeding and cryoprotective agents (CPA) driving the success of cryopreservation remain unclear. We systematically investigated the key factors, including cooling rate, ice-seeding temperature, CPA concentration, and types of CPA, during cryopreservation of human T lymphocytes with controlled ice nucleation. We found that ice seeding at below −10 °C could enable human T lymphocytes to be cooled at 90 °C min−1 with high relative viability and recovery after rewarming, 94.9% and 90.2%, respectively, which are significantly higher than those without ice seeding (P < 0.001). After optimization, the concentration of dimethyl sulphoxide was as low as 2% (v/v) with relative viability and recovery of 95.4% and 100.8%, respectively, at the cooling rate of 90 °C min−1 after ice seeding at −16 °C. The cryopreservation procedure developed in this study could facilitate the understanding of the mechanism for ice seeding and cell injury and offer a promising cryopreservation method with a high cooling rate and extremely low toxicity for extensive clinical application of immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2021

15. Generation of knock-in primary human T cells using Cas9 ribonucleoproteins

Author

Marson, Alexander [Univ. of California, San Francisco, CA (United States); Univ. of California, Berkeley, CA (United States)]

Published

2015

16. Novel biomanufacturing platform for large-scale and high-quality human T cells production

Author

Jianfa Ou, Yingnan Si, Yawen Tang, Grace E. Salzer, Yun Lu, Seulhee Kim, Hongwei Qin, Lufang Zhou, and Xiaoguang Liu

Subjects

Human T cells, Biomanufacturing platform, Stirred-tank bioreactor, Robust, High-quality and large-scale production, Biology (General), QH301-705.5

Abstract

Abstract The adoptive transfer of human T cells or genetically-engineered T cells with cancer-targeting receptors has shown tremendous promise for eradicating tumors in clinical trials. The objective of this study was to develop a novel T cell biomanufacturing platform using stirred-tank bioreactor for large-scale and high-quality cellular production. First, various factors, such as bioreactor parameters, media, supplements, stimulation, seed age, and donors, were investigated. A serum-free fed-batch bioproduction process was developed to achieve 1000-fold expansion within 8 days after first stimulation and another 500-fold expansion with second stimulation. Second, this biomanufacturing process was successfully scaled up in bioreactor with dilution factor of 10, and the robustness and reproducibility of the process was confirmed by the inclusion of different donors’ T cells of various qualities. Finally, T cell quality was monitored using 12 surface markers and 3 intracellular cytokines as the critical quality assessment criteria in early, middle and late stages of cell production. In this study, a new biomanufacturing platform was created to produce reliable, reproducible, high-quality, and large-quantity (i.e. > 5 billion) human T cells in stirred-tank bioreactor. This platform is compatible with the production systems of monoclonal antibodies, vaccines, and other therapeutic cells, which provides not only the proof-of-concept but also the ready-to-use new approach of T cell expansion for clinical immune therapy.

Published

2019

17. Photoporation with Biodegradable Polydopamine Nanosensitizers Enables Safe and Efficient Delivery of mRNA in Human T Cells.

Author

Harizaj, Aranit, Wels, Mike, Raes, Laurens, Stremersch, Stephan, Goetgeluk, Glenn, Brans, Toon, Vandekerckhove, Bart, Sauvage, Félix, De Smedt, Stefaan C., Lentacker, Ine, and Braeckmans, Kevin

Subjects

*ELECTROPORATION, *T cells, *GOLD nanoparticles, *CHIMERIC antigen receptors, *MESSENGER RNA, *GENE transfection

Abstract

Safe and efficient production of chimeric antigen receptor (CAR)‐T cells is of crucial importance for cell‐based cancer immunotherapy. Physical transfection methods have quickly gained in importance in the context of transfecting T‐cells, since they are readily compatible with different cell types and a broad variety of cargo molecules. In particular, nanoparticle‐sensitized photoporation has been introduced in recent years as a gentle yet efficient method to transiently permeabilize cells, allowing subsequent entry of external cargo molecules into the cells. Gold nanoparticles (AuNPs) have been used the most as photothermal sensitizers because they can easily form laser‐induced vapor nanobubbles, a photothermal phenomenon that is shown to be particularly efficient for permeabilizing cells. However, as AuNPs are not biodegradable, clinical translation is hampered. Here, for the first time, the possibility to form laser‐induced vapor nanobubbles from biocompatible polymeric nanoparticles is reported. Compared to electroporation, the most used physical transfection method for T cells, 2.5 times more living mRNA transfected human T cells are obtained via photoporation sensitized by polydopamine nanoparticles. This shows that photoporation is a viable approach for efficiently producing therapeutic engineered T‐cells at a throughput easily exceeding 105 cells per second. [ABSTRACT FROM AUTHOR]

Published

2021

18. CD5 levels define functionally heterogeneous populations of naïve human CD4+ T cells.

Author

Sood, Aditi, Lebel, Marie‐Ève, Dong, Mengqi, Fournier, Marilaine, Vobecky, Suzanne J., Haddad, Élie, Delisle, Jean‐Sébastien, Mandl, Judith N., Vrisekoop, Nienke, and Melichar, Heather J.

Subjects

T cells, CELL populations, T cell receptors, CYTOKINES, GENE expression, CELLULAR therapy, DYSTHYMIC disorder

Abstract

Studies in murine models show that subthreshold TCR interactions with self‐peptide are required for thymic development and peripheral survival of naïve T cells. Recently, differences in the strength of tonic TCR interactions with self‐peptide, as read‐out by cell surface levels of CD5, were associated with distinct effector potentials among sorted populations of T cells in mice. However, whether CD5 can also be used to parse functional heterogeneity among human T cells is less clear. Our study demonstrates that CD5 levels correlate with TCR signal strength in human naïve CD4+ T cells. Further, we describe a relationship between CD5 levels on naïve human CD4+ T cells and binding affinity to foreign peptide, in addition to a predominance of CD5hi T cells in the memory compartment. Differences in gene expression and biases in cytokine production potential between CD5lo and CD5hi naïve human CD4+ T cells are consistent with observations in mice. Together, these data validate the use of CD5 surface levels as a marker of heterogeneity among human naïve CD4+ T cells with important implications for the identification of functionally biased T‐ cell populations that can be exploited to improve the efficacy of adoptive cell therapies. [ABSTRACT FROM AUTHOR]

Published

2021

19. Characterization of the T Cell Response to Lactobacillus casei Cell Wall Extract in Children With Kawasaki Disease and Its Potential Role in Vascular Inflammation

Author

Li-En Hsieh, Adriana H. Tremoulet, Jane C. Burns, Magali Noval Rivas, Moshe Arditi, and Alessandra Franco

Subjects

Kawasaki disease, Lactobacillus casei cell wall extract, T cells, T cell homing, human T cells, Pediatrics, RJ1-570

Abstract

KD is an acute febrile illness and systemic vasculitis of unknown etiology among young children, which can cause coronary artery abnormalities and aneurysms (CAA) and is the leading cause of acquired heart disease among children in the US. Lactobacillus casei cell wall extract (LCWE) induces in mice a vasculitis following intraperitoneal injection defined by the activation of macrophages, dendritic cells and CD8+ cytotoxic T cells leading to aortitis, coronary arteritis, aneurysms and myocarditis that strongly mimic the immunopathology and the cardiac lesions observed in children with Kawasaki disease (KD). To address a potential pathogenic role of LCWE-specific T cells in human vascular inflammation, we studied the activation of circulating CD4+ and CD8+ T cells ex vivo in response to LCWE in 3 cohorts: (1) KD children 2–3 weeks after fever onset, (2) age-similar healthy children controls, (3) healthy adult controls. In all subjects studied, pro-inflammatory CD4+ and CD8+T cells responded to LCWE with no significant differences. Peripherally-induced regulatory T cells (iTreg) also responded to LCWE and potentially reverted to Th17, as suggested by the detection of IL-17 in culture supernatants. Central memory T cells were also detectable and were more abundant in adults. The potential homing to the vessels of LCWE-specific T cells was suggested by the expression of CCR6 and CD31. In conclusion, a non-pathogenic, LCWE-specific T cell repertoire could lead to KD depending upon priming conditions, genetic factors and immune activation by other antigens.

