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Literature DB >> 30683669

Impaired enolase 1 glycolytic activity restrains effector functions of tumor-infiltrating CD8⁺ T cells.

Lelisa F Gemta¹, Peter J Siska^2,3, Marin E Nelson⁴, Xia Gao⁵, