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1. Metabolic programs of T cell tissue residency empower tumour immunity.

Author

Reina-Campos, Miguel, Heeg, Maximilian, Kennewick, Kelly, Mathews, Ian, Galletti, Giovanni, Luna, Vida, Nguyen, Quynhanh, Huang, Hongling, Milner, J, Hu, Kenneth, Vichaidit, Amy, Santillano, Natalie, Boland, Brigid, Chang, John, Jain, Mohit, Sharma, Sonia, Krummel, Matthew, Chi, Hongbo, Bensinger, Steven, and Goldrath, Ananda

Subjects
Animals, Humans, Mice, CD8-Positive T-Lymphocytes, Cell Respiration, Cholesterol, Immunologic Memory, Intestine, Small, Lymphocytes, Tumor-Infiltrating, Metabolomics, Mevalonic Acid, Neoplasms, Ubiquinone, Virus Diseases, Viruses, Mitochondria
Abstract

Tissue resident memory CD8+ T (TRM) cells offer rapid and long-term protection at sites of reinfection1. Tumour-infiltrating lymphocytes with characteristics of TRM cells maintain enhanced effector functions, predict responses to immunotherapy and accompany better prognoses2,3. Thus, an improved understanding of the metabolic strategies that enable tissue residency by T cells could inform new approaches to empower immune responses in tissues and solid tumours. Here, to systematically define the basis for the metabolic reprogramming supporting TRM cell differentiation, survival and function, we leveraged in vivo functional genomics, untargeted metabolomics and transcriptomics of virus-specific memory CD8+ T cell populations. We found that memory CD8+ T cells deployed a range of adaptations to tissue residency, including reliance on non-steroidal products of the mevalonate-cholesterol pathway, such as coenzyme Q, driven by increased activity of the transcription factor SREBP2. This metabolic adaptation was most pronounced in the small intestine, where TRM cells interface with dietary cholesterol and maintain a heightened state of activation4, and was shared by functional tumour-infiltrating lymphocytes in diverse tumour types in mice and humans. Enforcing synthesis of coenzyme Q through deletion of Fdft1 or overexpression of PDSS2 promoted mitochondrial respiration, memory T cell formation following viral infection and enhanced antitumour immunity. In sum, through a systematic exploration of TRM cell metabolism, we reveal how these programs can be leveraged to fuel memory CD8+ T cell formation in the context of acute infections and enhance antitumour immunity.

Published
2023

3. Trans-vaccenic acid reprograms CD8+ T cells and anti-tumour immunity

Author

Fan, Hao, Xia, Siyuan, Xiang, Junhong, Li, Yuancheng, Ross, Matthew O., Lim, Seon Ah, Yang, Fan, Tu, Jiayi, Xie, Lishi, Dougherty, Urszula, Zhang, Freya Q., Zheng, Zhong, Zhang, Rukang, Wu, Rong, Dong, Lei, Su, Rui, Chen, Xiufen, Althaus, Thomas, Riedell, Peter A., Jonker, Patrick B., Muir, Alexander, Lesinski, Gregory B., Rafiq, Sarwish, Dhodapkar, Madhav V., Stock, Wendy, Odenike, Olatoyosi, Patel, Anand A., Opferman, Joseph, Tsuji, Takemasa, Matsuzaki, Junko, Shah, Hardik, Faubert, Brandon, Elf, Shannon E., Layden, Brian, Bissonnette, B. Marc, He, Yu-Ying, Kline, Justin, Mao, Hui, Odunsi, Kunle, Gao, Xue, Chi, Hongbo, He, Chuan, and Chen, Jing

Published
2023
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4. Pulmonary and renal long COVID at two-year revisit