Published

2021

20. Autophagy in T cells from aged donors is maintained by spermidine and correlates with function and vaccine responses

Author

Ghada Alsaleh, Isabel Panse, Leo Swadling, Hanlin Zhang, Felix Clemens Richter, Alain Meyer, Janet Lord, Eleanor Barnes, Paul Klenerman, Christopher Green, and Anna Katharina Simon

Subjects

autophagy, TFEB, human T cells, vaccine, spermidine, Medicine, Science, Biology (General), QH301-705.5

Abstract

Vaccines are powerful tools to develop immune memory to infectious diseases and prevent excess mortality. In older adults, however vaccines are generally less efficacious and the molecular mechanisms that underpin this remain largely unknown. Autophagy, a process known to prevent aging, is critical for the maintenance of immune memory in mice. Here, we show that autophagy is specifically induced in vaccine-induced antigen-specific CD8+ T cells in healthy human volunteers. In addition, reduced IFNγ secretion by RSV-induced T cells in older vaccinees correlates with low autophagy levels. We demonstrate that levels of the endogenous autophagy-inducing metabolite spermidine fall in human T cells with age. Spermidine supplementation in T cells from old donors recovers their autophagy level and function, similar to young donors’ cells, in which spermidine biosynthesis has been inhibited. Finally, our data show that endogenous spermidine maintains autophagy via the translation factor eIF5A and transcription factor TFEB. In summary, we have provided evidence for the importance of autophagy in vaccine immunogenicity in older humans and uncovered two novel drug targets that may increase vaccination efficiency in the aging context.

Published

2020

21. Humanized DRAGA mice immunized with Plasmodium falciparum sporozoites and chloroquine elicit protective pre-erythrocytic immunity

Author

Sai Majji, Wathsala Wijayalath, Soumya Shashikumar, Teodor D. Brumeanu, and Sofia Casares

Subjects

Humanized DRAGA mice, Plasmodium falciparum, Malaria, Human T cells, Antibodies, Chloroquine, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Human-immune-system humanized mouse models can bridge the gap between humans and conventional mice for testing human vaccines. The HLA-expressing humanized DRAGA (HLA-A2.HLA-DR4.Rag1KO.IL2RγcKO.NOD) mice reconstitute a functional human-immune-system and sustain the complete life cycle of Plasmodium falciparum. Herein, the DRAGA mice were investigated for immune responses following immunization with live P. falciparum sporozoites under chloroquine chemoprophylaxis (CPS-CQ), an immunization approach that showed in human trials to confer pre-erythrocytic immunity. Results The CPS-CQ immunized DRAGA mice (i) elicited human CD4 and CD8 T cell responses to antigens expressed by P. falciparum sporozoites (Pfspz) and by the infected-red blood cells (iRBC). The Pfspz-specific human T cell responses were found to be systemic (spleen and liver), whereas the iRBCs-specific human T cell responses were more localized to the liver, (ii) elicited stronger antibody responses to the Pfspz than to the iRBCs, and (iii) they were protected against challenge with infectious Pfspz but not against challenge with iRBCs. Conclusions The DRAGA mice represent a new pre-clinical model to investigate the immunogenicity and protective efficacy of P. falciparum malaria vaccine candidates.

Published

2018

22. A VHH-Based Anti-MUC1 Chimeric Antigen Receptor for Specific Retargeting of Human Primary T Cells to MUC1-Positive Cancer Cells.

Author

Rajabzadeh, Alireza, Rahbarizadeh, Fatemeh, Ahmadvand, Davoud, Salmani, Maryam Kabir, and Hamidieh, Amir Ali

Subjects

*CHIMERIC antigen receptors, *HUMAN T cells, *T cell receptors, *CANCER cells, *CYTOTOXIC T cells, *INTERLEUKIN-7, *T cells, *CELLULAR signal transduction

Abstract

Objective: Immunotherapy with redirected T cells that express a chimeric antigen receptor (CAR) is a promising prospect in cancer treatment. Most CARs use murine-derived single-chain variable fragments (scFvs) as an antigen targeting moiety, which may lead to host immunogenic responses and engineered T cell disappearance. It seems that development of less immunogenic CARs, such as CARs composed of the camelid variable domain of heavy chain antibodies (VHHs) may likely overcome this obstacle. Here, we improved the expression of the VHH-based anti-MUC1 CAR gene construct using a third generation lentiviral vector in primary human T cells and assessed its effect on antigen specific targeting, activation and cytotoxicity of redirected human T cells. Materials and Methods: In this experimental study, we established a second generation novel CAR (VHH-based anti- MUC1 CAR) that contained a camelid-derived anti-MUC1 VHH followed by an IgG3 hinge, a CD28 transmembrane domain and signalling endodomains of CD28 and CD3ζ. Next, we constructed lentiviral vectors that contained this CAR gene construct using an optimized transiently virus production method and transduced it into human T cells. Cell surface expression of CAR, cytokine secretion and cytotoxic activity were assessed in the transduced CD3+ T cells. Results: The transduced T cells had high levels of surface expression of CAR. T cells that expressed anti-MUC1 CAR showed significantly increased secretion of Th1 cytokines, including IL-2, TNF alpha and IFN-γ, as well as cytotoxic activity upon recognition of MUC1 on tumour cells after co-incubation with T47D or MCF-7 (MUC1-positive) compared with A431 (MUC1-negative) or untransduced T cells. Conclusion: Our results suggested that, given the unique properties of VHHs to prevent immunogenic responses and tonic signalling, our novel VHH-based anti-MUC1 CAR might be effective for clinical purposes in cancer immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2021

23. Interaction of perforin and granzyme B and HTLV-1 viral factors is associated with Adult T cell Leukemia development.

Author

Akbarin, Mohammad Mehdi, Farhadi, Sadegh, Allahyari, Abolghasem, Koshayar, Mohammad Mehdi, Shirdel, Abbas, Rahimi, Hossein, Rezaee, Seyed Abdolrahim, Mahdifar, Maryam, Mozaheb, Zahra, Mohamadi, Asadollah, Bari, Alireza, Mohaddes, Seyedeh Tahereh, and Rafatpanah, Houshang

Subjects

*GRANZYMES, *T cells, *HUMAN T cells, *BLOOD cells, *LEUKEMIA

Abstract

Objective(s): Human T cell leukaemia virus type 1 (HTLV-1) is associated with adult T cell leukaemia (ATL), a malignant lymphoproliferative disease that infects CD4 T cells. It is not clear why the majority of HTLV-1-infected individuals remain asymptomatic carries (ACs) and a minority develop ATL. Cellular immune response has a critical role in ATL and destroys malignant and HTLV-1-infected cells. Perforin and granzyme have important functional roles in apoptosis and destruction of infected cells. In the present study we examined the role of perforin and granzyme in ATL patients and ACs. Materials and Methods: Peripheral blood mononuclear cells (PBMCs) were isolated from ATL patients and ACs by using Ficoll-hypaque density centrifugation. RNA was extracted and cDNA was synthesized. A real-time PCR TaqMan method was designed and optimized for evaluation of perforin, granzyme, tax, and HBZ gene expression. HTLV-1 proviral load (PVL) was quantified in patients with ATL and ACs. Results: The mRNA expression of tax and HBZ was significantly higher in ATL patients than ACs (P=0.011 and P=0.0001,respectively). The HTLV-1 PVL was higher in ATL patients compared to with AC group (P=0.015). There was a significant increase in perforin gene expression in ACs compared with ATL patients (P=0.002). Furthermore, the expression of granzyme was also higher in ACs compared with ATL patients, and significant differences were observed between the two groups (P=0.036). Conclusion: Low expression of perforin and granzyme in ATL patients seems to influence the efficiency of CTL function and destruction of HTLV-1-infected cells, which might contribute to the disease pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2020

24. Hybrid Insulin Peptides Are Recognized by Human T Cells in the Context of DRB1*04:01.

Author

Arribas-Layton, David, Guyer, Perrin, Delong, Thomas, Dang, Mylinh, Chow, I-Ting, Speake, Cate, Greenbaum, Carla J., Kwok, William W., Baker, Rocky L., Haskins, Kathryn, and James, Eddie A.

Subjects

*HUMAN T cells, *PEPTIDES, *SECRETORY granules, *INSULIN, *T cell receptors, *POST-translational modification, *ANTIGEN-antibody reactions, *ANTIGENS, *COMPARATIVE studies, *TYPE 1 diabetes, *ISLANDS of Langerhans, *RESEARCH methodology, *MEDICAL cooperation, *RESEARCH, *T cells, *HLA-B27 antigen, *EVALUATION research

Abstract

T cells isolated from the pancreatic infiltrates of nonobese diabetic mice have been shown to recognize epitopes formed by the covalent cross-linking of proinsulin and secretory granule peptides. Formation of such hybrid insulin peptides (HIPs) was confirmed through mass spectrometry, and responses to HIPs were observed among the islet-infiltrating T cells of pancreatic organ donors and in the peripheral blood of individuals with type 1 diabetes (T1D). However, questions remain about the prevalence of HIP-specific T cells in humans, the sequences they recognize, and their role in disease. We identified six novel HIPs that are recognized in the context of DRB1*04:01, discovered by using a library of theoretical HIP sequences derived from insulin fragments covalently linked to one another or to fragments of secretory granule proteins or other islet-derived proteins. We demonstrate that T cells that recognize these HIPs are detectable in the peripheral blood of subjects with T1D and exhibit an effector memory phenotype. HIP-reactive T-cell clones produced Th1-associated cytokines and proliferated in response to human islet preparations. These results support the relevance of HIPs in human disease, further establishing a novel posttranslational modification that may contribute to the loss of peripheral tolerance in T1D. [ABSTRACT FROM AUTHOR]

Published

2020

25. Dermatopathic reaction of lymph nodes in HTLV‐1 carriers: a spectrum of reactive and neoplastic lesions.

Author

Chinen, Shigeki, Miyagi, Takuya, Murakami, Yoshiya, Takatori, Mitsuyoshi, Sakihama, Shugo, Nakazato, Iwao, Kariya, Yoshiyuki, Yamaguchi, Sayaka, Takahashi, Kenzo, and Karube, Kennosuke

Subjects

*HTLV, *LYMPH nodes, *HUMAN T cells

Abstract

Aims: Dermatopathic reaction is a histopathological finding of lymph nodes that usually occurs in patients with inflammatory pruritic cutaneous lesions. However, it is sometimes seen in patients with cutaneous T cell lymphoma. Adult T cell leukaemia/lymphoma (ATLL) is a T cell malignancy caused by infection with human T cell leukaemia virus type I (HTLV‐1), which is frequently accompanied by cutaneous lesions. However, the detailed clinicopathological characteristics of the dermatopathic reaction of lymph nodes in ATLL patients and HTLV‐1 carriers, addressed in this study, remains to be clarified. Methods and results: We retrospectively analysed 18 nodal lesions with dermatopathic reaction in HTLV‐1 carriers. Axillary and inguinal lymph nodes were the primary affected tissues. Three cases with atypical lymphoid cell infiltration were defined as ATLL with dermatopathic reaction (ATLL‐D), showing an abnormal T cell immunophenotype and T cell monoclonality. Two of the three ATLL‐D patients died 14 and 7 months after diagnosis (the third case had a very short follow‐up). The other 15 patients were indistinguishable from reactive lesions and were defined as HTLV‐1‐associated lymphadenitis with dermatopathic reaction (HAL‐D). They showed an indolent clinical course, with only one case eventually transforming to aggressive disease. Conclusions: Lymph node lesions accompanied by dermatopathic reaction in HTLV1 carriers represent a spectrum that includes reactive and neoplastic conditions. HAL‐D should be distinguished from ATLL‐D, especially to avoid overtreatment. [ABSTRACT FROM AUTHOR]

Published

2020

26. A conformation-specific ON-switch for controlling CAR T cells with an orally available drug.

Author

Zajc, Charlotte U., Dobersberger, Markus, Schaffner, Irene, Mlynek, Georg, Pühringer, Dominic, Salzer, Benjamin, Djinoviić-Carugo, Kristina, Steinberger, Peter, De Sousa Linhares, Annika, Yang, Nicole J., Obinger, Christian, Holter, Wolfgang, Traxlmayr, Michael W., and Lehner, Manfred

Subjects

*T cells, *SMALL molecules, *HUMAN T cells, *SCAFFOLD proteins, *CARRIER proteins

Abstract

Molecular ON-switches in which a chemical compound induces protein-protein interactions can allow cellular function to be controlled with small molecules. ON-switches based on clinically applicable compounds and human proteins would greatly facilitate their therapeutic use. Here, we developed an ON-switch system in which the human retinol binding protein 4 (hRBP4) of the lipocalin family interacts with engineered hRBP4 binders in a small molecule-dependent manner. Two different protein scaffolds were engineered to bind to hRBP4 when loaded with the orally available small molecule A1120. The crystal structure of an assembled ON-switch shows that the engineered binder specifically recognizes the conformational changes induced by A1120 in two loop regions of hRBP4. We demonstrate that this conformation-specific ON-switch is highly dependent on the presence of A1120, as demonstrated by an ~500-fold increase in affinity upon addition of the small molecule drug. Furthermore, the ON-switch successfully regulated the activity of primary human CAR T cells in vitro. We anticipate that lipocalin-based ON-switches have the potential to be broadly applied for the safe pharmacological control of cellular therapeutics. [ABSTRACT FROM AUTHOR]

Published

2020

27. A measuring method for occupancy of immune checkpoint inhibitors in the cell surface.

Author

Yanagihara, Toyoshi, Tanaka, Kentaro, and Matsumoto, Koichiro

Subjects

*IMMUNE checkpoint inhibitors, *CELL membranes, *PROGRAMMED cell death 1 receptors, *MONOCLONAL antibodies, *TREATMENT effectiveness, *HUMAN T cells

Abstract

Monoclonal antibodies, including immune-checkpoint inhibitors, are becoming popular in treatments of many cancers and connective tissue diseases. However, little is known about how long the antibodies combine with antigens on targeted cells or how this duration of binding associates with therapeutic efficacy or potential adverse events. Here, we show the principle and the results of a feasible method for measuring the antibodies' occupancy on the targeted cells using two different detecting antibodies in conjunction with different fluorochromes. Nivolumab occupancy was measured using two detecting antibodies, MIH4 and EH12.2, which are commercially available in vitro (programmed cell death-1 [PD-1] expressing the cell line MIT9 and human T cells) and in T cells from patients treated with nivolumab. Our method has potential for use as a simple and feasible monitoring system in the clinical setting. • Little is known about how to determine the cost-effective dose interval and duration of the immune checkpoint inhibitors. • We show the principle and developed a feasible method for measuring nivolumab occupancy for PD-1 on human T cells. • Our method has potential for use as a monitoring system in the clinical setting. [ABSTRACT FROM AUTHOR]

Published

2020

28. Evaluation of T-activated proteins as recall antigens to monitor Epstein-Barr virus and human cytomegalovirus-specific T cells in a clinical trial setting.

Author

Körber, Nina, Behrends, Uta, Protzer, Ulrike, and Bauer, Tanja

Subjects

*HUMAN cytomegalovirus, *HUMAN T cells, *EPSTEIN-Barr virus, *HEMATOPOIETIC stem cell transplantation, *CLINICAL trials, *PEPTIDOMIMETICS, *HEMATOPOIESIS

Abstract

Background: Pools of overlapping synthetic peptides are routinely used for ex vivo monitoring of antigen-specific T-cell responses. However, it is rather unlikely that these peptides match those resulting from naturally processed antigens. T-activated proteins have been described as immunogenic and more natural stimulants, since they have to pass through antigen processing and comprise activation of all clinically relevant effector cell populations.Methods: We performed comparative analysis of numbers and cytokine expression pattern of CD4 and CD8 T cells after stimulation with recombinant, urea-formulated T-activated EBV-BZLF1, -EBNA3A, and HCMV-IE1, and -pp65 proteins or corresponding overlapping peptide pools. Freshly isolated and cryopreserved PBMC of 30 EBV- and 19 HCMV-seropositive and seven EBV- and HCMV-seronegative subjects were stimulated ex vivo and analysed for IFN-γ, TNF and IL-2 production by flow cytometry-based intracellular cytokine staining.Results: T-activated proteins showed a high specificity of 100% (EBV-BZLF1, HCMV-IE1, and -pp65) and 86% (EBV-EBNA3A), and a high T-cell stimulatory capacity of 73-95% and 67-95% using freshly isolated and cryopreserved PBMC, respectively. The overall CD4 T-cell response rates in both cohorts were comparable after stimulation with either T-activated protein or peptide pools with the exception of lower numbers of CD8 T cells detected after stimulation with T-activated EBV-EBNA3A- (p = 0.038) and HCMV-pp65- (p = 0.0006). Overall, the number of detectable antigen-specific T cells varied strongly between individuals. Cytokine expression patterns in response to T-activated protein and peptide pool-based stimulation were similar for CD4, but significantly different for CD8 T-cell responses.Conclusion: EBV and HCMV-derived T-activated proteins represent innovative, highly specific recall antigens suitable for use in immunological endpoint assays to evaluate success or failure in immunotherapy clinical trials (e.g. to assess the risk of EBV and/or HCMV reactivation after allogenic hematopoietic stem cell transplantation). T-activated proteins could be of particular importance, if an impaired antigen processing (e.g. in a post-transplant setting) must be taken into account. [ABSTRACT FROM AUTHOR]

Published

2020

29. Mouse Double Minute 2 Homolog-Mediated Ubiquitination Facilitates Forkhead Box P3 Stability and Positively Modulates Human Regulatory T Cell Function.

Author

Wang, Aiting, Yang, Mengdi, Liang, Rui, Zhu, Fangming, Zhu, Fuxiang, Liu, Xinnan, Han, Yichao, Lin, Ruirong, Wang, Xiaoxia, Li, Dan, Li, Hecheng, Yuan, Xiaojun, Zhao, Hui, and Li, Bin

Subjects

SUPPRESSOR cells, CELL physiology, UBIQUITIN ligases, HUMAN T cells, UBIQUITINATION

Abstract

Regulatory T cells (Treg cells) are essential for maintaining immune tolerance, and the dysfunction of Treg cells may cause autoimmune diseases and tumors. Forkhead box P3 (FOXP3) is the key transcription factor controlling Treg cell development and suppressive function. Mouse double minute 2 homolog (MDM2), an E3 ubiquitin ligase, has been identified as an oncoprotein that mediates the ubiquitination and degradation of tumor suppressor p53; however, whether it has functions in Treg cells remains unknown. Here, we demonstrate that MDM2 positively regulates human Treg cell suppressive function via its mediated ubiquitination and stabilization of FOXP3. Knockdown of MDM2 with shRNA in human primary Treg cells leads to the impaired ability of FOXP3 to regulate the expression levels of downstream genes and the attenuated suppressive capacity of Treg cells, due to FOXP3 instability. Consistently, MDM2 overexpression in human Treg cells enhances FOXP3 stability and Treg cell suppressive capacity. Mechanistically, MDM2 interacts with FOXP3, and mainly mediates monoubiquitination and polyubiquitination of FOXP3, thus stabilizing the protein level of FOXP3. We have also found lysine residues in FOXP3 required for MDM2-mediated ubiquitination. In addition, TCR/CD28 signaling upregulates the expression level of MDM2 and its mediated FOXP3 ubiquitination in human Treg cells. Therefore, our findings reveal that MDM2 in Treg cells could be a potential therapeutic target for treating autoimmune diseases and tumors. [ABSTRACT FROM AUTHOR]

Published

2020

30. MHC class II invariant chain–adjuvanted viral vectored vaccines enhances T cell responses in humans.

Author

Esposito, Ilaria, Cicconi, Paola, D'Alise, Anna Morena, Brown, Anthony, Esposito, Marialuisa, Swadling, Leo, Holst, Peter Johannes, Bassi, Maria Rosaria, Stornaiuolo, Mariano, Mori, Federica, Vassilev, Ventzislav, Li, Wenqin, Donnison, Timothy, Gentile, Chiara, Turner, Bethany, von Delft, Annette, Del Sorbo, Mariarosaria, Barra, Federica, Contino, Alessandra Maria, and Abbate, Adele

Subjects

CYTOTOXIC T cells, VIRAL vaccines, ANTIGEN presenting cells, HUMAN T cells, GENETIC vectors, UBIQUITINATION, T cells

Abstract

Tempting T cells: Strategies to induce T cell responses during vaccination are difficult to execute. Esposito et al. tested a vaccine that uses the MHC class II invariant chain (Ii), important for antigen presentation to T cells, as an adjuvant in healthy volunteers. The prime-boost strategy involved viral vectors and nonstructural antigens from hepatitis C virus. Inclusion of Ii boosted the magnitude and breadth of the T cell response. Work in a mouse vaccination model demonstrated that the Ii adjuvant enhanced proteasomal degradation of the vaccine antigens. This promising platform could be used to tempt T cells into vaccine responses, potentially resulting in successful vaccines for diseases that cannot be tackled with conventional antibody-driven vaccine protection. Strategies to enhance the induction of high magnitude T cell responses through vaccination are urgently needed. Major histocompatibility complex (MHC) class II–associated invariant chain (Ii) plays a critical role in antigen presentation, forming MHC class II peptide complexes for the generation of CD4+ T cell responses. Preclinical studies evaluating the fusion of Ii to antigens encoded in vector delivery systems have shown that this strategy may enhance T cell immune responses to the encoded antigen. We now assess this strategy in humans, using chimpanzee adenovirus 3 and modified vaccinia Ankara vectors encoding human Ii fused to the nonstructural (NS) antigens of hepatitis C virus (HCV) in a heterologous prime/boost regimen. Vaccination was well tolerated and enhanced the peak magnitude, breadth, and proliferative capacity of anti-HCV T cell responses compared to non-Ii vaccines in humans. Very high frequencies of HCV-specific T cells were elicited in humans. Polyfunctional HCV-specific CD8+ and CD4+ responses were induced with up to 30% of CD3+CD8+ cells targeting single HCV epitopes; these were mostly effector memory cells with a high proportion expressing T cell activation and cytolytic markers. No volunteers developed anti-Ii T cell or antibody responses. Using a mouse model and in vitro experiments, we show that Ii fused to NS increases HCV immune responses through enhanced ubiquitination and proteasomal degradation. This strategy could be used to develop more potent HCV vaccines that may contribute to the HCV elimination targets and paves the way for developing class II Ii vaccines against cancer and other infections. [ABSTRACT FROM AUTHOR]

Published

2020

31. Piperlongumine Acts as an Immunosuppressant by Exerting Prooxidative Effects in Human T Cells Resulting in Diminished TH17 but Enhanced Treg Differentiation.

Author

Liang, Jie, Ziegler, Jacqueline D., Jahraus, Beate, Orlik, Christian, Blatnik, Renata, Blank, Norbert, Niesler, Beate, Wabnitz, Guido, Ruppert, Thomas, Hübner, Katrin, Balta, Emre, and Samstag, Yvonne

Subjects

HUMAN T cells, T cells, T helper cells, BLOOD cells, SMALL molecules, INTERLEUKIN-7

Abstract

Piperlongumine (PL), a natural small molecule derived from the Piper longum Linn plant, has received growing interest as a prooxidative drug with promising anticancer properties. Yet, the influence of PL on primary human T cells remained elusive. Knowledge of this is of crucial importance, however, since T cells in particular play a critical role in tumor control. Therefore, we investigated the effects of PL on the survival and function of primary human peripheral blood T cells (PBTs). While PL was not cytotoxic to PBTs, it interfered with several stages of T cell activation as it inhibited T cell/APC immune synapse formation, co-stimulation-induced upregulation of CD69 and CD25, T cell proliferation and the secretion of proinflammatory cytokines. PL-induced immune suppression was prevented in the presence of thiol-containing antioxidants. In line with this finding, PL increased the levels of intracellular reactive oxygen species and decreased glutathione in PBTs. Diminished intracellular glutathione was accompanied by a decrease in S-glutathionylation on actin suggesting a global alteration of the antioxidant response. Gene expression analysis demonstrated that TH17-related genes were predominantly inhibited by PL. Consistently, the polarization of primary human naïve CD4+ T cells into TH17 subsets was significantly diminished while differentiation into Treg cells was substantially increased upon PL treatment. This opposed consequence for TH17 and Treg cells was again abolished by thiol-containing antioxidants. Taken together, PL may act as a promising agent for therapeutic immunosuppression by exerting prooxidative effects in human T cells resulting in a diminished TH17 but enhanced Treg cell differentiation. [ABSTRACT FROM AUTHOR]

Published

2020

32. Differential Cytotoxic Function of Resident and Non-resident CD8+ T Cells in the Human Female Reproductive Tract Before and After Menopause.

Author

Rodriguez-Garcia, Marta, Shen, Zheng, Fortier, Jared M., and Wira, Charles R.

Subjects

GENITALIA, GRANZYMES, HUMAN T cells, POSTMENOPAUSE, T cells, MENOPAUSE

Abstract

The functional characterization and regulation of tissue resident and non-resident CD8+ T cells in the human female reproductive tract (FRT) as women age remains a gap in our knowledge. Here we characterized the cytotoxic activity and granular contents of CD8+ T cells from the FRT in pre- and postmenopausal women. We found that under steady-state conditions, CD8+ T cells from endometrium (EM), endocervix and ectocervix displayed direct cytotoxic activity, and that cytotoxicity increased in the EM after menopause. Cytotoxic activity was sensitive to suppression by TGFβ exclusively in the EM, and sensitivity to TGFβ was reduced after menopause. Under steady-state conditions, cytotoxic activity (measured as direct killing activity), cytotoxic potential (measured as content of cytotoxic molecules) and proliferation are enhanced in non-resident CD8+ (CD103−) T cells compared to tissue resident (CD103+) T cells. Upon activation, CD103+ T cells displayed greater degranulation compared to CD103− T cells, however the granular content of perforin, granzyme A (GZA) or granzyme B (GZB) was significantly lower. After menopause, degranulation significantly increased, and granular release switched from predominantly GZB in premenopausal to GZA in postmenopausal women. Postmenopausal changes affected both CD103+ and CD103− subpopulations. Finally, CD103+ T cells displayed reduced proliferation compared to CD103− T cells, but after proliferation, cytotoxic molecules were similar in each population. Our results highlight the complexity of regulation of cytotoxic function in the FRT before and after menopause, and are relevant to the development of protective strategies against genital infections and gynecological cancers as women age. [ABSTRACT FROM AUTHOR]

Published

2020

33. Metabolic characteristics of CD8+ T cell subsets in young and aged individuals are not predictive of functionality.

Author

Quinn, Kylie M., Hussain, Tabinda, Kraus, Felix, Formosa, Luke E., Lam, Wai K., Dagley, Michael J., Saunders, Eleanor C., Assmus, Lisa M., Wynne-Jones, Erica, Loh, Liyen, van de Sandt, Carolien E., Cooper, Lucy, Good-Jacobson, Kim L., Kedzierska, Katherine, Mackay, Laura K., McConville, Malcolm J., Ramm, Georg, Ryan, Michael T., and La Gruta, Nicole L.

Subjects

FATTY acid oxidation, HUMAN T cells, CELL physiology, CELLULAR aging, CELL metabolism, T cells

Abstract

Virtual memory T (TVM) cells are antigen-naïve CD8+ T cells that exist in a semi-differentiated state and exhibit marked proliferative dysfunction in advanced age. High spare respiratory capacity (SRC) has been proposed as a defining metabolic characteristic of antigen-experienced memory T (TMEM) cells, facilitating rapid functionality and survival. Given the semi-differentiated state of TVM cells and their altered functionality with age, here we investigate TVM cell metabolism and its association with longevity and functionality. Elevated SRC is a feature of TVM, but not TMEM, cells and it increases with age in both subsets. The elevated SRC observed in aged mouse TVM cells and human CD8+ T cells from older individuals is associated with a heightened sensitivity to IL-15. We conclude that elevated SRC is a feature of TVM, but not TMEM, cells, is driven by physiological levels of IL-15, and is not indicative of enhanced functionality in CD8+ T cells. Fatty acid oxidation (FAO) is thought to contribute to high spare respiratory capacity (SRC), which in turn affects CD8+ T cell function. Here, the authors show that ex vivo virtual memory T cells (and not antigen experienced memory T cells) have high SRC, a metabolic state that it is affected by ageing and IL-15 signalling and not directly by FAO. [ABSTRACT FROM AUTHOR]

Published

2020

34. Construction and Functional Characterization of a Fully Human Anti-mesothelin Chimeric Antigen Receptor (CAR)-expressing T Cell.

Author

Jafarzadeh, Leila, Masoumi, Elham, Alishah, Khadijeh, Mirzaei, Hamid Reza, Jamali, Arezoo, Fallah-Mehrjardi, Keyvan, Rostamian, Hosein, Khakpoor-Koosheh, Mohammad, Meshkani, Reza, Noorbakhsh, Farshid, and Hadjati, Jamshid

Subjects

*CHIMERIC antigen receptors, *T cells, *GASTROINTESTINAL tumors, *HUMAN T cells, *PANCREATIC tumors, *AGROBACTERIUM tumefaciens

Abstract

Chimeric antigen receptor (CAR) T cell therapy is considered as an encouraging approach for the treatment of hematological malignancies. However, its efficacy in solid tumors has not been satisfying, mainly in the immunosuppressive network of the tumor microenvironment and paucity of appropriate target antigens. Mesothelin (MSLN) is a tumor-associated antigen (TAA) expressed in numerous types of solid tumors such as gastrointestinal, ovarian, and pancreatic tumors. Owing to high expression in tumor cells and low expression in normal tissues, MSLN-targeted therapies like monoclonal antibodies have been previously developed. In the present study, a CAR T cell harboring the second-generation of a fully human anti-MSLNCAR construct containing CD3ζ and 4-1BB signaling domains was produced and it was functionally evaluated against an MSLN-expressing cell line. The findings showed potent, specific proliferation, cytotoxic activity, and interleukin (IL)-2, Tumor necrosis factor-(TNF) α, and Interferon-(IFN) γ production in an antigen-dependent manner. Cytotoxic activity was shown in effector-to-target ratio from 1:1 to 20:1, but the most adequate efficacy was observed in the ratio of 10:1. Non-specific activity against MSLN negative cell line was not observed. Our data demonstrated that primary human T cells expressing fully human MSLN-CAR construct are effective against MSLN-expressing cell lines in vitro, suggesting this MSLN-CAR construct as a potential therapeutic tool in a clinical setting. [ABSTRACT FROM AUTHOR]

Published

2020

35. Human unconventional T cells in Plasmodium falciparum infection.

Author

Schmaler, Mathias, Orlova-Fink, Nina, Rutishauser, Tobias, Abdulla, Salim, and Daubenberger, Claudia

Subjects

*HUMAN T cells, *PLASMODIUM falciparum, *CYTOLOGY, *MALARIA vaccines, *MALARIA

Abstract

Malaria is an old scourge of humankind and has a large negative impact on the economic development of affected communities. Recent success in malaria control and reduction of mortality seems to have stalled emphasizing that our current intervention tools need to be complemented by malaria vaccines. Different populations of unconventional T cells such as mucosal-associated invariant T (MAIT) cells, invariant natural killer T (iNKT) cells and γδ T cells are gaining attention in the field of malaria immunology. Significant advances in our basic understanding of unconventional T cell biology in rodent malaria models have been made, however, their roles in humans during malaria are less clear. Unconventional T cells are abundant in skin, gut and liver tissues, and long-lasting expansions and functional alterations were observed upon malaria infection in malaria naïve and malaria pre-exposed volunteers. Here, we review the current understanding of involvement of unconventional T cells in anti-Plasmodium falciparum immunity and highlight potential future research avenues. [ABSTRACT FROM AUTHOR]

Published

2020

36. A novel cyclic peptide targeting LAG-3 for cancer immunotherapy by activating antigen-specific CD8+ T cell responses.

Author

Zhai, Wenjie, Zhou, Xiuman, Wang, Hongfei, Li, Wanqiong, Chen, Guanyu, Sui, Xinghua, Li, Guodong, Qi, Yuanming, and Gao, Yanfeng

Subjects

T cells, HISTOCOMPATIBILITY antigens, IMMUNOTHERAPY, SUPPRESSOR cells, HUMAN T cells, TUMOR microenvironment

Abstract

PD-1 and CTLA-4 antibodies offer great hope for cancer immunotherapy. However, many patients are incapable of responding to PD-1 and CTLA-4 blockade and show low response rates due to insufficient immune activation. The combination of checkpoint blockers has been proposed to increase the response rates. Besides, antibody drugs have disadvantages such as inclined to cause immune-related adverse events and infiltration problems. In this study, we developed a cyclic peptide C25 by using Ph.D.-C7C phage display technology targeting LAG-3. As a result, C25 showed a relative high affinity with human LAG-3 protein and could effectively interfere the binding between LAG-3 and HLA-DR (MHC-II). Additionally, C25 could significantly stimulate CD8+ T cell activation in human PBMCs. The results also demonstrated that C25 could inhibit tumor growth of CT26, B16 and B16-OVA bearing mice, and the infiltration of CD8+ T cells was significantly increased while FOXP3+ Tregs significantly decreased in the tumor site. Furthermore, the secretion of IFN- γ by CD8+ T cells in spleen, draining lymph nodes and especially in the tumors was promoted. Simultaneously, we exploited T cells depletion models to study the anti-tumor mechanisms for C25 peptide, and the results combined with MTT assay confirmed that C25 exerted anti-tumor effects via CD8+ T cells but not direct killing. In conclusion, cyclic peptide C25 provides a rationale for targeting the immune checkpoint, by blockade of LAG-3/HLA-DR interaction in order to enhance anti-tumor immunity, and C25 may provide an alternative for cancer immunotherapy besides antibody drugs. Cyclic peptide C25 targeting LAG-3 was developed by phage display bio-panning. C25 binds to LAG-3 and is capable of preventing the binding of LAG-3 to HLA-DR. C25 exhibits significant anti-tumor activity dependent on CD8+ T cells activation. Surprisingly, it can also lead to the reduction of Tregs in tumor microenvironment. Image 1 [ABSTRACT FROM AUTHOR]

Published

2020

37. TCR repertoire analysis reveals phosphoantigen‐induced polyclonal proliferation of Vγ9Vδ2 T cells in neonates and adults.

Author

Fichtner, Alina S, Bubke, Anja, Rampoldi, Francesca, Wilharm, Anneke, Tan, Likai, Steinbrück, Lars, Schultze‐Florey, Christian, Kaisenberg, Constantin, Prinz, Immo, Herrmann, Thomas, and Ravens, Sarina

Subjects

T cell receptors, T cells, NEWBORN infants, ADULTS, HUMAN T cells, NUCLEOTIDE sequencing

Abstract

The Vγ9Vδ2 T cell subset is the major γδ T cell subset in human peripheral blood and has the unique ability to contribute to immune surveillance by detecting pyrophosphorylated metabolites of isoprenoid synthesis, termed phosphoantigens (pAgs). Vγ9Vδ2 T cells are first detected at midgestation and show postnatal expansion. Interestingly, neonatal Vγ9Vδ2 T cells display a higher TCR repertoire diversity with more public clonotypes and lower pAg responsiveness than in adults. Notably, it is not known whether postnatal changes occur by TCR‐dependent reactivity to pAg exposure. Here, we applied next‐generation sequencing of γδ TCR repertoires to understand potential differences in the pAg‐mediated response of neonatal and adult Vγ9Vδ2 T cells at the level of the expressed γδ TCR. We observed a polyclonal pAg‐induced response of neonatal and adult Vγ9Vδ2 T cells, albeit neonatal γδ T cells showed less in vitro pAg responsiveness. Neonatal Vγ9Vδ2 T cells displayed a less pronounced bias for Jδ1 usage and a more frequent use of Jδ2 or Jδ3 that remained stable after pAg exposure. In addition, public and private Vδ2 TRD clones took part in the polyclonal pAg‐induced response in neonates and adults. In conclusion, adult and neonatal Vγ9Vδ2 T cells both undergo polyclonal pAg‐induced proliferation, whereas especially adult Vγ9Vδ2 T cells display a high stability at the level of the expressed TCR repertoire. [ABSTRACT FROM AUTHOR]

Published

2020

38. Gene editing to induce FOXP3 expression in human CD4+ T cells leads to a stable regulatory phenotype and function.

Author

Honaker, Yuchi, Hubbard, Nicholas, Xiang, Yufei, Fisher, Logan, Hagin, David, Sommer, Karen, Song, Yumei, Yang, Soo Jung, Lopez, Christina, Tappen, Tori, Dam, Elizabeth M., Khan, Iram, Hale, Malika, Buckner, Jane H., Scharenberg, Andrew M., Torgerson, Troy R., and Rawlings, David J.

Subjects

HUMAN T cells, GENOME editing, SUPPRESSOR cells, GRAFT versus host disease, T cells

Abstract

Enforced editing: Various autoimmune diseases could potentially be treated with regulatory T cells (Tregs), but there are many hurdles between this idea and clinical execution. Honaker et al. devised a gene-editing strategy to enforce expression of FOXP3, the master Treg transcription factor, in CD4+ T cells isolated from human peripheral blood, thereby overcoming limitations of Treg isolation and expansion. Resulting stable FOXP3 expression enabled a suppressive phenotype in vitro, and the edited cells were also functional in a xenogeneic graft-versus-host disease model and an experimental autoimmune encephalitis model. This approach has the potential to rapidly translate to clinical use. Thymic regulatory T cells (tTregs) are potent inhibitors of autoreactive immune responses, and loss of tTreg function results in fatal autoimmune disease. Defects in tTreg number or function are also implicated in multiple autoimmune diseases, leading to growing interest in use of Treg as cell therapies to establish immune tolerance. Because tTregs are present at low numbers in circulating blood and may be challenging to purify and expand and also inherently defective in some subjects, we designed an alternative strategy to create autologous Treg-like cells from bulk CD4+ T cells. We used homology-directed repair (HDR)–based gene editing to enforce expression of FOXP3, the master transcription factor for tTreg. Targeted insertion of a robust enhancer/promoter proximal to the first coding exon bypassed epigenetic silencing, permitting stable and robust expression of endogenous FOXP3. HDR-edited T cells, edTregs, manifested a transcriptional program leading to sustained expression of canonical markers and suppressive activity of tTreg. Both human and murine edTregs mediated immunosuppression in vivo in models of inflammatory disease. Further, this engineering strategy permitted generation of antigen-specific edTreg with robust in vitro and in vivo functional activity. Last, edTreg could be enriched and expanded at scale using clinically relevant methods. Together, these findings suggest that edTreg production may permit broad future clinical application. [ABSTRACT FROM AUTHOR]

Published

2020

39. The CD4+ T Cell Response to Human Cytomegalovirus in Healthy and Immunocompromised People.

Author

Lim, Eleanor Y., Jackson, Sarah E., and Wills, Mark R.

Subjects

HUMAN cytomegalovirus, HUMAN T cells, ANTIGEN presenting cells, T cells, STEM cell transplantation, VIRAL genes, TRANSPLANTATION of organs, tissues, etc.

Abstract

While CD8+ T cells specific for human cytomegalovirus (HCMV) have been extensively studied in both healthy HCMV seropositive carriers and patients undergoing immunosuppression, studies on the CD4+ T cell response to HCMV had lagged behind. However, over the last few years there has been a significant advance in our understanding of the importance and contribution that CMV-specific CD4+ T cells make, not only to anti-viral immunity but also in the potential maintenance of latently infected cells. During primary infection with HCMV in adults, CD4+ T cells are important for the resolution of symptomatic disease, while persistent shedding of HCMV into urine and saliva is associated with a lack of HCMV specific CD4+ T cell response in young children. In immunosuppressed solid organ transplant recipients, a delayed appearance of HCMV-specific CD4+ T cells is associated with prolonged viremia and more severe clinical disease, while in haematopoietic stem cell transplant recipients, it has been suggested that HCMV-specific CD4+ T cells are required for HCMV-specific CD8+ T cells to exert their anti-viral effects. In addition, adoptive T-cell immunotherapy in transplant patients has shown that the presence of HCMV-specific CD4+ T cells is required for the maintenance of HCMV-specific CD8+ T cells. HCMV is a paradigm for immune evasion. The presence of viral genes that down-regulate MHC class II molecules and the expression of viral IL-10 both limit antigen presentation to CD4+ T cells, underlining the important role that this T cell subset has in antiviral immunity. This review will discuss the antigen specificity, effector function, phenotype and direct anti-viral properties of HCMV specific CD4+ T cells, as well as reviewing our understanding of the importance of this T cell subset in primary infection and long-term carriage in healthy individuals. In addition, their role and importance in congenital HCMV infection and during immunosuppression in both solid organ and haemopoietic stem cell transplantation is considered. [ABSTRACT FROM AUTHOR]

Published

2020

40. Successful Regulatory T Cell-Based Therapy Relies on Inhibition of T Cell Effector Function and Enrichment of FOXP3+ Cells in a Humanized Mouse Model of Skin Inflammation.

Author

Landman, S., de Oliveira, V. L., Peppelman, M., Fasse, E., van Rijssen, E., Bauland, S. C., van Erp, P., Joosten, I., and Koenen, H. J. P. M.

Subjects

*SKIN inflammation, *T cells, *CELL physiology, *SUPPRESSOR cells, *NLRP3 protein, *HUMAN T cells

Abstract

Background: Recent clinical trials using regulatory T cells (Treg) support the therapeutic potential of Treg-based therapy in transplantation and autoinflammatory diseases. Despite these clinical successes, the effect of Treg on inflamed tissues, as well as their impact on immune effector function in vivo, is poorly understood. Therefore, we here evaluated the effect of human Treg injection on cutaneous inflammatory processes in vivo using a humanized mouse model of human skin inflammation (huPBL-SCID-huSkin).Methods: SCID beige mice were transplanted with human skin followed by intraperitoneal (IP) injection of 20-40 × 106 allogeneic human PBMCs. This typically results in human skin inflammation as indicated by epidermal thickening (hyperkeratosis) and changes in dermal inflammatory markers such as the antimicrobial peptide hBD2 and epidermal barrier cytokeratins K10 and K16, as well as T cell infiltration in the dermis. Ex vivo-expanded human Treg were infused intraperitoneally. Human cutaneous inflammation and systemic immune responses were analysed by immunohistochemistry and flow cytometry.Results: We confirmed that human Treg injection inhibits skin inflammation and the influx of effector T cells. As a novel finding, we demonstrate that human Treg injection led to a reduction of IL-17-secreting cells while promoting a relative increase in immunosuppressive FOXP3+ Treg in the human skin, indicating active immune regulation in controlling the local proinflammatory response. Consistent with the local control (skin), systemically (splenocytes), we observed that Treg injection led to lower frequencies of IFNγ and IL-17A-expressing human T cells, while a trend towards enrichment of FOXP3+ Treg was observed.Conclusion: Taken together, we demonstrate that inhibition of skin inflammation by Treg infusion, next to a reduction of infiltrating effector T cells, is mediated by restoring both the local and systemic balance between cytokine-producing effector T cells and immunoregulatory T cells. This work furthers our understanding of Treg-based immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2020

41. Phosphoproteomics of CD2 signaling reveals AMPK-dependent regulation of lytic granule polarization in cytotoxic T cells.

