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2. IRF4 instructs effector Treg differentiation and immune suppression in human cancer

Author

Alvisi, G., Brummelman, J., Puccio, S., Mazza, E.M.C., Tomada, E. Paoluzzi, Losurdo, A., Zanon, V., Peano, C., Colombo, F.S., Scarpa, A., Alloisio, M., Vasanthakumar, A., Roychoudhuri, R., Kallikourdis, M., Pagani, M., Lopci, E., Novellis, P., Blume, J., Kallies, A., Veronesi, G., Lugli, E., Alvisi, G., Brummelman, J., Puccio, S., Mazza, E.M.C., Tomada, E. Paoluzzi, Losurdo, A., Zanon, V., Peano, C., Colombo, F.S., Scarpa, A., Alloisio, M., Vasanthakumar, A., Roychoudhuri, R., Kallikourdis, M., Pagani, M., Lopci, E., Novellis, P., Blume, J., Kallies, A., Veronesi, G., and Lugli, E.

Abstract

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Published
2020

4. Identification of novel regulators of developmental hematopoiesis using Endoglin regulatory elements as molecular probes

Author

Nasrallah, R, Fast, EM, Solaimani, P, Knezevic, K, Eliades, A, Patel, R, Thambyrajah, R, Unnikrishnan, A, Thoms, J, Beck, D, Vink, CS, Smith, A, Wong, J, Shepherd, M, Kent, D, Roychoudhuri, R, Paul, F, Klippert, J, Hammes, A, Willnow, T, Göttgens, B, Dzierzak, E, Zon, LI, Lacaud, G, Kouskoff, V, Pimanda, JE, Nasrallah, R, Fast, EM, Solaimani, P, Knezevic, K, Eliades, A, Patel, R, Thambyrajah, R, Unnikrishnan, A, Thoms, J, Beck, D, Vink, CS, Smith, A, Wong, J, Shepherd, M, Kent, D, Roychoudhuri, R, Paul, F, Klippert, J, Hammes, A, Willnow, T, Göttgens, B, Dzierzak, E, Zon, LI, Lacaud, G, Kouskoff, V, and Pimanda, JE

Abstract

© 2016 by The American Society of Hematology. Enhancers are the primary determinants of cell identity, and specific promoter/enhancer combinations of Endoglin (ENG) have been shown to target blood and endothelium in the embryo. Here, we generated a series of embryonic stem cell lines, each targeted with reporter constructs driven by specific promoter/enhancer combinations of ENG, to evaluate their discriminative potential and value as molecular probes of the corresponding transcriptome. The Eng promoter (P) in combination with the 28/17/19-kb enhancers, targeted cells in FLK1 mesoderm that were enriched for blast colony forming potential, whereas the P/28-kb enhancer targeted TIE21/c-KIT1/CD412 endothelial cells that were enriched for hematopoieticpotential. These fractions were isolated using reporter expression and their transcriptomes profiled by RNA-seq. There was high concordance between our signatures and those from embryos with defects at corresponding stages of hematopoiesis. Of the 6 genes that were upregulated in both hemogenic mesoderm and hemogenic endothelial fractions targeted by the reporters,LRP2, amultiligandreceptor,wasthe only gene that hadnot previously been associated with hematopoiesis.WeshowthatLRP2is indeedinvolved indefinitivehematopoiesisandbydoingsovalidatetheuseof reportergene-coupled enhancers as probes to gain insights into transcriptional changes that facilitate cell fate transitions.

Published
2016

5. 217

Author

Roychoudhuri, R., primary, Hirahara, K., additional, Mousavi, K., additional, Clever, D., additional, Bonelli, M., additional, Sciume, G., additional, Zare, H., additional, Vahedi, G., additional, Klebanoff, C., additional, Sartorelli, V., additional, Kanno, Y., additional, Gattinoni, L., additional, Nakamura, A., additional, Muto, A., additional, O’Shea, J., additional, and Restifo, N., additional

Published
2013
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11. Permissivity of the NCI-60 cancer cell lines to oncolytic Vaccinia Virus GLV-1h68

Author

Bedognetti Davide, Di Pasquale Giovanni, Roychoudhuri Rahul, Pos Zoltan, Chen Nanhai G, Adams Sharon, Reinboth Jennifer, Yu Zhiya, Worschech Andrea, Ascierto Maria, Uccellini Lorenzo, Rossano Fabio, Ascierto Paolo A, Stroncek David F, Restifo Nicholas P, Wang Ena, Szalay Aladar A, and Marincola Francesco M

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

Abstract Background Oncolytic viral therapy represents an alternative therapeutic strategy for the treatment of cancer. We previously described GLV-1h68, a modified Vaccinia Virus with exclusive tropism for tumor cells, and we observed a cell line-specific relationship between the ability of GLV-1h68 to replicate in vitro and its ability to colonize and eliminate tumor in vivo. Methods In the current study we surveyed the in vitro permissivity to GLV-1h68 replication of the NCI-60 panel of cell lines. Selected cell lines were also tested for permissivity to another Vaccinia Virus and a vesicular stomatitis virus (VSV) strain. In order to identify correlates of permissity to viral infection, we measured transcriptional profiles of the cell lines prior infection. Results We observed highly heterogeneous permissivity to VACV infection amongst the cell lines. The heterogeneity of permissivity was independent of tissue with the exception of B cell derivation. Cell lines were also tested for permissivity to another Vaccinia Virus and a vesicular stomatitis virus (VSV) strain and a significant correlation was found suggesting a common permissive phenotype. While no clear transcriptional pattern could be identified as predictor of permissivity to infection, some associations were observed suggesting multifactorial basis permissivity to viral infection. Conclusions Our findings have implications for the design of oncolytic therapies for cancer and offer insights into the nature of permissivity of tumor cells to viral infection.

Published
2011
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12. Increased cardiovascular mortality more than fifteen years after radiotherapy for breast cancer: a population-based study

Author

Darby Sarah, Cuzick Jack, Putcha Venkata, Robinson David, Roychoudhuri Rahul, and Møller Henrik

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

Abstract Background Breast radiotherapy as practised in the 1970s and 1980s resulted in significant myocardial exposure, and this was higher when the left breast was treated. It has been proposed that this difference might result in greater cardiovascular mortality following irradiation of the left breast when compared with the right. Methods All cases of female breast cancer diagnosed between 1971 and 1988 and recorded on the Thames Cancer Registry database were followed up to the end of 2003 to identify cases who had died from ischaemic heart disease (IHD) or any cardiovascular disease (CVD). A proportional hazards regression analysis was performed, stratified by time since diagnosis, using as the baseline group those women with right-sided disease who did not receive radiotherapy, and adjusting for age at diagnosis. Results A total of 20,871 women with breast cancer were included in the analysis, of which 51% had left-sided disease. Mortality at 15+ years after diagnosis was increased in recipients of left-breast radiotherapy compared to non-irradiated women with right-sided breast cancer, both for IHD (hazard ratio 1.59; 95% confidence interval 1.21–2.08; p = 0.001) and all CVD (hazard ratio 1.27; 95% confidence interval 1.07–1.51; p = 0.006). When irradiated women with left-sided breast cancer were compared with irradiated women with right-sided breast cancer, cardiovascular mortality at 15+ years after diagnosis was raised by around 25% (IHD: hazard ratio 1.23; 95% confidence interval 0.95–1.60; p = 0.114; CVD: hazard ratio 1.25; 95% confidence interval 1.05–1.49; p = 0.014). Conclusion We have found an elevation in cardiovascular mortality more than 15 years after breast radiotherapy in women diagnosed with breast cancer between 1971 and 1988. The risk was greater following irradiation of the left breast compared with the right. This confirms that radiotherapy as practised in the 1970s and 1980s has resulted in significant long-term cardiac toxicity. In absolute terms, the increase in cardiovascular mortality induced by radiotherapy may be substantial, as these mortality events are relatively common.

Published
2007
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13. IRF4 instructs effector Treg differentiation and immune suppression in human cancer

Author

Ajithkumar Vasanthakumar, Agnese Losurdo, Emilia Maria Cristina Mazza, Axel Kallies, Simone Puccio, Jonas Blume, Massimiliano Pagani, Giorgia Alvisi, Federico Colombo, Marco Alloisio, Egesta Lopci, Rahul Roychoudhuri, Elisa Paoluzzi Tomada, Clelia Peano, Alice Scarpa, Jolanda Brummelman, Giulia Veronesi, Pierluigi Novellis, Marinos Kallikourdis, Enrico Lugli, Veronica Zanon, Alvisi, G, Brummelman, J, Puccio, S, Mazza, E. M. C, Tomada, E. P, Losurdo, A, Zanon, V, Peano, C, Colombo, F. S, Scarpa, A, Alloisio, M, Vasanthakumar, A, Roychoudhuri, R, Kallikourdis, M, Pagani, M, Lopci, E, Novellis, P, Blume, J, Kallies, A, Veronesi, G, and Lugli, E.

Subjects
0301 basic medicine, Male, Cancer development and immune defence Radboud Institute for Molecular Life Sciences [Radboudumc 2], Cellular differentiation, medicine.medical_treatment, Biology, T-Lymphocytes, Regulatory, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, Cancer immunotherapy, Neoplasms, BATF, medicine, Tumor Microenvironment, Animals, Humans, Aged, Aged, 80 and over, Tumor microenvironment, Effector, Cell Differentiation, General Medicine, Middle Aged, Acquired immune system, Neoplasm Proteins, 030104 developmental biology, 030220 oncology & carcinogenesis, Interferon Regulatory Factors, Cancer research, IRF4, Research Article
Abstract

The molecular mechanisms responsible for the high immunosuppressive capacity of CD4(+) Tregs in tumors are not well known. High-dimensional single-cell profiling of T cells from chemotherapy-naive individuals with non–small-cell lung cancer identified the transcription factor IRF4 as specifically expressed by a subset of intratumoral CD4(+) effector Tregs with superior suppressive activity. In contrast to the IRF4(–) counterparts, IRF4(+) Tregs expressed a vast array of suppressive molecules, and their presence correlated with multiple exhausted subpopulations of T cells. Integration of transcriptomic and epigenomic data revealed that IRF4, either alone or in combination with its partner BATF, directly controlled a molecular program responsible for immunosuppression in tumors. Accordingly, deletion of Irf4 exclusively in Tregs resulted in delayed tumor growth in mice while the abundance of IRF4(+) Tregs correlated with poor prognosis in patients with multiple human cancers. Thus, a common mechanism underlies immunosuppression in the tumor microenvironment irrespective of the tumor type.

Published
2020

14. NaCl enhances CD8 + T cell effector functions in cancer immunotherapy.

Author

Scirgolea C, Sottile R, De Luca M, Susana A, Carnevale S, Puccio S, Ferrari V, Lise V, Contarini G, Scarpa A, Scamardella E, Feno S, Camisaschi C, De Simone G, Basso G, Giuliano D, Mazza EMC, Gattinoni L, Roychoudhuri R, Voulaz E, Di Mitri D, Simonelli M, Losurdo A, Pozzi D, Tsui C, Kallies A, Timo S, Martano G, Barberis E, Manfredi M, Rescigno M, Jaillon S, and Lugli E

Subjects
Animals, Mice, Humans, Cell Differentiation, Tumor Microenvironment immunology, Neoplasms immunology, Neoplasms therapy, Neoplasms drug therapy, Cell Line, Tumor, Interferon-gamma metabolism, Glutamine metabolism, Mice, Inbred C57BL, Immunotherapy, Adoptive methods, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes metabolism, Sodium Chloride, Immunotherapy methods
Abstract

CD8 + T cells control tumors but inevitably become dysfunctional in the tumor microenvironment. Here, we show that sodium chloride (NaCl) counteracts T cell dysfunction to promote cancer regression. NaCl supplementation during CD8 + T cell culture induced effector differentiation, IFN-γ production and cytotoxicity while maintaining the gene networks responsible for stem-like plasticity. Accordingly, adoptive transfer of tumor-specific T cells resulted in superior anti-tumor immunity in a humanized mouse model. In mice, a high-salt diet reduced the growth of experimental tumors in a CD8 + T cell-dependent manner by inhibiting terminal differentiation and enhancing the effector potency of CD8 + T cells. Mechanistically, NaCl enhanced glutamine consumption, which was critical for transcriptional, epigenetic and functional reprogramming. In humans, CD8 + T cells undergoing antigen recognition in tumors and predicting favorable responses to checkpoint blockade immunotherapy resembled those induced by NaCl. Thus, NaCl metabolism is a regulator of CD8 + T cell effector function, with potential implications for cancer immunotherapy., (© 2024. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published
2024
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15. IFNγ Production by Functionally Reprogrammed Tregs Promotes Antitumor Efficacy of OX40/CD137 Bispecific Agonist Therapy.

Author

Imianowski CJ, Kuo P, Whiteside SK, von Linde T, Wesolowski AJ, Conti AG, Evans AC, Baird T, Morris BI, Fletcher NE, Yang J, Poon E, Lakins MA, Yamamoto M, Brewis N, Morrow M, and Roychoudhuri R

Subjects
Animals, Mice, Mice, Inbred C57BL, Humans, Cell Line, Tumor, Female, T-Lymphocytes, Regulatory drug effects, T-Lymphocytes, Regulatory immunology, Receptors, OX40 agonists, Receptors, OX40 immunology, Tumor Necrosis Factor Receptor Superfamily, Member 9 agonists, Interferon-gamma metabolism, Antibodies, Bispecific pharmacology, Antibodies, Bispecific therapeutic use
Abstract

Regulatory T cells (Treg) are highly enriched within many tumors and suppress immune responses to cancer. There is intense interest in reprogramming Tregs to contribute to antitumor immunity. OX40 and CD137 are expressed highly on Tregs, activated and memory T cells, and NK cells. In this study, using a novel bispecific antibody targeting mouse OX40 and CD137 (FS120m), we show that OX40/CD137 bispecific agonism induces potent antitumor immunity partially dependent upon IFNγ production by functionally reprogrammed Tregs. Treatment of tumor-bearing animals with OX40/CD137 bispecific agonists reprograms Tregs into both fragile Foxp3+ IFNγ+ Tregs with decreased suppressive function and lineage-instable Foxp3- IFNγ+ ex-Tregs. Treg fragility is partially driven by IFNγ signaling, whereas Treg instability is associated with reduced IL2 responsiveness upon treatment with OX40/CD137 bispecific agonists. Importantly, conditional deletion of Ifng in Foxp3+ Tregs and their progeny partially reverses the antitumor efficacy of OX40/CD137 bispecific agonist therapy, revealing that reprogramming of Tregs into IFNγ-producing cells contributes to the anti-tumor efficacy of OX40/CD137 bispecific agonists. These findings provide insights into mechanisms by which bispecific agonist therapies targeting costimulatory receptors highly expressed by Tregs potentiate antitumor immunity in mouse models., Significance: The bispecific antibody FS120, an immunotherapy currently being tested in the clinic, partially functions by inducing anti-tumor activity of Tregs, which results in tumor rejection., (©2024 The Authors; Published by the American Association for Cancer Research.)

Published
2024
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16. Cross-talk between ILC2 and Gata3 high T regs locally constrains adaptive type 2 immunity.

Author

Stockis J, Yip T, Moreno-Vicente J, Burton O, Samarakoon Y, Schuijs MJ, Raghunathan S, Garcia C, Luo W, Whiteside SK, Png S, Simpson C, Monk S, Sawle A, Yin K, Barbieri J, Papadopoulos P, Wong H, Rodewald HR, Vyse T, McKenzie ANJ, Cragg MS, Hoare M, Withers DR, Fehling HJ, Roychoudhuri R, Liston A, and Halim TYF

Subjects
Animals, Mice, Lymphocytes immunology, Immunity, Innate immunology, Mice, Knockout, Th2 Cells immunology, Female, T-Lymphocytes, Regulatory immunology, GATA3 Transcription Factor immunology, GATA3 Transcription Factor metabolism, Adaptive Immunity immunology, Mice, Inbred C57BL
Abstract

Regulatory T cells (T regs ) control adaptive immunity and restrain type 2 inflammation in allergic disease. Interleukin-33 promotes the expansion of tissue-resident T regs and group 2 innate lymphoid cells (ILC2s); however, how T regs locally coordinate their function within the inflammatory niche is not understood. Here, we show that ILC2s are critical orchestrators of T reg function. Using spatial, cellular, and molecular profiling of the type 2 inflamed niche, we found that ILC2s and T regs engage in a direct (OX40L-OX40) and chemotaxis-dependent (CCL1-CCR8) cellular dialogue that enforces the local accumulation of Gata3 high T regs , which are transcriptionally and functionally adapted to the type 2 environment. Genetic interruption of ILC2-T reg communication resulted in uncontrolled type 2 lung inflammation after allergen exposure. Mechanistically, we found that Gata3 high T regs can modulate the local bioavailability of the costimulatory molecule OX40L, which subsequently controlled effector memory T helper 2 cell numbers. Hence, ILC2-T reg interactions represent a critical feedback mechanism to control adaptive type 2 immunity.

Published
2024
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17. Immune cell triads reprogram exhausted CD8 + T cells for effective tumor elimination.

Author

Lise V, Malenica I, Roychoudhuri R, and Lugli E

Subjects
Humans, Immunotherapy methods, Animals, CD4-Positive T-Lymphocytes immunology, Antigen-Presenting Cells immunology, Mice, CD8-Positive T-Lymphocytes immunology, Neoplasms immunology, Neoplasms therapy
Abstract

In this issue of Cancer Cell, Espinosa-Carrasco et al. show that the efficacy of cancer immunotherapies depends upon the formation of intratumoral immune triads between antigen-presenting cells and antigen-specific CD4 + and CD8 + T cells. This interaction reprograms tumor-specific CD8 + T cells to exert potent effector functions and eradicate established solid tumors., Competing Interests: Declaration of interests E.L. received research grants from Bristol Myers Squibb on a topic unrelated to this paper, royalties from the NIH for a patent on methods to develop T memory stem cells, and consulting fees from BD Biosciences, Biolegend, Swarm Therapeutics, Menarini, Amgen, and Pfizer., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published
2024
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18. Intratumoral antigen signaling traps CD8 + T cells to confine exhaustion to the tumor site.

Author

Takahashi M, So TY, Chamberlain-Evans V, Hughes R, Yam-Puc JC, Kania K, Ruhle M, Mann T, Schuijs MJ, Coupland P, Naisbitt D, Halim TYF, Lyons PA, Lio P, Roychoudhuri R, Okkenhaug K, Adams DJ, Smith KGC, Jodrell DI, Chapman MA, and Thaventhiran JED

Subjects
Animals, Mice, Mice, Inbred C57BL, Mice, Transgenic, Antigens, Neoplasm immunology, Neoplasms immunology, CD8-Positive T-Lymphocytes immunology, Signal Transduction immunology
Abstract

Immunotherapy advances have been hindered by difficulties in tracking the behaviors of lymphocytes after antigen signaling. Here, we assessed the behavior of T cells active within tumors through the development of the antigen receptor signaling reporter (AgRSR) mouse, fate-mapping lymphocytes responding to antigens at specific times and locations. Contrary to reports describing the ready egress of T cells out of the tumor, we find that intratumoral antigen signaling traps CD8 + T cells in the tumor. These clonal populations expand and become increasingly exhausted over time. By contrast, antigen-signaled regulatory T cell (T reg ) clonal populations readily recirculate out of the tumor. Consequently, intratumoral antigen signaling acts as a gatekeeper to compartmentalize CD8 + T cell responses, even within the same clonotype, thus enabling exhausted T cells to remain confined to a specific tumor tissue site.

Published
2024
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19. GS-TCGA: Gene Set-Based Analysis of The Cancer Genome Atlas.

Author

Baird T and Roychoudhuri R

Subjects
Humans, Genome, Gene Expression Regulation, Survival Analysis, Databases, Genetic, Neoplasms genetics
Abstract

Most tools for analyzing large gene expression datasets, including The Cancer Genome Atlas (TCGA), have focused on analyzing the expression of individual genes or inference of the abundance of specific cell types from whole transcriptome information. While these methods provide useful insights, they can overlook crucial process-based information that may enhance our understanding of cancer biology. In this study, we describe three novel tools incorporated into an online resource; gene set-based analysis of The Cancer Genome Atlas (GS-TCGA). GS-TCGA is designed to enable user-friendly exploration of TCGA data using gene set-based analysis, leveraging gene sets from the Molecular Signatures Database. GS-TCGA includes three unique tools: GS-Surv determines the association between the expression of gene sets and survival in human cancers. Co-correlative gene set enrichment analysis (CC-GSEA) utilizes interpatient heterogeneity in cancer gene expression to infer functions of specific genes based on GSEA of coregulated genes in TCGA. GS-Corr utilizes interpatient heterogeneity in cancer gene expression profiles to identify genes coregulated with the expression of specific gene sets in TCGA. Users are also able to upload custom gene sets for analysis with each tool. These tools empower researchers to perform survival analysis linked to gene set expression, explore the functional implications of gene coexpression, and identify potential gene regulatory mechanisms.

Published
2024
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20. Tumour-retained activated CCR7 + dendritic cells are heterogeneous and regulate local anti-tumour cytolytic activity.

Author

Lee CYC, Kennedy BC, Richoz N, Dean I, Tuong ZK, Gaspal F, Li Z, Willis C, Hasegawa T, Whiteside SK, Posner DA, Carlesso G, Hammond SA, Dovedi SJ, Roychoudhuri R, Withers DR, and Clatworthy MR

Subjects
Humans, Animals, Mice, Receptors, CCR7 genetics, Antigen Presentation, Dendritic Cells, CD8-Positive T-Lymphocytes, Neoplasms genetics, Neoplasms therapy
Abstract

Tumour dendritic cells (DCs) internalise antigen and upregulate CCR7, which directs their migration to tumour-draining lymph nodes (dLN). CCR7 expression is coupled to an activation programme enriched in regulatory molecule expression, including PD-L1. However, the spatio-temporal dynamics of CCR7 + DCs in anti-tumour immune responses remain unclear. Here, we use photoconvertible mice to precisely track DC migration. We report that CCR7 + DCs are the dominant DC population that migrate to the dLN, but a subset remains tumour-resident despite CCR7 expression. These tumour-retained CCR7 + DCs are phenotypically and transcriptionally distinct from their dLN counterparts and heterogeneous. Moreover, they progressively downregulate the expression of antigen presentation and pro-inflammatory transcripts with more prolonged tumour dwell-time. Tumour-residing CCR7 + DCs co-localise with PD-1 + CD8 + T cells in human and murine solid tumours, and following anti-PD-L1 treatment, upregulate stimulatory molecules including OX40L, thereby augmenting anti-tumour cytolytic activity. Altogether, these data uncover previously unappreciated heterogeneity in CCR7 + DCs that may underpin a variable capacity to support intratumoural cytotoxic T cells., (© 2024. The Author(s).)

Published
2024
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21. Intracellular K+ Limits T-cell Exhaustion and Preserves Antitumor Function.

Author

Collier C, Wucherer K, McWhorter M, Jenkins C, Bartlett A, Roychoudhuri R, and Eil R

Subjects
Humans, Animals, Mice, Reactive Oxygen Species metabolism, Sodium-Potassium-Exchanging ATPase genetics, Sodium-Potassium-Exchanging ATPase metabolism, CD8-Positive T-Lymphocytes metabolism, T-Cell Exhaustion, Signal Transduction genetics
Abstract

T cells are often compromised within cancers, allowing disease progression. We previously found that intratumoral elevations in extracellular K+, related to ongoing cell death, constrained CD8+ T-cell Akt-mTOR signaling and effector function. To alleviate K+-mediated T-cell dysfunction, we pursued genetic means to lower intracellular K+. CD8+ T cells robustly and dynamically express the Na+/K+ ATPase, among other K+ transporters. CRISPR-Cas9-mediated disruption of the Atp1a1 locus lowered intracellular K+ and elevated the resting membrane potential (i.e., Vm, Ψ). Despite compromised Ca2+ influx, Atp1a1-deficient T cells harbored tonic hyperactivity in multiple signal transduction cascades, along with a phenotype of exhaustion in mouse and human CD8+ T cells. Provision of exogenous K+ restored intracellular levels in Atp1a1-deficient T cells and prevented damaging levels of reactive oxygen species (ROS), and both antioxidant treatment and exogenous K+ prevented Atp1a1-deficient T-cell exhaustion in vitro. T cells lacking Atp1a1 had compromised persistence and antitumor activity in a syngeneic model of orthotopic murine melanoma. Translational application of these findings will require balancing the beneficial aspects of intracellular K+ with the ROS-dependent nature of T-cell effector function. See related Spotlight by Banuelos and Borges da Silva, p. 6., (©2023 The Authors; Published by the American Association for Cancer Research.)

Published
2024
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22. Acquisition of suppressive function by conventional T cells limits antitumor immunity upon T reg depletion.

Author

Whiteside SK, Grant FM, Alvisi G, Clarke J, Tang L, Imianowski CJ, Zhang B, Evans AC, Wesolowski AJ, Conti AG, Yang J, Lauder SN, Clement M, Humphreys IR, Dooley J, Burton O, Liston A, Alloisio M, Voulaz E, Langhorne J, Okkenhaug K, Lugli E, and Roychoudhuri R

Subjects
Mice, Humans, Animals, Interleukin-10 metabolism, Immunotherapy, Forkhead Transcription Factors metabolism, T-Lymphocytes, Regulatory, Neoplasms therapy, Neoplasms metabolism
Abstract

Regulatory T (T reg ) cells contribute to immune homeostasis but suppress immune responses to cancer. Strategies to disrupt T reg cell-mediated cancer immunosuppression have been met with limited clinical success, but the underlying mechanisms for treatment failure are poorly understood. By modeling T reg cell-targeted immunotherapy in mice, we find that CD4 + Foxp3 - conventional T (T conv ) cells acquire suppressive function upon depletion of Foxp3 + T reg cells, limiting therapeutic efficacy. Foxp3 - T conv cells within tumors adopt a T reg cell-like transcriptional profile upon ablation of T reg cells and acquire the ability to suppress T cell activation and proliferation ex vivo. Suppressive activity is enriched among CD4 + T conv cells marked by expression of C-C motif receptor 8 (CCR8), which are found in mouse and human tumors. Upon T reg cell depletion, CCR8 + T conv cells undergo systemic and intratumoral activation and expansion, and mediate IL-10-dependent suppression of antitumor immunity. Consequently, conditional deletion of Il10 within T cells augments antitumor immunity upon T reg cell depletion in mice, and antibody blockade of IL-10 signaling synergizes with T reg cell depletion to overcome treatment resistance. These findings reveal a secondary layer of immunosuppression by T conv cells released upon therapeutic T reg cell depletion and suggest that broader consideration of suppressive function within the T cell lineage is required for development of effective T reg cell-targeted therapies.

Published
2023
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23. Intracellular K + limits T cell exhaustion and preserves antitumor function.

Author

Collier C, Wucherer K, McWhorter M, Jenkins C, Bartlett A, Roychoudhuri R, and Eil R

Abstract

The cancer-killing activity of T cells is often compromised within tumors, allowing disease progression. We previously found that intratumoral elevations in extracellular K + related to ongoing cell death constrained CD8 + T cell Akt-mTOR signaling and effector function (1,2). To alleviate K + mediated T cell suppression, we pursued genetic means to lower intracellular K + . Transcriptomic analysis of CD8 + T cells demonstrated the Na + /K + ATPase to be robustly and dynamically expressed. CRISPR-Cas9 mediated deletion of the catalytic alpha subunit of the Na + /K + ATPase lowered intracellular K + but produced tonic hyperactivity in multiple signal transduction cascades along with the acquisition of co-inhibitory receptors and terminal differentiation in mouse and human CD8 + T cells. Mechanistically, Na + /K + ATPase disruption led to ROS accumulation due to depletion of intracellular K + in T cells. Antioxidant treatment or high K + media prevented Atp1a1 deficient T cells from exhausted T (T Ex ) cell formation. Consistent with transcriptional and proteomic data suggesting a T Ex cell phenotype, T cells lacking Atp1a1 had compromised persistence and antitumor activity in a syngeneic model of orthotopic murine melanoma. Translational application of these findings will include efforts to lower intracellular K + while limiting ROS accumulation within tumor specific T cells., Synopsis: High extracellular K + (↑[K + ] e ) is found within tumors and suppresses T cell effector function. Collier et al. find that deletion of the Na + /K + ATPase in T cells lowers intracellular K + and promotes ROS accumulation, tonic signal transduction and T cell exhaustion owing to ROS accumulation. Engineering T cell ion transport is an important consideration for cancer immunotherapy.

Published
2023
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25. High-Dimensional Single-Cell Profiling of Tumor-Infiltrating CD4 + Regulatory T Cells.

Author

Alvisi G, Puccio S, Roychoudhuri R, Scirgolea C, and Lugli E

Subjects
Flow Cytometry, Forkhead Transcription Factors, Humans, Immune Tolerance, Neoplasms, T-Lymphocytes, Regulatory
Abstract

CD4 + T regulatory cells (Tregs) are a specialized subset of T lymphocytes, which promote immune homeostasis and tumor immunosuppression by restricting effector T cell immune responses. The characterization of context-specific Treg phenotypic heterogeneity is pivotal to determine their potential contributions to diseases. In the recent years, high-dimensional single-cell technologies, such as single-cell RNA sequencing, mass cytometry, or polychromatic flow cytometry, have played a central role in elucidating the heterogeneity of the Treg compartment at the cellular and molecular levels. Here we describe an example of high-dimensional flow cytometry analysis capable of defining an effector Treg subpopulation that positively correlates with cancer progression. Moreover, we provide a workflow template of high-dimensional single-cell analysis that is readily applicable to any leukocyte subpopulation., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2023
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26. IL-2 is inactivated by the acidic pH environment of tumors enabling engineering of a pH-selective mutein.

Author

Gaggero S, Martinez-Fabregas J, Cozzani A, Fyfe PK, Leprohon M, Yang J, Thomasen FE, Winkelmann H, Magnez R, Conti AG, Wilmes S, Pohler E, van Gijsel Bonnello M, Thuru X, Quesnel B, Soncin F, Piehler J, Lindorff-Larsen K, Roychoudhuri R, Moraga I, and Mitra S

Subjects
Humans, STAT5 Transcription Factor, CD8-Positive T-Lymphocytes, Cytokines, Hydrogen-Ion Concentration, Interleukin-2, Neoplasms
Abstract

Cytokines interact with their receptors in the extracellular space to control immune responses. How the physicochemical properties of the extracellular space influence cytokine signaling is incompletely elucidated. Here, we show that the activity of interleukin-2 (IL-2), a cytokine critical to T cell immunity, is profoundly affected by pH, limiting IL-2 signaling within the acidic environment of tumors. Generation of lactic acid by tumors limits STAT5 activation, effector differentiation, and antitumor immunity by CD8 + T cells and renders high-dose IL-2 therapy poorly effective. Directed evolution enabled selection of a pH-selective IL-2 mutein (Switch-2). Switch-2 binds the IL-2 receptor subunit IL-2Rα with higher affinity, triggers STAT5 activation, and drives CD8 + T cell effector function more potently at acidic pH than at neutral pH. Consequently, high-dose Switch-2 therapy induces potent immune activation and tumor rejection with reduced on-target toxicity in normal tissues. Last, we show that sensitivity to pH is a generalizable property of a diverse range of cytokines with broad relevance to immunity and immunotherapy in healthy and diseased tissues.

Published
2022
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27. BACH2 restricts NK cell maturation and function, limiting immunity to cancer metastasis.

Author

Imianowski CJ, Whiteside SK, Lozano T, Evans AC, Benson JD, Courreges CJF, Sadiyah F, Lau CM, Zandhuis ND, Grant FM, Schuijs MJ, Vardaka P, Kuo P, Soilleux EJ, Yang J, Sun JC, Kurosaki T, Okkenhaug K, Halim TYF, and Roychoudhuri R

Subjects
Basic-Leucine Zipper Transcription Factors genetics, Humans, Immunity, Innate, Killer Cells, Natural, Antineoplastic Agents, Neoplasms
Abstract

Natural killer (NK) cells are critical to immune surveillance against infections and cancer. Their role in immune surveillance requires that NK cells are present within tissues in a quiescent state. Mechanisms by which NK cells remain quiescent in tissues are incompletely elucidated. The transcriptional repressor BACH2 plays a critical role within the adaptive immune system, but its function within innate lymphocytes has been unclear. Here, we show that BACH2 acts as an intrinsic negative regulator of NK cell maturation and function. BACH2 is expressed within developing and mature NK cells and promotes the maintenance of immature NK cells by restricting their maturation in the presence of weak stimulatory signals. Loss of BACH2 within NK cells results in accumulation of activated NK cells with unrestrained cytotoxic function within tissues, which mediate augmented immune surveillance to pulmonary cancer metastasis. These findings establish a critical function of BACH2 as a global negative regulator of innate cytotoxic function and tumor immune surveillance by NK cells., (© 2022 Imianowski et al.)

Published
2022
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28. Multimodal single-cell profiling of intrahepatic cholangiocarcinoma defines hyperactivated Tregs as a potential therapeutic target.

Author

Alvisi G, Termanini A, Soldani C, Portale F, Carriero R, Pilipow K, Costa G, Polidoro M, Franceschini B, Malenica I, Puccio S, Lise V, Galletti G, Zanon V, Colombo FS, De Simone G, Tufano M, Aghemo A, Di Tommaso L, Peano C, Cibella J, Iannacone M, Roychoudhuri R, Manzo T, Donadon M, Torzilli G, Kunderfranco P, Di Mitri D, Lugli E, and Lleo A

Subjects
Humans, Bile Ducts, Intrahepatic pathology, RNA metabolism, T-Lymphocytes, Regulatory, Transcription Factors metabolism, Tumor Microenvironment, Single-Cell Analysis, Bile Duct Neoplasms pathology, Cholangiocarcinoma pathology
Abstract

Background & Aims: The landscape and function of the immune infiltrate of intrahepatic cholangiocarcinoma (iCCA), a rare, yet aggressive tumor of the biliary tract, remains poorly characterized, limiting development of successful immunotherapies. Herein, we aimed to define the molecular characteristics of tumor-infiltrating leukocytes with a special focus on CD4+ regulatory T cells (Tregs)., Methods: We used high-dimensional single-cell technologies to characterize the T-cell and myeloid compartments of iCCA tissues, comparing these with their tumor-free peritumoral and circulating counterparts. We further used genomics and cellular assays to define the iCCA-specific role of a novel transcription factor, mesenchyme homeobox 1 (MEOX1), in Treg biology., Results: We found poor infiltration of putative tumor-specific CD39+ CD8+ T cells accompanied by abundant infiltration of hyperactivated CD4+ Tregs. Single-cell RNA-sequencing identified an altered network of transcription factors in iCCA-infiltrating compared to peritumoral T cells, suggesting reduced effector functions by tumor-infiltrating CD8+ T cells and enhanced immunosuppression by CD4+ Tregs. Specifically, we found that expression of MEOX1 was highly enriched in tumor-infiltrating Tregs, and demonstrated that MEOX1 overexpression is sufficient to reprogram circulating Tregs to acquire the transcriptional and epigenetic landscape of tumor-infiltrating Tregs. Accordingly, enrichment of the MEOX1-dependent gene program in Tregs was strongly associated with poor prognosis in a large cohort of patients with iCCA., Conclusions: We observed abundant infiltration of hyperactivated CD4+ Tregs in iCCA tumors along with reduced CD8+ T-cell effector functions. Interfering with hyperactivated Tregs should be explored as an approach to enhance antitumor immunity in iCCA., Lay Summary: Immune cells have the potential to slow or halt the progression of tumors. However, some tumors, such as intrahepatic cholangiocarcinoma, are associated with very limited immune responses (and infiltration of cancer-targeting immune cells). Herein, we show that a specific population of regulatory T cells (a type of immune cell that actually suppresses the immune response) are hyperactivated in intrahepatic cholangiocarcinoma. Targeting these cells could enable cancer-targeting immune cells to act more effectively and should be looked at as a potential therapeutic approach to this aggressive cancer type., Competing Interests: Conflict of interest E.L. receives research grants from Bristol Myers Squibb and consulting fees from BD Biosciences. A.L. reports receiving consulting fees from Intercept Pharma, AlfaSigma, Takeda, AbbVie, Gilead, and MSD and travel expenses from Intercept Pharma, AlfaSigma and AbbVie. M.I. participates in advisory boards/consultancies for Gilead Sciences, Roche, Third Rock Ventures, Antios Therapeutics, Amgen, Asher Bio, Allovir, ENYO Pharma. The other authors have no competing interests. Please refer to the accompanying ICMJE disclosure forms for further details., (Copyright © 2022 European Association for the Study of the Liver. Published by Elsevier B.V. All rights reserved.)

Published
2022
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29. TCR-induced FOXP3 expression by CD8 + T cells impairs their anti-tumor activity.

Author

Lozano T, Conde E, Martín-Otal C, Navarro F, Lasarte-Cia A, Nasrallah R, Alignani D, Gorraiz M, Sarobe P, Romero JP, Vilas A, Roychoudhuri R, Hervás-Stubbs S, Casares N, and Lasarte JJ

Subjects
Animals, Humans, Mice, CD8-Positive T-Lymphocytes immunology, Forkhead Transcription Factors metabolism, Immunotherapy, Adoptive methods, Receptors, Antigen, T-Cell immunology
Abstract

Adoptive cell transfer therapy using CD8 + T lymphocytes showed promising results eradicating metastatic malignancies. However, several regulatory mechanisms limit its efficacy. We studied the role of the expression of the transcription factor FOXP3 on CD8 + T cell function and anti-tumor immunity. Here we show that suboptimal T cell receptor stimulation of CD8 + T cells upregulates FOXP3 in vitro. Similarly, CD8 T cells transferred into tumor-bearing mice upregulate FOXP3 in vivo. Cell-intrinsic loss of FOXP3 by CD8 + T cells resulted in improved functionality after TCR stimulation and better antitumor responses in vivo. Inhibition of the FOXP3/NFAT interaction likewise improved CD8 + T cell functionality. Transcriptomic analysis of cells after TCR stimulation revealed an enrichment of genes implicated in the response to IFN-γ, IFN-α, inflammatory response, IL-6/JAK/STAT, G2M checkpoint and IL-2/STAT signaling in FOXP3-deficient CD8 + T cells with respect to FOXP3-wt CD8 + T cells. Our results suggest that transient expression of FOXP3 by CD8 + T cells in the tumor microenvironment restrains their anti-tumor activity, with clear implications for improving T cell responses during immunotherapy., (Copyright © 2021. Published by Elsevier B.V.)

Published
2022
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30. CCR8 marks highly suppressive Treg cells within tumours but is dispensable for their accumulation and suppressive function.

Author

Whiteside SK, Grant FM, Gyori DS, Conti AG, Imianowski CJ, Kuo P, Nasrallah R, Sadiyah F, Lira SA, Tacke F, Eil RL, Burton OT, Dooley J, Liston A, Okkenhaug K, Yang J, and Roychoudhuri R

Subjects
Animals, Forkhead Transcription Factors metabolism, Humans, Immune Tolerance, Melanoma, Experimental, Mice, Mice, Inbred C57BL, Mice, Knockout, Receptors, CCR8 genetics, Adenocarcinoma immunology, Colorectal Neoplasms immunology, Lymphocytes, Tumor-Infiltrating immunology, Melanoma immunology, Receptors, CCR8 metabolism, Skin Neoplasms immunology, T-Lymphocytes, Regulatory immunology
Abstract

CD4 + regulatory T (Treg) cells, dependent upon the transcription factor Foxp3, contribute to tumour immunosuppression but are also required for immune homeostasis. There is interest in developing therapies that selectively target the immunosuppressive function of Treg cells within tumours without disrupting their systemic anti-inflammatory function. High levels of expression of chemokine (C-C motif) receptor 8 (CCR8) discriminate Treg cells within tumours from those found in systemic lymphoid tissues. It has recently been proposed that disruption of CCR8 function using blocking anti-CCR8 antibodies results in reduced accumulation of Treg cells within tumours and disruption of their immunosuppressive function. Here, using Ccr8 -/- mice, we show that CCR8 function is not required for Treg cell accumulation or immunosuppression in the context of syngeneic MC38 colorectal adenocarcinoma and B16 melanoma tumours. We observed high levels of CCR8 expression on tumour-infiltrating Treg cells which were abolished in Ccr8 -/- mice. High levels of CCR8 marked cells with high levels of suppressive function. However, whereas systemic ablation of Treg cells resulted in strikingly diminished tumour burden, growth of subcutaneously implanted tumours was unaffected by systemic CCR8 loss. Consistently, we observed minimal impact of systemic CCR8 ablation on the frequency, phenotype and function of tumour-infiltrating Treg cells and conventional T (Tconv) function. These findings suggest that CCR8 is not required for Treg cell accumulation and immunosuppressive function within tumours and that depletion of CCR8 + Treg cells rather than blockade of CCR8 function is a more promising avenue for selective immunotherapy., (© 2021 The Authors. Immunology published by John Wiley & Sons Ltd.)

Published
2021
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31. Multiply restimulated human thymic regulatory T cells express distinct signature regulatory T-cell transcription factors without evidence of exhaustion.

Author

Hippen KL, Furlan SN, Roychoudhuri R, Wang E, Zhang Y, Osborn MJ, Merkel SC, Hani S, MacMillan ML, Cichocki F, Miller JS, Wagner JE, Restifo NP, Kean LS, and Blazar BR

Subjects
Adoptive Transfer, Fetal Blood, Forkhead Transcription Factors genetics, Humans, Graft vs Host Disease, T-Lymphocytes, Regulatory
Abstract

Background Aims: Adoptive transfer of suppressive CD4+CD25+ thymic regulatory T cells (tTregs) can control auto- and alloimmune responses but typically requires in vitro expansion to reach the target cell number for efficacy. Although the adoptive transfer of expanded tTregs purified from umbilical cord blood ameliorates graft-versus-host disease in patients receiving hematopoietic stem cell transplantation for lymphohematopoietic malignancy, individual Treg products of 100 × 10 6 cells/kg are manufactured over an extended 19-day time period using a process that yields variable products and is both laborious and costly. These limitations could be overcome with the availability of 'off the shelf' Treg., Results: Previously, the authors reported a repetitive restimulation expansion protocol that maintains Treg phenotype (CD4+25++127-Foxp3+), potentially providing hundreds to thousands of patient infusions. However, repetitive stimulation of effector T cells induces a well-defined program of exhaustion that leads to reduced T-cell survival and function. Unexpectedly, the authors found that multiply stimulated human tTregs do not develop an exhaustion signature and instead maintain their Treg gene expression pattern. The authors also found that tTregs expanded with one or two rounds of stimulation and tTregs expanded with three or five rounds of stimulation preferentially express distinct subsets of a group of five transcription factors that lock in Treg Foxp3expression, Treg stability and suppressor function. Multiply restimulated Tregs also had increased transcripts characteristic of T follicular regulatory cells, a Treg subset., Discussion: These data demonstrate that repetitively expanded human tTregs have a Treg-locking transcription factor with stable FoxP3 and without the classical T-cell exhaustion gene expression profile-desirable properties that support the possibility of off-the-shelf Treg therapeutics., Competing Interests: Declaration of Competing Interest BRB is a founder of Tmunity Therapeutics, serves as an advisor for and receives research support from BlueRock Therapeutics and, along with KLH, holds patents for the production and use of Tregs for clinical trials. LSK is on the scientific advisory board for HiFiBio and reports research funding from Bristol Myers Squibb, Kymab Limited, Magenta Therapeutics, BlueBird Bio and Regeneron Pharmaceuticals; consulting fees from Equillium, FortySeven Inc, Novartis Inc, EMD Serono, Gilead Sciences and Takeda Pharmaceuticals; the patent “Method to prevent relapse after transplant,” which is pending; and the patent “Method to prevent GVHD after transplant,” with royalties paid., (Copyright © 2021 International Society for Cell & Gene Therapy. Published by Elsevier Inc. All rights reserved.)

Published
2021
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32. A cell-based bioluminescence assay reveals dose-dependent and contextual repression of AP-1-driven gene expression by BACH2.

Author

Vardaka P, Lozano T, Bot C, Ellery J, Whiteside SK, Imianowski CJ, Farrow S, Walker S, Okkenhaug H, Yang J, Okkenhaug K, Kuo P, and Roychoudhuri R

Subjects
Animals, Cell Differentiation, Dose-Response Relationship, Drug, Gene Expression Regulation drug effects, Humans, Jurkat Cells, Luciferases genetics, Luciferases metabolism, Mice, Tetracycline pharmacology, Tetradecanoylphorbol Acetate pharmacology, Acrylamides pharmacology, Basic-Leucine Zipper Transcription Factors genetics, Luminescent Measurements methods, Phenylenediamines pharmacology, Tetradecanoylphorbol Acetate analogs & derivatives, Transcription Factor AP-1 genetics
Abstract

Whereas effector CD4 + and CD8 + T cells promote immune activation and can drive clearance of infections and cancer, CD4 + regulatory T (T reg ) cells suppress their function, contributing to both immune homeostasis and cancer immunosuppression. The transcription factor BACH2 functions as a pervasive regulator of T cell differentiation, promoting development of CD4 + T reg cells and suppressing the effector functions of multiple effector T cell (T eff ) lineages. Here, we report the development of a stable cell-based bioluminescence assay of the transcription factor activity of BACH2. Tetracycline-inducible BACH2 expression resulted in suppression of phorbol 12-myristate 13-acetate (PMA)/ionomycin-driven activation of a luciferase reporter containing BACH2/AP-1 target sequences from the mouse Ifng + 18k enhancer. BACH2 expression repressed the luciferase signal in a dose-dependent manner but this activity was abolished at high levels of AP-1 signalling, suggesting contextual regulation of AP-1 driven gene expression by BACH2. Finally, using the reporter assay developed, we find that the histone deacetylase 3 (HDAC3)-selective inhibitor, RGFP966, inhibits BACH2-mediated repression of signal-driven luciferase expression. In addition to enabling mechanistic studies, this cell-based reporter may enable identification of small molecule agonists or antagonists of BACH2 function for drug development.

Published
2020
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33. BACH2 drives quiescence and maintenance of resting Treg cells to promote homeostasis and cancer immunosuppression.

Author

Grant FM, Yang J, Nasrallah R, Clarke J, Sadiyah F, Whiteside SK, Imianowski CJ, Kuo P, Vardaka P, Todorov T, Zandhuis N, Patrascan I, Tough DF, Kometani K, Eil R, Kurosaki T, Okkenhaug K, and Roychoudhuri R

Subjects
Animals, Basic-Leucine Zipper Transcription Factors deficiency, Cell Differentiation genetics, Cell Differentiation immunology, Cell Line, Tumor, Cell Lineage, Cytokines metabolism, Down-Regulation, Forkhead Transcription Factors metabolism, Gene Expression Regulation, Neoplastic, Humans, Inflammation pathology, Integrases metabolism, Mice, Inbred C57BL, Neoplasms genetics, Phenotype, Receptors, Antigen, T-Cell metabolism, T-Lymphocytes, Regulatory cytology, Transcription Factor AP-1 metabolism, Basic-Leucine Zipper Transcription Factors metabolism, Cell Cycle, Homeostasis, Immunosuppression Therapy, Neoplasms immunology, Neoplasms pathology, T-Lymphocytes, Regulatory immunology
Abstract

Regulatory T (Treg) cell populations are composed of functionally quiescent resting Treg (rTreg) cells which differentiate into activated Treg (aTreg) cells upon antigen stimulation. How rTreg cells remain quiescent despite chronic exposure to cognate self- and foreign antigens is unclear. The transcription factor BACH2 is critical for early Treg lineage specification, but its function following lineage commitment is unresolved. Here, we show that BACH2 is repurposed following Treg lineage commitment and promotes the quiescence and long-term maintenance of rTreg cells. Bach2 is highly expressed in rTreg cells but is down-regulated in aTreg cells and during inflammation. In rTreg cells, BACH2 binds to enhancers of genes involved in aTreg differentiation and represses their TCR-driven induction by competing with AP-1 factors for DNA binding. This function promotes rTreg cell quiescence and long-term maintenance and is required for immune homeostasis and durable immunosuppression in cancer. Thus, BACH2 supports a "division of labor" between quiescent rTreg cells and their activated progeny in Treg maintenance and function, respectively., Competing Interests: Disclosures: The authors declare no competing interests exist., (© 2020 Grant et al.)

Published
2020
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34. A distal enhancer at risk locus 11q13.5 promotes suppression of colitis by T reg cells.

Author

Nasrallah R, Imianowski CJ, Bossini-Castillo L, Grant FM, Dogan M, Placek L, Kozhaya L, Kuo P, Sadiyah F, Whiteside SK, Mumbach MR, Glinos D, Vardaka P, Whyte CE, Lozano T, Fujita T, Fujii H, Liston A, Andrews S, Cozzani A, Yang J, Mitra S, Lugli E, Chang HY, Unutmaz D, Trynka G, and Roychoudhuri R

Subjects
Acetylation, Alleles, Animals, Chromosomes, Mammalian genetics, Female, Forkhead Transcription Factors metabolism, Histones metabolism, Humans, Membrane Proteins genetics, Membrane Proteins metabolism, Mice, Synteny genetics, Chromosomes, Human, Pair 11 genetics, Colitis genetics, Colitis immunology, Enhancer Elements, Genetic genetics, Genetic Predisposition to Disease genetics, T-Lymphocytes, Regulatory immunology
Abstract

Genetic variations underlying susceptibility to complex autoimmune and allergic diseases are concentrated within noncoding regulatory elements termed enhancers 1 . The functions of a large majority of disease-associated enhancers are unknown, in part owing to their distance from the genes they regulate, a lack of understanding of the cell types in which they operate, and our inability to recapitulate the biology of immune diseases in vitro. Here, using shared synteny to guide loss-of-function analysis of homologues of human enhancers in mice, we show that the prominent autoimmune and allergic disease risk locus at chromosome 11q13.5 2-7 contains a distal enhancer that is functional in CD4 + regulatory T (T reg ) cells and required for T reg -mediated suppression of colitis. The enhancer recruits the transcription factors STAT5 and NF-κB to mediate signal-driven expression of Lrrc32, which encodes the protein glycoprotein A repetitions predominant (GARP). Whereas disruption of the Lrrc32 gene results in early lethality, mice lacking the enhancer are viable but lack GARP expression in Foxp3 + T reg cells, which are unable to control colitis in a cell-transfer model of the disease. In human T reg cells, the enhancer forms conformational interactions with the promoter of LRRC32 and enhancer risk variants are associated with reduced histone acetylation and GARP expression. Finally, functional fine-mapping of 11q13.5 using CRISPR-activation (CRISPRa) identifies a CRISPRa-responsive element in the vicinity of risk variant rs11236797 capable of driving GARP expression. These findings provide a mechanistic basis for association of the 11q13.5 risk locus with immune-mediated diseases and identify GARP as a potential target in their therapy.

Published
2020
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35. IRF4 instructs effector Treg differentiation and immune suppression in human cancer.

Author

Alvisi G, Brummelman J, Puccio S, Mazza EM, Tomada EP, Losurdo A, Zanon V, Peano C, Colombo FS, Scarpa A, Alloisio M, Vasanthakumar A, Roychoudhuri R, Kallikourdis M, Pagani M, Lopci E, Novellis P, Blume J, Kallies A, Veronesi G, and Lugli E

Subjects
Aged, Aged, 80 and over, Animals, Humans, Male, Mice, Middle Aged, Neoplasms pathology, T-Lymphocytes, Regulatory pathology, Cell Differentiation immunology, Interferon Regulatory Factors immunology, Neoplasm Proteins immunology, Neoplasms immunology, T-Lymphocytes, Regulatory immunology, Tumor Microenvironment immunology
Abstract

The molecular mechanisms responsible for the high immunosuppressive capacity of CD4+ Tregs in tumors are not well known. High-dimensional single-cell profiling of T cells from chemotherapy-naive individuals with non-small-cell lung cancer identified the transcription factor IRF4 as specifically expressed by a subset of intratumoral CD4+ effector Tregs with superior suppressive activity. In contrast to the IRF4- counterparts, IRF4+ Tregs expressed a vast array of suppressive molecules, and their presence correlated with multiple exhausted subpopulations of T cells. Integration of transcriptomic and epigenomic data revealed that IRF4, either alone or in combination with its partner BATF, directly controlled a molecular program responsible for immunosuppression in tumors. Accordingly, deletion of Irf4 exclusively in Tregs resulted in delayed tumor growth in mice while the abundance of IRF4+ Tregs correlated with poor prognosis in patients with multiple human cancers. Thus, a common mechanism underlies immunosuppression in the tumor microenvironment irrespective of the tumor type.