Author

Wang, Jing, Liang, Xiao, Zheng, Yufen, Zhu, Yi, Zhou, Kai, Wu, Xiaomai, Sun, Rui, Hu, Yifan, Zhu, Xiaoli, Chi, Hongbo, Chen, Shanjun, Lyu, Mengge, Xie, Yuting, Yi, Xiao, Liu, Wei, Cai, Xue, Li, Sainan, Zhang, Qiushi, Wu, Chunlong, Shi, Yingqiu, Wang, Donglian, Peng, Minfei, Zhang, Ying, Liu, Huafen, Zhang, Chao, Quan, Sheng, Kong, Ziqing, Kang, Zhouyang, Zhu, Guangjun, Zhu, Hongguo, Chen, Shiyong, Liang, Junbo, Yang, Hai, Pang, Jianxin, Fang, Yicheng, Chen, Haixiao, Li, Jun, Xu, Jiaqin, Guo, Tiannan, and Shen, Bo

Published
2024
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5. NetBID2 provides comprehensive hidden driver analysis

Author

Dong, Xinran, Ding, Liang, Thrasher, Andrew, Wang, Xinge, Liu, Jingjing, Pan, Qingfei, Rash, Jordan, Dhungana, Yogesh, Yang, Xu, Risch, Isabel, Li, Yuxin, Yan, Lei, Rusch, Michael, McLeod, Clay, Yan, Koon-Kiu, Peng, Junmin, Chi, Hongbo, Zhang, Jinghui, and Yu, Jiyang

Published
2023
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7. Strengthening bonds via RyR2 inhibition helps immune suppression

Author

Norton, Erienne G., Chapman, Nicole M., and Chi, Hongbo

Subjects
T cells -- Analysis, Homeostasis -- Health aspects, Transforming growth factors -- Analysis, Immunosuppression -- Patient outcomes, Health care industry
Abstract

Foxp3-expressingTregs employ multiple suppressive mechanisms to curtail conventional T cell (Tconv) responses and establish tissue homeostasis. How Foxp3 coordinates Treg contact-dependent suppressive function is not fully resolved. In this issue of the JCI, Wang and colleagues revealed that Foxp3-mediated inhibition of ryanodine receptor 2 (RyR2) led to strong Treg-DC interactions and enhanced immunosuppression. RyR2 depletion in Tconvs phenocopied this effect and equipped Tconvs with Treg-like suppressive function in multiple inflammatory or autoimmune contexts. This study provides molecular and therapeutic insights underlying how cell-cell contact limits immune reactivity., Treg suppressive mechanisms limit immune reactivity Tregs are a specialized subset of [CD4.sup.+] T cells characterized by the expression of the master transcription factor, Foxp3, which orchestrates Treg development and [...]

Published
2023
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8. Amino Acids License Kinase mTORC1 Activity and Treg Cell Function via Small G Proteins Rag and Rheb

Author

Shi, Hao, Chapman, Nicole M, Wen, Jing, Guy, Cliff, Long, Lingyun, Dhungana, Yogesh, Rankin, Sherri, Pelletier, Stephane, Vogel, Peter, Wang, Hong, Peng, Junmin, Guan, Kun-Liang, and Chi, Hongbo

Subjects
1.1 Normal biological development and functioning, Underpinning research, Inflammatory and immune system, Animals, Arginine, Cell Cycle, Cell Differentiation, Cell Line, Humans, Immune Tolerance, Leucine, Lymphocyte Activation, Mechanistic Target of Rapamycin Complex 1, Mice, Mice, Inbred C57BL, Mice, Knockout, Monomeric GTP-Binding Proteins, Ras Homolog Enriched in Brain Protein, Receptors, Antigen, T-Cell, T-Lymphocytes, Regulatory, RagA, RagB, Rheb, Treg cells, amino acids, autoimmunity, eTreg cells, mTOR, metabolism, Immunology
Abstract