Author

Zurli, Vanessa, Montecchi, Tommaso, Heilig, Raphael, Poschke, Isabel, Volkmar, Michael, Wimmer, Giuliana, Boncompagni, Gioia, Turacchio, Gabriele, D'Elios, Mario Milco, Campoccia, Giuseppe, Resta, Nicoletta, Offringa, Rienk, Fischer, Roman, Acuto, Oreste, Baldari, Cosima Tatiana, and Kabanova, Anna

Subjects

CYTOTOXIC T cells, T cell receptors, T cells, HUMAN T cells, B cells, SYNAPTOGENESIS

Abstract

AMPing up cytotoxicity: Cytotoxic T cells (CTLs) form an immune synapse at the interface formed with their target cells and then reorient intracellular lytic granules toward the contact site to ensure efficient killing. Zurli et al. found that stimulation of the receptor CD2 on CTLs by CD58 on target B cells enhanced T cell receptor signaling during immune synapse formation. Phosphoproteomics analysis showed that CD2 stimulation led to activation of the metabolism-regulating kinase AMPK on lysosomes, which promoted lytic granule translocation to the immune synapse. Together, these findings suggest that targeting the CD2-AMPK axis may enhance CTL activity. Understanding the costimulatory signaling that enhances the activity of cytotoxic T cells (CTLs) could identify potential targets for immunotherapy. Here, we report that CD2 costimulation plays a critical role in target cell killing by freshly isolated human CD8+ T cells, which represent a challenging but valuable model to gain insight into CTL biology. We found that CD2 stimulation critically enhanced signaling by the T cell receptor in the formation of functional immune synapses by promoting the polarization of lytic granules toward the microtubule-organizing center (MTOC). To gain insight into the underlying mechanism, we explored the CD2 signaling network by phosphoproteomics, which revealed 616 CD2-regulated phosphorylation events in 373 proteins implicated in the regulation of vesicular trafficking, cytoskeletal organization, autophagy, and metabolism. Signaling by the master metabolic regulator AMP-activated protein kinase (AMPK) was a critical node in the CD2 network, which promoted granule polarization toward the MTOC in CD8+ T cells. Granule trafficking was driven by active AMPK enriched on adjacent lysosomes, revealing previously uncharacterized signaling cross-talk between vesicular compartments in CD8+ T cells. Our results thus establish CD2 signaling as key for mediating cytotoxic killing and granule polarization in freshly isolated CD8+ T cells and strengthen the rationale to choose CD2 and AMPK as therapeutic targets to enhance CTL activity. [ABSTRACT FROM AUTHOR]

Published

2020

42. Complement and human T cell metabolism: Location, location, location.

Author

West, Erin E., Kunz, Natalia, and Kemper, Claudia

Subjects

*HUMAN T cells, *CELL metabolism, *CELL physiology, *CELLULAR control mechanisms, *METABOLIC regulation

Abstract

The complement system represents one of the evolutionary oldest arms of our immune system and is commonly recognized as a liver‐derived and serum‐active system critical for providing protection against invading pathogens. Recent unexpected findings, however, have defined novel and rather "uncommon" locations and activities of complement. Specifically, the discovery of an intracellularly active complement system—the complosome—and its key role in the regulation of cell metabolic pathways that underly normal human T cell responses have taught us that there is still much to be discovered about this system. Here, we summarize the current knowledge about the emerging functions of the complosome in T cell metabolism. We further place complosome activities among the non‐canonical roles of other intracellular innate danger sensing systems and argue that a "location‐centric" view of complement evolution could logically justify its close connection with the regulation of basic cell physiology. [ABSTRACT FROM AUTHOR]

Published

2020

43. LncRNAs related key pathways and genes in ischemic stroke by weighted gene co-expression network analysis (WGCNA).

Author

Wang, Min, Wang, Lijuan, Pu, Liyuan, Li, Kexin, Feng, Tianyu, Zheng, Pingping, Li, Shuo, Sun, Mengzi, Yao, Yan, and Jin, Lina

Subjects

*GENE regulatory networks, *GENES, *HUMAN T cells, *STROKE, *NON-coding RNA

Abstract

Ischemic stroke (IS) was a significant public health concern and long-chain noncoding RNAs (lncRNAs) were gaining particular importance in stroke biology, however, the potential mechanism of lncRNAs in IS was not fully understood. In this study, three diagnosed patients with IS and three controls were selected to establish the lncRNA library. Weighted gene co-expression network analysis (WGCNA) was applied to screen key lncRNA modules associated with IS. The key lncRNAs were identified by module membership (MM) and gene significance (GS). The Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis was used to identify the key pathways and protein-protein interaction (PPI) network method was used to identify the key genes. A total of 3627 lncRNAs were investigated, followed by an analysis of 17 modules, and only one module was highly associated with the IS. The top 10 lncRNAs were identified based on GS and MM. KEGG pathways analysis revealed the top two pathways of the Human T cell Lymphotropic Virus-1 (HTLV-1) infection and the mTOR signaling pathway might influence the progress of IS. Further, genes meeting the top two degree (AKT1 and MAPK14) were selected as the hub genes in the PPI network. To summarize, this study identified the key pathways and genes, which might serve as biomarkers and targets for precise diagnosis and treatment of IS in the future. • Only greenyellow module had the highest association with IS. • The HTLV-1 infection pathway and mTOR signaling pathway are correlated with IS. • Two hub genes (AKT1 and MAPK14) might be the key genes correlated with IS. [ABSTRACT FROM AUTHOR]

Published

2020

44. Minicircle DNA-Mediated CAR T Cells Targeting CD44 Suppressed Hepatocellular Carcinoma Both in vitro and in vivo.

Author

Wang, Hezhi, Ye, Xueshuai, Ju, Yi, Cai, Ziqi, Wang, Xiaoxiao, Du, Pingping, Zhang, Mengya, Li, Yang, and Cai, Jianhui

Subjects

*T cells, *HEPATOCELLULAR carcinoma, *CANCER stem cells, *HUMAN T cells

Abstract

Purpose: Based on the continuous exploration of solid tumor immunotherapy, we focused on hepatocellular carcinoma with a high level of morbidity and mortality. We confirm the stability of mcDNA-based CAR T cell generating platform, and investigate the antitumor activity of CD44-CAR T cells against hepatocellular carcinoma both in vitro and in vivo. Materials and Methods: We fused anti-CD44 scFv structure with transmembrane domain and intracellular domain. Using a non-viral mcDNA vector to load CD44-CAR gene, then transfected the mcDNA-CD44-CAR into human T cells by electroporation. We exhibited the transfection efficacy of CAR T cells and the CD44 expression of tumor cell lines by flow cytometry. The antitumor efficacy of CD44-CAR T cells in vitro and in vivo was detected through CCK-8 and ELISA assays, and xenograft mouse models, respectively. Results: We obtained mcDNA-CD44-CAR with a high level of density after repeated extraction and purification. The expression efficacy of CD44-CAR in T cells was more than 50% after seven days electroporation and the phenotype of CD44-CAR T cells was no difference compared with normal T cells. For CD44-positive hepatocellular carcinoma xenograft mice, CD44-CAR T cells had stronger tumor growth suppression compared to normal T and mock T cells. The same results occurred on the in vitro experiments including cytokine secretion and cytotoxicity assays. H&E staining graphs revealed that CD44-CAR T cells did not induce side effects in xenograft mice. Conclusion: The strategy for generating CAR T cells targeting cancer stem cell antigens was efficient and concise. The mcDNA had superior transgene ability without virus-related adverse effects. CD44-CAR T cells had strong suppression capacity against hepatocellular carcinoma. [ABSTRACT FROM AUTHOR]

Published

2020

45. In vitro Conversion into CD4+CD25+Foxp3+ Induced Regulatory T Cells Is Reduced in Atopic Dermatitis Patients.

Author

García, Eva-Maria, Galicia-Carreón, Jorge, and Novak, Natalija

Subjects

*SUPPRESSOR cells, *ATOPIC dermatitis, *T cells, *IMMUNOSUPPRESSION, *HUMAN T cells

Abstract

Background: Atopic dermatitis (AD) is one of the most common inflammatory skin diseases, with an increasing incidence in clinical practice. AD models have demonstrated that TGF-β signaling is compromised in regulatory T cells (Tregs). Objectives: This study aimed to investigate the TGF-β-dependent in vitro conversion of CD4+CD25– T cells derived from AD-patients into CD4+CD25+Foxp3+ induced Tregs (iTregs) in comparison to healthy controls. Methods: To analyze in vitro iTreg conversion, human CD4+CD25– T cells were cultured on anti-CD3-coated plates in the presence of TGF-β and IL-2 for up to 3 days. Consequently, the underlying mechanism of impaired CD4+CD25+Foxp3+ iTreg generation was explored by focusing on TGF-β signaling. Finally, the functionality of iTregs was investigated. Results: Conversion of CD4+CD25–Foxp3– into CD4+CD25+Foxp3+ iTregs was diminished in AD individuals. Impaired iTreg generation was accompanied by a reduced surface expression of GARP (glycoprotein A repetitions predominant), a marker for activated Tregs. A reduced expression of Smad3 mRNA was revealed in CD4+CD25– T cells. Interestingly, the suppressive quality of iTregs was found to be equal in cells derived from AD and healthy donors. Conclusion: The signaling effect of TGF-β receptors on the suppressor quality of iTreg conversion is conserved. Impaired iTreg generation might be a reason for the lack of immune suppression in AD patients and contributes to the chronicity of the disease. [ABSTRACT FROM AUTHOR]

Published

2020

46. Cleaved endocan acts as a biologic competitor of endocan in the control of ICAM‐1‐dependent leukocyte diapedesis.

Author

Gaudet, Alexandre, Portier, Lucie, Mathieu, Daniel, Hureau, Maxence, Tsicopoulos, Anne, Lassalle, Philippe, and De Freitas Caires, Nathalie

Subjects

ADULT respiratory distress syndrome, LEUCOCYTES, HUMAN T cells

Abstract

Dysregulated leukocyte diapedesis is a major contributor to acute severe inflammatory states like sepsis and acute respiratory distress syndrome, which are common conditions in critically ill subjects. Endocan is a circulating proteoglycan that binds to the leukocyte integrin LFA‐1 and blocks its interaction with its endothelial ligand ICAM‐1, subsequently leading to the inhibition of leukocyte recruitment. Recent data have highlighted the hypothetic role of p14, endocan's major catabolite found in the bloodstream of septic patients, as a potential antagonist of endocan, thus participating in the regulation of acute inflammation. We hereby characterize the role of p14 as a biologic competitor of endocan, through assessment of its molecular interactions with LFA‐1, endocan, and ICAM‐1, as well as its effects on human leukocyte trafficking. Using immunodetection assay, we report that p14 can bind to LFA‐1, thus inhibiting the interaction between LFA‐1 and endocan, which in turn leads to the restoration of the ICAM‐1/LFA‐1 interaction. In primary human T cells trafficking assays, we underline the absence of effect of p14 on ICAM‐1‐dependent adhesion and migration, as well as on transendothelial migration. However, in those models, p14 reverses the antimigratory effect of endocan. To conclude, our study supports the hypothesis of an antagonistic role of p14 versus endocan in its effect on the LFA‐1/ICAM‐1‐dependent human leukocyte recruitment. [ABSTRACT FROM AUTHOR]

Published

2020

47. CXCR2‐modified CAR‐T cells have enhanced trafficking ability that improves treatment of hepatocellular carcinoma.

Author

Liu, Guangna, Rui, Wei, Zheng, Hongli, Huang, Daosheng, Yu, Fei, Zhang, Yuewei, Dong, Jiahong, Zhao, Xueqiang, and Lin, Xin

Subjects

HEPATOCELLULAR carcinoma, CHEMOKINE receptors, CHIMERIC antigen receptors, TUMOR lysis syndrome, T cells, HUMAN T cells

Abstract

Unlike hematological malignancies, solid tumors have proved to be less susceptible to chimeric antigen receptor (CAR)‐T cell therapy, which is partially caused by reduced accumulation of therapeutic T cells in tumor site. Since efficient trafficking is the precondition and pivotal step for infused CAR‐T cells to exhibit their anti‐tumor function, strategies are highly needed to improve the trafficking ability of CAR‐T cells for solid tumor treatment. Here, based on natural lymphocyte chemotaxis theory and characteristics of solid tumor microenvironments, we explored the possibility of enhancing CAR‐T cell trafficking by using chemokine receptors. Our study found that compared with other chemokines, several CXCR2 ligands showed relatively high expression level in human hepatocellular carcinoma tumor tissues and cell lines. However, both human peripheral T cells and hepatocellular carcinoma tumor infiltrating T cells lacked expression of CXCR2. CXCR2‐expressing CAR‐T cells exhibited identical cytotoxicity but displayed significantly increased migration ability in vitro. In a xenograft tumor model, we found that expressing CXCR2 in CAR‐T cells could significantly accelerate in vivo trafficking and tumor‐specific accumulation, and improve anti‐tumor effect of these cells. [ABSTRACT FROM AUTHOR]

Published

2020

48. Neutrophils suppress mucosal‐associated invariant T cells in humans.

Author

Schneider, Marion, Hannaway, Rachel F., Lamichhane, Rajesh, Harpe, Sara M., Tyndall, Joel D.A., Vernall, Andrea J., Kettle, Anthony J., and Ussher, James E.

Subjects

HUMAN T cells, NEUTROPHILS, MUCOUS membranes, T cells, HYDROGEN peroxide

Abstract

Mucosal‐associated invariant T (MAIT) cells are innate‐like T lymphocytes that are abundant in mucosal tissues and the liver where they can respond rapidly to a broad range of riboflavin producing bacterial and fungal pathogens. Neutrophils, which are recruited early to sites of infection, play a nonredundant role in pathogen clearance and are crucial for controlling infection. The interaction of these two cell types is poorly studied. Here, we investigated both the effect of neutrophils on MAIT cell activation and the effect of activated MAIT cells on neutrophils. We show that neutrophils suppress the activation of MAIT cells by a cell‐contact and hydrogen peroxide dependent mechanism. Moreover, highly activated MAIT cells were able to produce high levels of TNF‐α that induced neutrophil death. We therefore provide evidence for a negative regulatory feedback mechanism in which neutrophils prevent overactivation of MAIT cells and, in turn, MAIT cells limit neutrophil survival. [ABSTRACT FROM AUTHOR]

Published

2020

49. Identifying the inheritable component of human thymic T cell repertoire generation in monozygous twins.

Author

Heikkilä, Nelli, Vanhanen, Reetta, Yohannes, Dawit A., Saavalainen, Päivi, Meri, Seppo, Jokiranta, T. Sakari, Jarva, Hanna, Mattila, Ilkka P., Hamm, David, Sormunen, Silja, Saramäki, Jari, and Arstila, T. Petteri

Subjects

HUMAN T cells, TWINS, AMINO acid sequence, T cell receptors, GENETIC recombination

Abstract

Keywords: CDR3; genetics; TCR repertoire; thymic selection; twins EN CDR3 genetics TCR repertoire thymic selection twins 748 751 4 04/29/20 20200501 NES 200501 We have analyzed T cell receptor repertoires in a unique set of thymus samples from a pair of monozygotic twins. Inheritability of circulating TCR repertoires has been assessed in monozygous twins, identifying a distinct genetic bias in TCR gene segment usage but very little genetic influence on junctional sequences and sharing of clonotypes [[3], [5]]. [Extracted from the article]

Published

2020

50. Preclinical Studies of the Off-Target Reactivity of AFP158-Specific TCR Engineered T Cells.

Author

Cai, Lun, Caraballo Galva, Leidy D., Peng, Yibing, Luo, Xiaobing, Zhu, Wei, Yao, Yihong, Ji, Yun, and He, Yukai

Subjects

ALPHA fetoproteins, T cells, T cell receptors, HUMAN T cells, TUMOR proteins, HEPATOCELLULAR carcinoma

Abstract

Autologous T cells engineered with T receptor genes (TCR) are being studied to treat cancers. We have recently identified a panel of mouse TCRs specific for the HLA-A0201/alpha fetoprotein epitope (AFP158) complex and have shown that human T cells engineered with these TCR genes (TCR-Ts) can eradicate hepatocellular carcinoma (HCC) xenografts in NSG mice. However, due to TCR's promiscuity, their off-target cross-reactivity must be studied prior to conducting clinical trials. In this study, we conducted in vitro X-scan assay and in silico analysis to determine the off-target cross-reactivity of 3 AFP158-specific TCR-Ts. We found that the 3 AFP158-specific TCR-Ts could be cross-activated by ENPP1436 peptide and that the TCR3-Ts could also be activated by another off-target peptide, RCL1215. However, compared to AFP158, it requires 250 times more ENPP1436 and 10,000 times more RCL1215 peptides to achieve the same level of activation. The EC50 of ENPP1436 peptide for activating TCR-Ts is approximately 17–33 times higher than AFP158. Importantly, the ENPP1+ tumor cells did not activate TCR1-Ts and TCR2-Ts, and only weakly activated TCR3-Ts. The IFNγ produced by TCR3-Ts after ENPP1+ cell stimulation was >22x lower than that after HepG2 cells. And, all TCR-Ts did not kill ENPP1 + tumor cells. Furthermore, ectopic over-expression of ENPP1 protein in HLA-A2+ tumor cells did not activate TCR-Ts. In silico analysis showed that the ENPP1436 peptide affinity for HLA-A0201 was ranked 40 times lower than AFP158 and the chance of ENPP1436 peptide being processed and presented by HLA-A0201 was 100 times less likely than AFP158. In contrast, the two off-targets (Titin and MAGE-A3) that did cause severe toxicity in previous trials have the same or higher MHC-binding affinity and the same or higher chance of being processed and presented. In conclusion, our data shows that TCR-Ts can be activated by off-target ENPP1436 peptide. But, compared to target AFP158, it requires at least 250 times more ENPP1436 to achieve the same level of activation. Importantly, ENPP1436 peptide in human cells is not processed and presented to a sufficient level to activate the AFP158-specific TCR-Ts. Thus, these TCR-Ts, especially the TCR1-Ts and TCR2-Ts, will unlikely cause significant off-target toxicity. [ABSTRACT FROM AUTHOR]

Published

2020