Published
2020
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36. Genome-Wide Measurement and Computational Analysis of Transcription Factor Binding and Chromatin Accessibility in Lymphocytes.

Author

Sadiyah MF and Roychoudhuri R

Subjects
Animals, Cell Differentiation, Chromatin genetics, Chromatin Assembly and Disassembly, Computational Biology, Gene Expression, Genome, High-Throughput Nucleotide Sequencing, Humans, Lymphocyte Activation, Organ Specificity, Protein Binding, CD4-Positive T-Lymphocytes physiology, CD8-Positive T-Lymphocytes physiology, Chromatin metabolism, Transcription Factors metabolism
Abstract

Cells of the adaptive immune system, including CD4 + and CD8 + T cells, as well as B cells, possess the ability to undergo dynamic changes in population size, differentiation state, and function to counteract diverse and temporally stochastic threats from the external environment. To achieve this, lymphocytes must be able to rapidly control their gene-expression programs in a cell-type-specific manner and in response to extrinsic signals. Such capacity is provided by transcription factors (TFs), which bind to the available repertoire of regulatory DNA elements in distinct lymphocyte subsets to program cell-type-specific gene expression. Here we provide a set of protocols that utilize massively parallel sequencing-based approaches to map genome-wide TF-binding sites and accessible chromatin, with consideration of the unique aspects and technical issues facing their application to lymphocytes. We show how to computationally validate and analyze aligned data to map differentially enriched/accessible sites, identify enriched DNA sequence motifs, and detect the position of nucleosomes adjacent to accessible DNA elements. These techniques, when applied to immune cells, can enhance our understanding of how gene-expression programs are controlled within lymphocytes to coordinate immune function in homeostasis and disease. © 2019 by John Wiley & Sons, Inc., (© 2019 John Wiley & Sons, Inc.)

Published
2019
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37. Regulatory T cells in cancer: where are we now?

Author

Gallimore A, Quezada SA, and Roychoudhuri R

Subjects
Animals, Humans, Immunotherapy adverse effects, Lymphocytes, Tumor-Infiltrating pathology, Neoplasms pathology, Neoplasms therapy, Phenotype, Signal Transduction, T-Lymphocytes, Regulatory pathology, Lymphocytes, Tumor-Infiltrating immunology, Neoplasms immunology, T-Lymphocytes, Regulatory immunology, Tumor Escape
Abstract

There have been substantial strides forward in our understanding of the contribution of regulatory T (Treg) cells to cancer immunosuppression. In this issue, we present a series of papers highlighting emerging themes on this topic relevant not only to our understanding of the fundamental biology of tumour immunosuppression but also to the design of new immunotherapeutic approaches. The substantially shared biology of CD4 + conventional T (Tconv) and Treg cells necessitates a detailed understanding of the potentially opposing functional consequences that immunotherapies will have on Treg and Tconv cells, a prominent example being the potential for Treg-mediated hyperprogressive disease following anti-PD-1 therapy. Such understanding will aid patient stratification and the rational design of combination therapies. It is also becoming clear, however, that Treg cells within tumours exhibit distinct biological features to both Tconv cells and Treg cells in other tissues. These distinct features provide the opportunity for development of targeted immunotherapies with greater efficacy and reduced potential for inducing systemic toxicity., (© 2019 John Wiley & Sons Ltd.)

Published
2019
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38. Regulation of regulatory T cells in cancer.

Author

Stockis J, Roychoudhuri R, and Halim TYF

Subjects
Animals, Humans, Inflammation Mediators immunology, Inflammation Mediators metabolism, Lymphocytes, Tumor-Infiltrating metabolism, Neoplasms metabolism, Neoplasms pathology, Phenotype, Signal Transduction, T-Lymphocytes, Regulatory metabolism, Tumor Microenvironment, Lymphocytes, Tumor-Infiltrating immunology, Neoplasms immunology, T-Lymphocytes, Regulatory immunology, Tumor Escape
Abstract

The inflammatory response to transformed cells forms the cornerstone of natural or therapeutically induced protective immunity to cancer. Regulatory T (Treg) cells are known for their critical role in suppressing inflammation, and therefore can antagonize effective anti-cancer immune responses. As such, Treg cells can play detrimental roles in tumour progression and in the response to both conventional and immune-based cancer therapies. Recent advances in our understanding of Treg cells reveal complex niche-specific regulatory programmes and functions, which are likely to extrapolate to cancer. The regulation of Treg cells is reliant on upstream cues from haematopoietic and non-immune cells, which dictates their genetic, epigenetic and downstream functional programmes. In this review we will discuss how Treg cells are themselves regulated in normal and transformed tissues, and the implications of this cross talk on tumour growth., (© 2019 The Authors. Immunology Published by John Wiley & Sons Ltd., Immunology.)

Published
2019
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39. T cell stemness and dysfunction in tumors are triggered by a common mechanism.

Author

Vodnala SK, Eil R, Kishton RJ, Sukumar M, Yamamoto TN, Ha NH, Lee PH, Shin M, Patel SJ, Yu Z, Palmer DC, Kruhlak MJ, Liu X, Locasale JW, Huang J, Roychoudhuri R, Finkel T, Klebanoff CA, and Restifo NP

Subjects
Acetyl Coenzyme A metabolism, Acetylation, Animals, Autophagy immunology, Caloric Restriction, Cell Differentiation genetics, Epigenesis, Genetic, Histones metabolism, Humans, Lymphocyte Activation, Mice, Mice, Inbred C57BL, Tumor Microenvironment, CD8-Positive T-Lymphocytes immunology, Immune Tolerance, Lymphocytes, Tumor-Infiltrating immunology, Neoplasms immunology, Potassium metabolism, Stem Cells immunology
Abstract

A paradox of tumor immunology is that tumor-infiltrating lymphocytes are dysfunctional in situ, yet are capable of stem cell-like behavior including self-renewal, expansion, and multipotency, resulting in the eradication of large metastatic tumors. We find that the overabundance of potassium in the tumor microenvironment underlies this dichotomy, triggering suppression of T cell effector function while preserving stemness. High levels of extracellular potassium constrain T cell effector programs by limiting nutrient uptake, thereby inducing autophagy and reduction of histone acetylation at effector and exhaustion loci, which in turn produces CD8 + T cells with improved in vivo persistence, multipotency, and tumor clearance. This mechanistic knowledge advances our understanding of T cell dysfunction and may lead to novel approaches that enable the development of enhanced T cell strategies for cancer immunotherapy., (Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published
2019
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40. The transcription factor c-Myb regulates CD8 + T cell stemness and antitumor immunity.

Author

Gautam S, Fioravanti J, Zhu W, Le Gall JB, Brohawn P, Lacey NE, Hu J, Hocker JD, Hawk NV, Kapoor V, Telford WG, Gurusamy D, Yu Z, Bhandoola A, Xue HH, Roychoudhuri R, Higgs BW, Restifo NP, Bender TP, Ji Y, and Gattinoni L

Subjects
Animals, CD8-Positive T-Lymphocytes metabolism, CD8-Positive T-Lymphocytes virology, Cell Differentiation immunology, Cell Line, Tumor, HEK293 Cells, Humans, Immunologic Memory genetics, Lymphocytic Choriomeningitis immunology, Lymphocytic Choriomeningitis metabolism, Lymphocytic Choriomeningitis virology, Lymphocytic choriomeningitis virus immunology, Lymphocytic choriomeningitis virus physiology, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Neoplasms, Experimental metabolism, Neoplasms, Experimental virology, Proto-Oncogene Proteins c-myb genetics, Proto-Oncogene Proteins c-myb metabolism, Stem Cells metabolism, Stem Cells virology, T Cell Transcription Factor 1 genetics, T Cell Transcription Factor 1 immunology, T Cell Transcription Factor 1 metabolism, CD8-Positive T-Lymphocytes immunology, Immunologic Memory immunology, Neoplasms, Experimental immunology, Proto-Oncogene Proteins c-myb immunology, Stem Cells immunology
Abstract

Stem cells are maintained by transcriptional programs that promote self-renewal and repress differentiation. Here, we found that the transcription factor c-Myb was essential for generating and maintaining stem cells in the CD8 + T cell memory compartment. Following viral infection, CD8 + T cells lacking Myb underwent terminal differentiation and generated fewer stem cell-like central memory cells than did Myb-sufficient T cells. c-Myb acted both as a transcriptional activator of Tcf7 (which encodes the transcription factor Tcf1) to enhance memory development and as a repressor of Zeb2 (which encodes the transcription factor Zeb2) to hinder effector differentiation. Domain-mutagenesis experiments revealed that the transactivation domain of c-Myb was necessary for restraining differentiation, whereas its negative regulatory domain was critical for cell survival. Myb overexpression enhanced CD8 + T cell memory formation, polyfunctionality and recall responses that promoted curative antitumor immunity after adoptive transfer. These findings identify c-Myb as a pivotal regulator of CD8 + T cell stemness and highlight its therapeutic potential.

Published
2019
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41. Paths to expansion: Differential requirements of IRF4 in CD8 + T-cell expansion driven by antigen and homeostatic cytokines.

Author

Lugli E, Brummelman J, Pilipow K, and Roychoudhuri R

Subjects
Animals, Cell Differentiation immunology, Cell Proliferation, Immunologic Memory immunology, Lymphocyte Activation immunology, Mice, PTEN Phosphohydrolase metabolism, Phosphatidylinositol 3-Kinases metabolism, Proto-Oncogene Proteins c-akt metabolism, Signal Transduction immunology, CD8-Positive T-Lymphocytes immunology, Interferon Regulatory Factors immunology, Receptors, Antigen, T-Cell immunology
Abstract

Interferon regulatory factor 4 (IRF4) regulates the clonal expansion and metabolic activity of activated T cells, but the precise context and mechanisms of its function in these processes are unclear. In this issue of the European Journal of Immunology, Miyakoda et al. [Eur. J. Immunol. 2018. 48: 1319-1328] show that IRF4 is required for activation and expansion of naïve and memory CD8 + T cells driven by T-cell receptor (TCR) signaling, but dispensable for memory CD8 + T-cell maintenance and homeostatic proliferation driven by homeostatic cytokines. The authors show that the function of IRF4 in CD8 + T-cell expansion is partially dependent upon activation of the PI3K/AKT pathway through direct or indirect attenuation of PTEN expression. These data shed light upon the differential intracellular pathways required for naïve and memory T cells to respond to self-antigens and/or homeostatic cytokines, and highlight the potential translational relevance of these findings in the context of immune reconstitution such as following allogeneic stem cell transplantation., (© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2018
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42. Compensation between CSF1R+ macrophages and Foxp3+ Treg cells drives resistance to tumor immunotherapy.

Author

Gyori D, Lim EL, Grant FM, Spensberger D, Roychoudhuri R, Shuttleworth SJ, Okkenhaug K, Stephens LR, and Hawkins PT

Subjects
Aminopyridines administration & dosage, Animals, Cell Line, Tumor transplantation, Class I Phosphatidylinositol 3-Kinases, Diphtheria Toxin administration & dosage, Disease Models, Animal, Female, Forkhead Transcription Factors metabolism, Gene Knockout Techniques, Humans, Macrophages drug effects, Macrophages metabolism, Male, Mice, Mice, Transgenic, Neoplasms immunology, Phosphatidylinositol 3-Kinases genetics, Phosphatidylinositol 3-Kinases metabolism, Phosphoinositide-3 Kinase Inhibitors, Primary Cell Culture, Purines administration & dosage, Pyrroles administration & dosage, Quinazolinones administration & dosage, Receptors, Granulocyte-Macrophage Colony-Stimulating Factor metabolism, T-Lymphocytes, Regulatory drug effects, T-Lymphocytes, Regulatory metabolism, Tumor Microenvironment drug effects, Tumor Microenvironment immunology, Drug Resistance, Neoplasm immunology, Lymphocyte Depletion methods, Macrophages immunology, Neoplasms drug therapy, T-Lymphocytes, Regulatory immunology
Abstract

Redundancy and compensation provide robustness to biological systems but may contribute to therapy resistance. Both tumor-associated macrophages (TAMs) and Foxp3+ regulatory T (Treg) cells promote tumor progression by limiting antitumor immunity. Here we show that genetic ablation of CSF1 in colorectal cancer cells reduces the influx of immunosuppressive CSF1R+ TAMs within tumors. This reduction in CSF1-dependent TAMs resulted in increased CD8+ T cell attack on tumors, but its effect on tumor growth was limited by a compensatory increase in Foxp3+ Treg cells. Similarly, disruption of Treg cell activity through their experimental ablation produced moderate effects on tumor growth and was associated with elevated numbers of CSF1R+ TAMs. Importantly, codepletion of CSF1R+ TAMs and Foxp3+ Treg cells resulted in an increased influx of CD8+ T cells, augmentation of their function, and a synergistic reduction in tumor growth. Further, inhibition of Treg cell activity either through systemic pharmacological blockade of PI3Kδ, or its genetic inactivation within Foxp3+ Treg cells, sensitized previously unresponsive solid tumors to CSF1R+ TAM depletion and enhanced the effect of CSF1R blockade. These findings identify CSF1R+ TAMs and PI3Kδ-driven Foxp3+ Treg cells as the dominant compensatory cellular components of the immunosuppressive tumor microenvironment, with implications for the design of combinatorial immunotherapies.

Published
2018
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43. Phosphoinositide 3-kinase δ inhibition promotes antitumor responses but antagonizes checkpoint inhibitors.

Author

Lim EL, Cugliandolo FM, Rosner DR, Gyori D, Roychoudhuri R, and Okkenhaug K

Subjects
Animals, Antigens, Neoplasm administration & dosage, Antineoplastic Agents, Immunological pharmacology, Antineoplastic Agents, Immunological therapeutic use, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Cancer Vaccines therapeutic use, Cell Line, Tumor transplantation, Class I Phosphatidylinositol 3-Kinases, Costimulatory and Inhibitory T-Cell Receptors antagonists & inhibitors, Costimulatory and Inhibitory T-Cell Receptors immunology, Diphtheria Toxin administration & dosage, Disease Models, Animal, Drug Interactions, Female, Humans, Lymphocyte Depletion methods, Male, Mice, Neoplasms immunology, Neoplasms pathology, Phosphatidylinositol 3-Kinases immunology, Phosphatidylinositol 3-Kinases metabolism, Purines therapeutic use, Quinazolinones therapeutic use, Signal Transduction drug effects, Signal Transduction immunology, T-Lymphocytes, Cytotoxic drug effects, T-Lymphocytes, Cytotoxic immunology, T-Lymphocytes, Regulatory drug effects, T-Lymphocytes, Regulatory immunology, Treatment Outcome, Antineoplastic Combined Chemotherapy Protocols pharmacology, Cancer Vaccines pharmacology, Neoplasms drug therapy, Phosphoinositide-3 Kinase Inhibitors, Purines pharmacology, Quinazolinones pharmacology
Abstract

Multiple modes of immunosuppression restrain immune function within tumors. We previously reported that phosphoinositide 3-kinase δ (PI3Kδ) inactivation in mice confers resistance to a range of tumor models by disrupting immunosuppression mediated by regulatory T cells (Tregs). The PI3Kδ inhibitor idelalisib has proven highly effective in the clinical treatment of chronic lymphocytic leukemia and the potential to extend the use of PI3Kδ inhibitors to nonhematological cancers is being evaluated. In this work, we demonstrate that the antitumor effect of PI3Kδ inactivation is primarily mediated through the disruption of Treg function, and correlates with tumor dependence on Treg immunosuppression. Compared with Treg-specific PI3Kδ deletion, systemic PI3Kδ inactivation is less effective at conferring resistance to tumors. We show that PI3Kδ deficiency impairs the maturation and reduces the capacity of CD8+ cytotoxic T lymphocytes (CTLs) to kill tumor cells in vitro, and to respond to tumor antigen-specific immunization in vivo. PI3Kδ inactivation antagonized the antitumor effects of tumor vaccines and checkpoint blockade therapies intended to boost the CD8+ T cell response. These findings provide insights into mechanisms by which PI3Kδ inhibition promotes antitumor immunity and demonstrate that the mechanism is distinct from that mediated by immune checkpoint blockade.

Published
2018
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44. Epigenetic control of CD8 + T cell differentiation.

Author

Henning AN, Roychoudhuri R, and Restifo NP

Subjects
Animals, CD8-Positive T-Lymphocytes metabolism, Cellular Reprogramming Techniques methods, Chromatin Assembly and Disassembly genetics, Chromatin Assembly and Disassembly immunology, DNA Methylation immunology, Enhancer Elements, Genetic, Histone Code genetics, Humans, Immunotherapy methods, Models, Genetic, Models, Immunological, Transcription, Genetic, CD8-Positive T-Lymphocytes cytology, CD8-Positive T-Lymphocytes immunology, Cell Differentiation genetics, Cell Differentiation immunology, Epigenesis, Genetic immunology
Abstract

Upon stimulation, small numbers of naive CD8 + T cells proliferate and differentiate into a variety of memory and effector cell types. CD8 + T cells can persist for years and kill tumour cells and virally infected cells. The functional and phenotypic changes that occur during CD8 + T cell differentiation are well characterized, but the epigenetic states that underlie these changes are incompletely understood. Here, we review the epigenetic processes that direct CD8 + T cell differentiation and function. We focus on epigenetic modification of DNA and associated histones at genes and their regulatory elements. We also describe structural changes in chromatin organization that affect gene expression. Finally, we examine the translational potential of epigenetic interventions to improve CD8 + T cell function in individuals with chronic infections and cancer.

Published
2018
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45. Bach2 Promotes B Cell Receptor-Induced Proliferation of B Lymphocytes and Represses Cyclin-Dependent Kinase Inhibitors.

Author

Miura Y, Morooka M, Sax N, Roychoudhuri R, Itoh-Nakadai A, Brydun A, Funayama R, Nakayama K, Satomi S, Matsumoto M, Igarashi K, and Muto A

Subjects
Animals, Basic-Leucine Zipper Transcription Factors metabolism, Cell Proliferation, Cyclin-Dependent Kinase Inhibitor Proteins immunology, Mice, Mice, Knockout, Receptors, Antigen, B-Cell immunology, B-Lymphocytes immunology, Basic-Leucine Zipper Transcription Factors immunology, Lymphocyte Activation immunology
Abstract

BTB and CNC homology 2 (Bach2) is a transcriptional repressor that is required for the formation of the germinal center (GC) and reactions, including class switch recombination and somatic hypermutation of Ig genes in B cells, within the GC. Although BCR-induced proliferation is essential for GC reactions, the function of Bach2 in regulating B cell proliferation has not been elucidated. In this study, we demonstrate that Bach2 is required to sustain high levels of B cell proliferation in response to BCR signaling. Following BCR engagement in vitro, B cells from Bach2 -deficient ( Bach2 -/- ) mice showed lower incorporation of BrdU and reduced cell cycle progression compared with wild-type cells. Bach2 -/- B cells also underwent increased apoptosis, as evidenced by an elevated frequency of sub-G 1 cells and early apoptotic cells. Transcriptome analysis of BCR-engaged B cells from Bach2 -/- mice revealed reduced expression of the antiapoptotic gene Bcl2l1 encoding Bcl-x L and elevated expression of cyclin-dependent kinase inhibitor (CKI) family genes, including Cdkn1a , Cdkn2a , and Cdkn2b Reconstitution of Bcl-x L expression partially rescued the proliferation defect of Bach2 -/- B cells. Chromatin immunoprecipitation experiments showed that Bach2 bound to the CKI family genes, indicating that these genes are direct repression targets of Bach2. These findings identify Bach2 as a requisite factor for sustaining high levels of BCR-induced proliferation, survival, and cell cycle progression, and it promotes expression of Bcl-x L and repression of CKI genes. BCR-induced proliferation defects may contribute to the impaired GC formation observed in Bach2 -/- mice., (Copyright © 2018 by The American Association of Immunologists, Inc.)

Published
2018
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46. BACH transcription factors in innate and adaptive immunity.

Author

Igarashi K, Kurosaki T, and Roychoudhuri R

Subjects
Animals, Autoimmune Diseases immunology, Autoimmune Diseases metabolism, Autoimmune Diseases pathology, Basic-Leucine Zipper Transcription Factors chemistry, Basic-Leucine Zipper Transcription Factors genetics, Evolution, Molecular, Humans, Hypersensitivity immunology, Hypersensitivity metabolism, Hypersensitivity pathology, Lymphocytes immunology, Macrophages metabolism, Repressor Proteins chemistry, Repressor Proteins genetics, Adaptive Immunity, Basic-Leucine Zipper Transcription Factors metabolism, Immunity, Innate, Repressor Proteins metabolism
Abstract

BTB and CNC homology (BACH) proteins are transcriptional repressors of the basic region leucine zipper (bZIP) transcription factor family. Recent studies indicate widespread roles of BACH proteins in controlling the development and function of the innate and adaptive immune systems, including the differentiation of effector and memory cells of the B and T cell lineages, CD4 + regulatory T cells and macrophages. Here, we emphasize similarities at a molecular level in the cell-type-specific activities of BACH factors, proposing that competitive interactions of BACH proteins with transcriptional activators of the bZIP family form a common mechanistic theme underlying their diverse actions. The findings contribute to a general understanding of how transcriptional repressors shape lineage commitment and cell-type-specific functions through repression of alternative lineage programmes.

Published
2017
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47. BACH2 immunodeficiency illustrates an association between super-enhancers and haploinsufficiency.

Author

Afzali B, Grönholm J, Vandrovcova J, O'Brien C, Sun HW, Vanderleyden I, Davis FP, Khoder A, Zhang Y, Hegazy AN, Villarino AV, Palmer IW, Kaufman J, Watts NR, Kazemian M, Kamenyeva O, Keith J, Sayed A, Kasperaviciute D, Mueller M, Hughes JD, Fuss IJ, Sadiyah MF, Montgomery-Recht K, McElwee J, Restifo NP, Strober W, Linterman MA, Wingfield PT, Uhlig HH, Roychoudhuri R, Aitman TJ, Kelleher P, Lenardo MJ, O'Shea JJ, Cooper N, and Laurence ADJ

Subjects
Adrenal Cortex Hormones therapeutic use, Adult, Autoimmune Diseases complications, Colitis complications, Colitis genetics, Colitis pathology, Female, Fever complications, Fever drug therapy, Fever genetics, Haploinsufficiency, Heterozygote, Humans, Immunologic Deficiency Syndromes complications, Lymphopenia complications, Lymphopenia genetics, Male, Middle Aged, Mutation, Pancytopenia complications, Pancytopenia drug therapy, Pancytopenia genetics, Pedigree, Polymorphism, Single Nucleotide, Recurrence, Respiratory Tract Infections complications, Respiratory Tract Infections diagnostic imaging, Respiratory Tract Infections genetics, Splenomegaly complications, Splenomegaly genetics, Syndrome, Tomography, X-Ray Computed, Young Adult, Autoimmune Diseases genetics, Basic-Leucine Zipper Transcription Factors genetics, Immunologic Deficiency Syndromes genetics
Abstract

The transcriptional programs that guide lymphocyte differentiation depend on the precise expression and timing of transcription factors (TFs). The TF BACH2 is essential for T and B lymphocytes and is associated with an archetypal super-enhancer (SE). Single-nucleotide variants in the BACH2 locus are associated with several autoimmune diseases, but BACH2 mutations that cause Mendelian monogenic primary immunodeficiency have not previously been identified. Here we describe a syndrome of BACH2-related immunodeficiency and autoimmunity (BRIDA) that results from BACH2 haploinsufficiency. Affected subjects had lymphocyte-maturation defects that caused immunoglobulin deficiency and intestinal inflammation. The mutations disrupted protein stability by interfering with homodimerization or by causing aggregation. We observed analogous lymphocyte defects in Bach2-heterozygous mice. More generally, we observed that genes that cause monogenic haploinsufficient diseases were substantially enriched for TFs and SE architecture. These findings reveal a previously unrecognized feature of SE architecture in Mendelian diseases of immunity: heterozygous mutations in SE-regulated genes identified by whole-exome/genome sequencing may have greater significance than previously recognized.

Published
2017
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48. Identification of novel regulators of developmental hematopoiesis using Endoglin regulatory elements as molecular probes.

Author

Nasrallah R, Fast EM, Solaimani P, Knezevic K, Eliades A, Patel R, Thambyrajah R, Unnikrishnan A, Thoms J, Beck D, Vink CS, Smith A, Wong J, Shepherd M, Kent D, Roychoudhuri R, Paul F, Klippert J, Hammes A, Willnow T, Göttgens B, Dzierzak E, Zon LI, Lacaud G, Kouskoff V, and Pimanda JE

Subjects
Animals, Cell Line, Embryo, Mammalian cytology, Endoglin genetics, Endothelial Cells cytology, Endothelial Cells metabolism, Low Density Lipoprotein Receptor-Related Protein-2 genetics, Low Density Lipoprotein Receptor-Related Protein-2 metabolism, Mesoderm cytology, Mesoderm metabolism, Mice, Molecular Probes genetics, Mouse Embryonic Stem Cells cytology, Mouse Embryonic Stem Cells metabolism, Embryo, Mammalian metabolism, Endoglin metabolism, Enhancer Elements, Genetic physiology, Hematopoiesis physiology, Molecular Probes metabolism
Abstract

Enhancers are the primary determinants of cell identity, and specific promoter/enhancer combinations of Endoglin (ENG) have been shown to target blood and endothelium in the embryo. Here, we generated a series of embryonic stem cell lines, each targeted with reporter constructs driven by specific promoter/enhancer combinations of ENG, to evaluate their discriminative potential and value as molecular probes of the corresponding transcriptome. The Eng promoter (P) in combination with the -8/+7/+9-kb enhancers, targeted cells in FLK1 mesoderm that were enriched for blast colony forming potential, whereas the P/-8-kb enhancer targeted TIE2+/c-KIT+/CD41- endothelial cells that were enriched for hematopoietic potential. These fractions were isolated using reporter expression and their transcriptomes profiled by RNA-seq. There was high concordance between our signatures and those from embryos with defects at corresponding stages of hematopoiesis. Of the 6 genes that were upregulated in both hemogenic mesoderm and hemogenic endothelial fractions targeted by the reporters, LRP2, a multiligand receptor, was the only gene that had not previously been associated with hematopoiesis. We show that LRP2 is indeed involved in definitive hematopoiesis and by doing so validate the use of reporter gene-coupled enhancers as probes to gain insights into transcriptional changes that facilitate cell fate transitions., (© 2016 by The American Society of Hematology.)

Published
2016
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49. Ionic immune suppression within the tumour microenvironment limits T cell effector function.

Author

Eil R, Vodnala SK, Clever D, Klebanoff CA, Sukumar M, Pan JH, Palmer DC, Gros A, Yamamoto TN, Patel SJ, Guittard GC, Yu Z, Carbonaro V, Okkenhaug K, Schrump DS, Linehan WM, Roychoudhuri R, and Restifo NP

Subjects
Animals, Humans, Immune Tolerance immunology, Immunotherapy methods, Kv1.3 Potassium Channel metabolism, Male, Melanoma metabolism, Melanoma pathology, Melanoma therapy, Membrane Potentials, Mice, Necrosis, Proto-Oncogene Proteins c-akt metabolism, Receptors, Antigen, T-Cell immunology, Receptors, Antigen, T-Cell metabolism, Signal Transduction, Survival Analysis, T-Lymphocytes metabolism, TOR Serine-Threonine Kinases metabolism, Cations, Monovalent metabolism, Melanoma immunology, Potassium metabolism, T-Lymphocytes immunology, Tumor Escape immunology, Tumor Microenvironment immunology
Abstract

Tumours progress despite being infiltrated by tumour-specific effector T cells. Tumours contain areas of cellular necrosis, which are associated with poor survival in a variety of cancers. Here, we show that necrosis releases intracellular potassium ions into the extracellular fluid of mouse and human tumours, causing profound suppression of T cell effector function. Elevation of the extracellular potassium concentration ([K + ] e ) impairs T cell receptor (TCR)-driven Akt-mTOR phosphorylation and effector programmes. Potassium-mediated suppression of Akt-mTOR signalling and T cell function is dependent upon the activity of the serine/threonine phosphatase PP2A. Although the suppressive effect mediated by elevated [K + ] e is independent of changes in plasma membrane potential (V m ), it requires an increase in intracellular potassium ([K + ] i ). Accordingly, augmenting potassium efflux in tumour-specific T cells by overexpressing the potassium channel K v 1.3 lowers [K + ] i and improves effector functions in vitro and in vivo and enhances tumour clearance and survival in melanoma-bearing mice. These results uncover an ionic checkpoint that blocks T cell function in tumours and identify potential new strategies for cancer immunotherapy., Competing Interests: The authors declare no competing financial interests.

Published
2016
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50. Oxygen Sensing by T Cells Establishes an Immunologically Tolerant Metastatic Niche.

Author

Clever D, Roychoudhuri R, Constantinides MG, Askenase MH, Sukumar M, Klebanoff CA, Eil RL, Hickman HD, Yu Z, Pan JH, Palmer DC, Phan AT, Goulding J, Gattinoni L, Goldrath AW, Belkaid Y, and Restifo NP

Subjects
Adoptive Transfer, Animals, CD8-Positive T-Lymphocytes enzymology, Glycolysis immunology, Interferon-gamma immunology, Lung pathology, Lung Neoplasms therapy, Lymphocyte Activation, Mice, Mice, Knockout, Neoplasm Metastasis, Neuropilin-1 metabolism, Prolyl Hydroxylases genetics, T-Lymphocytes, Regulatory enzymology, Th1 Cells enzymology, Th1 Cells immunology, CD8-Positive T-Lymphocytes immunology, Lung immunology, Lung Neoplasms immunology, Lung Neoplasms secondary, Oxygen metabolism, Prolyl Hydroxylases metabolism, T-Lymphocytes, Regulatory immunology
Abstract

Cancer cells must evade immune responses at distant sites to establish metastases. The lung is a frequent site for metastasis. We hypothesized that lung-specific immunoregulatory mechanisms create an immunologically permissive environment for tumor colonization. We found that T-cell-intrinsic expression of the oxygen-sensing prolyl-hydroxylase (PHD) proteins is required to maintain local tolerance against innocuous antigens in the lung but powerfully licenses colonization by circulating tumor cells. PHD proteins limit pulmonary type helper (Th)-1 responses, promote CD4(+)-regulatory T (Treg) cell induction, and restrain CD8(+) T cell effector function. Tumor colonization is accompanied by PHD-protein-dependent induction of pulmonary Treg cells and suppression of IFN-γ-dependent tumor clearance. T-cell-intrinsic deletion or pharmacological inhibition of PHD proteins limits tumor colonization of the lung and improves the efficacy of adoptive cell transfer immunotherapy. Collectively, PHD proteins function in T cells to coordinate distinct immunoregulatory programs within the lung that are permissive to cancer metastasis. PAPERCLIP., (Published by Elsevier Inc.)

Published
2016
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