Regulatory T (Treg) cells are critical mediators of immune tolerance whose activity depends upon T cell receptor (TCR) and mTORC1 kinase signaling, but the mechanisms that dictate functional activation of these pathways are incompletely understood. Here, we showed that amino acids license Treg cell function by priming and sustaining TCR-induced mTORC1 activity. mTORC1 activation was induced by amino acids, especially arginine and leucine, accompanied by the dynamic lysosomal localization of the mTOR and Tsc complexes. Rag and Rheb GTPases were central regulators of amino acid-dependent mTORC1 activation in effector Treg (eTreg) cells. Mice bearing RagA-RagB- or Rheb1-Rheb2-deficient Treg cells developed a fatal autoimmune disease and had reduced eTreg cell accumulation and function. RagA-RagB regulated mitochondrial and lysosomal fitness, while Rheb1-Rheb2 enforced eTreg cell suppressive gene signature. Together, these findings reveal a crucial requirement of amino acid signaling for licensing and sustaining mTORC1 activation and functional programming of Treg cells.

Published
2019

9. cBAF complex components and MYC cooperate early in CD8+ T cell fate

Author

Guo, Ao, Huang, Hongling, Zhu, Zhexin, Chen, Mark J., Shi, Hao, Yuan, Sujing, Sharma, Piyush, Connelly, Jon P., Liedmann, Swantje, Dhungana, Yogesh, Li, Zhenrui, Haydar, Dalia, Yang, Mao, Beere, Helen, Yustein, Jason T., DeRenzo, Christopher, Pruett-Miller, Shondra M., Crawford, Jeremy Chase, Krenciute, Giedre, Roberts, Charles W. M., Chi, Hongbo, and Green, Douglas R.

Published
2022
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10. Retinoic acid signaling acts as a rheostat to balance Treg function

Author

Thangavelu, Govindarajan, Andrejeva, Gabriela, Bolivar-Wagers, Sara, Jin, Sujeong, Zaiken, Michael C., Loschi, Michael, Aguilar, Ethan G., Furlan, Scott N., Brown, Chrysothemis C., Lee, Yu-Chi, Hyman, Cameron McDonald, Feser, Colby J., Panoskaltsis-Mortari, Angela, Hippen, Keli L., MacDonald, Kelli P., Murphy, William J., Maillard, Ivan, Hill, Geoffrey R., Munn, David H., Zeiser, Robert, Kean, Leslie S., Rathmell, Jeffrey C., Chi, Hongbo, Noelle, Randolph J., and Blazar, Bruce R.

Published
2022
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13. CRISPR screens unveil signal hubs for nutrient licensing of T cell immunity

Author

Long, Lingyun, Wei, Jun, Lim, Seon Ah, Raynor, Jana L., Shi, Hao, Connelly, Jon P., Wang, Hong, Guy, Cliff, Xie, Boer, Chapman, Nicole M., Fu, Guotong, Wang, Yanyan, Huang, Hongling, Su, Wei, Saravia, Jordy, Risch, Isabel, Wang, Yong-Dong, Li, Yuxin, Niu, Mingming, Dhungana, Yogesh, KC, Anil, Zhou, Peipei, Vogel, Peter, Yu, Jiyang, Pruett-Miller, Shondra M., Peng, Junmin, and Chi, Hongbo

Published
2021
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14. Maintenance of CD4 T cell fitness through regulation of Foxo1

Author

Newton, Ryan H, Shrestha, Sharad, Sullivan, Jenna M, Yates, Kathleen B, Compeer, Ewoud B, Ron-Harel, Noga, Blazar, Bruce R, Bensinger, Steven J, Haining, W Nicholas, Dustin, Michael L, Campbell, Daniel J, Chi, Hongbo, and Turka, Laurence A

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Biodefense, Genetics, Prevention, Vaccine Related, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, CD4-Positive T-Lymphocytes, Cell Proliferation, Cells, Cultured, Cholesterol, Forkhead Box Protein O1, Gene Expression Profiling, Homeostasis, Immunological Synapses, Interleukin-2 Receptor beta Subunit, Lymphocyte Activation, Mechanistic Target of Rapamycin Complex 1, Mice, Mice, Knockout, Proto-Oncogene Proteins c-akt, Proto-Oncogene Proteins c-myc, Signal Transduction, T-Lymphocytes, Regulatory, Immunology, Biochemistry and cell biology
Abstract

Foxo transcription factors play an essential role in regulating specialized lymphocyte functions and in maintaining T cell quiescence. Here, we used a system in which Foxo1 transcription-factor activity, which is normally terminated upon cell activation, cannot be silenced, and we show that enforcing Foxo1 activity disrupts homeostasis of CD4 conventional and regulatory T cells. Despite limiting cell metabolism, continued Foxo1 activity is associated with increased activation of the kinase Akt and a cell-intrinsic proliferative advantage; however, survival and cell division are decreased in a competitive setting or growth-factor-limiting conditions. Via control of expression of the transcription factor Myc and the IL-2 receptor β-chain, termination of Foxo1 signaling couples the increase in cellular cholesterol to biomass accumulation after activation, thereby facilitating immunological synapse formation and mTORC1 activity. These data reveal that Foxo1 regulates the integration of metabolic and mitogenic signals essential for T cell competitive fitness and the coordination of cell growth with cell division.

Published
2018

15. Metabolic control of TFH cells and humoral immunity by phosphatidylethanolamine

Author

Fu, Guotong, Guy, Clifford S., Chapman, Nicole M., Palacios, Gustavo, Wei, Jun, Zhou, Peipei, Long, Lingyun, Wang, Yong-Dong, Qian, Chenxi, Dhungana, Yogesh, Huang, Hongling, KC, Anil, Shi, Hao, Rankin, Sherri, Brown, Scott A., Johnson, Amanda, Wakefield, Randall, Robinson, Camenzind G., Liu, Xueyan, Sheyn, Anthony, Yu, Jiyang, Jackowski, Suzanne, and Chi, Hongbo

Published
2021
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16. Lipid signalling enforces functional specialization of T.sub.reg cells in tumours

Author

Lim, Seon Ah, Wei, Jun, Nguyen, Thanh-Long M., Shi, Hao, Su, Wei, Palacios, Gustavo, Dhungana, Yogesh, Chapman, Nicole M., Long, Lingyun, Saravia, Jordy, Vogel, Peter, and Chi, Hongbo

Subjects
Lipids -- Physiological aspects, T cells -- Physiological aspects, Tumors -- Development and progression, Cellular signal transduction -- Observations, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Regulatory T cells (T.sub.reg cells) are essential for immune tolerance.sup.1, but also drive immunosuppression in the tumour microenvironment.sup.2. Therapeutic targeting of T.sub.reg cells in cancer will therefore require the identification of context-specific mechanisms that affect their function. Here we show that inhibiting lipid synthesis and metabolic signalling that are dependent on sterol-regulatory-element-binding proteins (SREBPs) in T.sub.reg cells unleashes effective antitumour immune responses without autoimmune toxicity. We find that the activity of SREBPs is upregulated in intratumoral T.sub.reg cells. Moreover, deletion of SREBP-cleavage-activating protein (SCAP)--a factor required for SREBP activity--in these cells inhibits tumour growth and boosts immunotherapy that is triggered by targeting the immune-checkpoint protein PD-1. These effects of SCAP deletion are associated with uncontrolled production of interferon-[gamma] and impaired function of intratumoral T.sub.reg cells. Mechanistically, signalling through SCAP and SREBPs coordinates cellular programs for lipid synthesis and inhibitory receptor signalling in these cells. First, de novo fatty-acid synthesis mediated by fatty-acid synthase (FASN) contributes to functional maturation of T.sub.reg cells, and loss of FASN from T.sub.reg cells inhibits tumour growth. Second, T.sub.reg cells in tumours show enhanced expression of the PD-1 gene, through a process that depends on SREBP activity and signals via mevalonate metabolism to protein geranylgeranylation. Blocking PD-1 or SREBP signalling results in dysregulated activation of phosphatidylinositol-3-kinase in intratumoral T.sub.reg cells. Our findings show that metabolic reprogramming enforces the functional specialization of T.sub.reg cells in tumours, pointing to new ways of targeting these cells for cancer therapy. Identification of a metabolic checkpoint involving lipid signalling that is specific to regulatory T cells (T.sub.reg cells) in the tumour microenvironment raises the possibility of targeting this checkpoint for treatment of cancer., Author(s): Seon Ah Lim [sup.1] , Jun Wei [sup.1] , Thanh-Long M. Nguyen [sup.1] , Hao Shi [sup.1] , Wei Su [sup.1] , Gustavo Palacios [sup.1] , Yogesh Dhungana [sup.1] [...]

Published
2021
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22. Parameters and Morphological Changes of Erythrocytes and Platelets of COVID-19 Subjects: A Longitudinal Cohort Study

Author

Shen,Liping, Chen,Linping, Chi,Hongbo, Luo,Lifei, Ruan,Jinsu, Zhao,Xinzhuan, Jiang,Yi, Tung,Tao-Hsin, Zhu,Hongguo, Zhou,Kai, Shen,Bo, and Xu,Jiaqin

Subjects
Pharmacology, Infectious Diseases, Infection and Drug Resistance, Pharmacology (medical)
Abstract

Liping Shen,1,* Linping Chen,1,* Hongbo Chi,1 Lifei Luo,1 Jinsu Ruan,1 Xinzhuan Zhao,1 Yi Jiang,1 Tao-Hsin Tung,2 Hongguo Zhu,1 Kai Zhou,1 Bo Shen,1 Jiaqin Xu1 1Department of Clinical Laboratory, Taizhou Hospital of Zhejiang Province Affiliated to Wenzhou Medical University, Taizhou, People’s Republic of China; 2Evidence-Based Medicine Center, Taizhou Hospital of Zhejiang Province Affiliated to Wenzhou Medical University, Taizhou, People’s Republic of China*These authors contributed equally to this workCorrespondence: Jiaqin Xu; Bo Shen, Department of Clinical Laboratory, Taizhou Hospital of Zhejiang Province Affiliated to Wenzhou Medical University, Taizhou, People’s Republic of China, Tel +86-13968607148 ; +86 13586121278, Email xujq@enzemed.com; shenb@enzemed.comPurpose: Information about dynamic changes occurring in the parameters and morphology of erythrocytes and platelets during the coronavirus disease 2019 (COVID-19) infection and convalescence is scarce. To explore potential associations between dynamic erythrocyte and platelet parameters, morphological changes, and the course or severity of the disease is essential.Patients and Methods: From January 17th, 2020, to February 20th, 2022, we followed up on 35 patients with non-severe and 11 patients with severe COVID-19 following their discharge. We collected clinical features, dynamic complete blood count (CBC), and peripheral blood smears (PBS) and analyzed parameter and morphological changes of erythrocytes and platelets depending on the course or severity of the disease. The course of the disease included four periods, namely onset (T1), discharge (T2), 1-year follow-up (T3), and 2-year follow-up (T4).Results: Red blood cell (RBC) counts and hemoglobin were the lowest in T2, followed by T1, and lower in T1 and T2 than in T3 and T4. Inversely, the red blood cell distribution width (RDW) was the highest in T2, followed by T1, and higher than in T3 and T4. Compared to non-severe patients, the platelet of severe patients was lower in T1 and T2. In contrast, the mean platelet volume (MPV) and platelet distribution width (PDW) tended to be higher in severe patients. Similarly, anisocytosis was more common in peripheral blood smears at early stages and in severe patients. Finally, large platelets were more common in severe patients.Conclusion: Anisocytosis of erythrocytes and large platelets are found in patients with severe COVID-19, these changes may help primary hospitals to identify patients with a high risk of severe COVID-19 at an early stage.Keywords: erythrocytes, blood platelets, COVID-19

Published
2023

29. The vimentin intermediate filament network restrains regulatory T cell suppression of graft-versus-host disease

Author

McDonald-Hyman, Cameron, Muller, James T., Loschi, Michael, Thangavelu, Govindarajan, Saha, Asim, Kumari, Sudha, Reichenbach, Dawn K., Smith, Michelle J., Zhang, Guoan, Koehn, Brent H., Lin, Jiqiang, Mitchell, Jason S., Fife, Brian T., Panoskaltsis-Mortari, Angela, Feser, Colby J., Kirchmeier, Andrew Kemal, Osborn, Mark J., Hippen, Keli L., Kelekar, Ameeta, Serody, Jonathan S., Turka, Laurence A., Munn, David H., Chi, Hongbo, Neubert, Thomas A., Dustin, Michael L., and Blazar, Bruce R.

Subjects
Cytoskeletal proteins -- Health aspects, Graft vs. host disease -- Development and progression -- Care and treatment -- Genetic aspects, Immune response -- Genetic aspects, T cells -- Health aspects -- Genetic aspects, Health care industry
Abstract

Regulatory T cells (Tregs) are critical for maintaining immune homeostasis. However, current Treg immunotherapies do not optimally treat inflammatory diseases in patients. Understanding the cellular processes that control Treg function may allow for the augmentation of therapeutic efficacy. In contrast to activated conventional T cells, in which protein kinase C-6 (PKC-O) localizes to the contact point between T cells and antigen- presenting cells, in human and mouse Tregs, PKC-6 localizes to the opposite end of the cell in the distal pole complex (DPC). Here, using a phosphoproteomic screen, we identified the intermediate filament vimentin as a PKC-6 phospho target and show that vimentin forms a DPC superstructure on which PKC-6 accumulates. Treatment of mouse Tregs with either a clinically relevant PKC-6 inhibitor or vimentin siRNA disrupted vimentin and enhanced Treg metabolic and suppressive activity. Moreover, vimentin-disrupted mouse Tregs were significantly better than controls at suppressing alloreactive T cell priming in graft-versus-host disease (GVHD) and GVHD lethality, using a complete MHC-mismatch mouse model of acute GVHD (C57BL/6 donor into BALB/c host). Interestingly, vimentin disruption augmented the suppressor function of PKC-[theta]-deficient mouse Tregs. This suggests that enhanced Treg activity after PKC-6 inhibition is secondary to effects on vimentin, not just PKC-6 kinase activity inhibition. Our data demonstrate that vimentin is a key metabolic and functional controller of Treg activity and provide proof of principle that disruption of vimentin is a feasible, translationally relevant method to enhance Treg potency., Introduction Regulatory T cells (Tregs) are critical for maintaining immune homeostasis and preventing autoimmune and inflammatory disorders (1, 2). However, they also support cancer progression by suppressing antitumor immunity (3). [...]

Published
2018
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31. Abstract 1778: B7-H3-CAR T-cell therapy in immune-competent osteosarcoma models: Regnase-1 KO overcomes limited CAR T-cell expansion

Author

Adeshakin, Adeleye O., primary, Zhou, Peipei, additional, Métais, Jean-Yves, additional, Nguyen, Phuong, additional, Perry, Scott, additional, Sheppard, Heather, additional, Sun, Xiang, additional, Cunningham, Trevor, additional, Shi, Hao, additional, Wagner, Jessica, additional, Yustein, Jason T., additional, DeRenzo, Christopher, additional, Krenciute, Giedre, additional, Chi, Hongbo, additional, and Gottschalk, Stephen, additional

Published
2023
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33. cBAF complex components and MYC cooperate early in CD8+T cell fate

Author

Guo, Ao, Huang, Hongling, Zhu, Zhexin, Chen, Mark J., Shi, Hao, Yuan, Sujing, Sharma, Piyush, Connelly, Jon P., Liedmann, Swantje, Dhungana, Yogesh, Li, Zhenrui, Haydar, Dalia, Yang, Mao, Beere, Helen, Yustein, Jason T., DeRenzo, Christopher, Pruett-Miller, Shondra M., Crawford, Jeremy Chase, Krenciute, Giedre, Roberts, Charles W. M., Chi, Hongbo, and Green, Douglas R.

Abstract

The identification of mechanisms to promote memory T (Tmem) cells has important implications for vaccination and anti-cancer immunotherapy1–4. Using a CRISPR-based screen for negative regulators of Tmemcell generation in vivo5, here we identify multiple components of the mammalian canonical BRG1/BRM-associated factor (cBAF)6,7. Several components of the cBAF complex are essential for the differentiation of activated CD8+T cells into T effector (Teff) cells, and their loss promotes Tmemcell formation in vivo. During the first division of activated CD8+T cells, cBAF and MYC8frequently co-assort asymmetrically to the two daughter cells. Daughter cells with high MYC and high cBAF display a cell fate trajectory towards Teffcells, whereas those with low MYC and low cBAF preferentially differentiate towards Tmemcells. The cBAF complex and MYC physically interact to establish the chromatin landscape in activated CD8+T cells. Treatment of naive CD8+T cells with a putative cBAF inhibitor during the first 48 h of activation, before the generation of chimeric antigen receptor T (CAR-T) cells, markedly improves efficacy in a mouse solid tumour model. Our results establish cBAF as a negative determinant of Tmemcell fate and suggest that manipulation of cBAF early in T cell differentiation can improve cancer immunotherapy.

Published
2024
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34. Longitudinal observation of viral load in patients infected with Omicron variant and its relationship with clinical symptoms

Author

Zhou, Kai, primary, Hu, Bingjie, additional, Zhao, Xinzhuan, additional, Chi, Hongbo, additional, Pan, Juan, additional, Zheng, Yufen, additional, Bi, Xiaojie, additional, Chen, Mengyuan, additional, Xie, Jicheng, additional, Xu, Jiaqin, additional, Tung, Tao-Hsin, additional, Shen, Bo, additional, and Zhu, Hongguo, additional

Published
2023
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36. Histone Acetyltransferases Are Critical Interacting Proteins in NUP98-Rearranged Acute Myeloid Leukemia

Author

Michmerhuizen, Nicole L., primary, Umeda, Masayuki, additional, Iacobucci, Ilaria, additional, Arthur, Bright, additional, Di Giacomo, Danika, additional, Hiltenbrand, Ryan, additional, Portola, Pablo, additional, Abdelhamed, Sherif, additional, Huang, Hongling, additional, Zhou, Peipei, additional, Long, Lingyun, additional, Shi, Hao, additional, Sun, Yu, additional, Papachristou, Evangelia K., additional, Chilamakuri, Chandra, additional, D'Santos, Clive S., additional, Chi, Hongbo, additional, Klco, Jeffery M., additional, and Mullighan, Charles G., additional

Published
2022
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37. Physical condition, psychological status, and posttraumatic stress disorder among recovered COVID-19 subjects: A mediation analysis

Author

Zhou, Kai, primary, Chi, Hongbo, additional, Wang, Jing, additional, Zheng, Yufen, additional, Pan, Juan, additional, Yu, Die, additional, Xu, Jiaqin, additional, Zhu, Hongguo, additional, Li, Jun, additional, Chen, Shiyong, additional, Zhao, Xinzhuan, additional, Wu, Xiaomai, additional, Shen, Bo, additional, Tung, Tao-Hsin, additional, and Luo, Chengwen, additional

Published
2022
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41. Beneficial innate signaling interference for antibacterial responses by a Toll-like receptor–mediated enhancement of the MKP-IRF3 axis

Author

Negishi, Hideo, Matsuki, Kosuke, Endo, Nobuyasu, Sarashina, Hana, Miki, Shoji, Matsuda, Atsushi, Fukazawa, Keiko, Taguchi-Atarashi, Naoko, Ikushima, Hiroaki, Yanai, Hideyuki, Nishio, Junko, Honda, Kenya, Fujioka, Yoichiro, Ohba, Yusuke, Noda, Tetsuo, Taniguchi, Shun'ichiro, Nishida, Eisuke, Zhang, Yongliang, Chi, Hongbo, Flavell, Richard A., and Taniguchi, Tadatsugu

Published
2013

42. Metabolic reprogramming of alloantigen-activated T cells after hematopoietic cell transplantation

Author

Nguyen, Hung D., Chatterjee, Shilpak, Haarberg, Kelley M.K., Wu, Yongxia, Bastian, David, Heinrichs, Jessica, Fu, Jianing, Daenthanasanmak, Anusara, Schutt, Steven, Shrestha, Sharad, Liu, Chen, Wang, Honglin, Chi, Hongbo, Mehrotra, Shikhar, and Yu, Xue-Zhong

Subjects
Antigen-antibody reactions -- Observations, T cells -- Properties, Hematopoietic stem cells -- Transplantation, Graft versus host reaction -- Prevention, Cell metabolism -- Observations, Health care industry
Abstract

Alloreactive donor T cells are the driving force in the induction of graft-versus-host disease (GVHD), yet little is known about T cell metabolism in response to alloantigens after hematopoietic cell transplantation (HCT). Here, we have demonstrated that donor T cells undergo metabolic reprograming after allogeneic HCT. Specifically, we employed a murine allogeneic BM transplant model and determined that T cells switch from fatty acid β-oxidation (FAO) and pyruvate oxidation via the tricarboxylic (TCA) cycle to aerobic glycolysis, thereby increasing dependence upon glutaminolysis and the pentose phosphate pathway. Glycolysis was required for optimal function of alloantigen-activated T cells and induction of GVHD, as inhibition of glycolysis by targeting mTORC1 or 6-phosphofructo-2-kinase/fructose-2,6-biphosphatase 3 (PFKFB3) ameliorated GVHD mortality and morbidity. Together, our results indicate that donor T cells use glycolysis as the predominant metabolic process after allogeneic HCT and suggest that glycolysis has potential as a therapeutic target for the control of GVHD., Introduction Graft-versus-host disease (GVHD), caused by alloreactive donor T cells, is a major factor limiting successful allogeneic hematopoietic cell transplantation (allo-HCT) (1). Cell metabolism determines T cell fate and function. [...]

Published
2016
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43. Lipid signalling enforces Treg cell functional specialization in tumours

Author

Lim, Seon Ah, Wei, Jun, Nguyen, Thanh-Long M., Shi, Hao, Su, Wei, Palacios, Gustavo, Dhungana, Yogesh, Chapman, Nicole M., Long, Lingyun, Saravia, Jordy, Vogel, Peter, and Chi, Hongbo

Subjects
hemic and immune systems, chemical and pharmacologic phenomena, Article
Abstract

Regulatory T (Treg) cells are essential for immune tolerance1 but also drive immunosuppression in the tumour microenvironment (TME)2. Therapeutic targeting of Treg cells in cancer requires the identification of context-specific mechanisms for Treg cell function. Here we demonstrate that inhibition of sterol regulatory element-binding protein (SREBP)-dependent lipid synthesis and metabolic signalling in Treg cells unleashes effective antitumour immune responses without autoimmune toxicity. SREBP activity is upregulated in intratumoural Treg cells, and Treg cell-specific deletion of SCAP, an obligatory factor for SREBP activity, inhibits tumour growth and boosts anti-PD-1 immunotherapy, associated with uncontrolled IFN-γ production and impaired function of intratumoural Treg cells. Mechanistically, SCAP/SREBP signalling coordinates lipid synthetic programs and inhibitory receptor signalling in Treg cells. First, de novo fatty acid synthesis mediated by fatty acid synthase (FASN) contributes to functional maturation of Treg cells, and loss of FASN in Treg cells inhibits tumour growth. Second, Treg cells show enhanced Pdcd1 expression in tumours in a process dependent on SREBP activity that further signals to mevalonate metabolism-driven protein geranylgeranylation, and blocking PD-1 or SREBP signaling results in dysregulated PI3K activation in intratumoural Treg cells. Our findings establish that metabolic reprogramming enforces Treg cell functional specialization in tumours, pointing to new avenues to target Treg cells for cancer therapy.

Published
2021

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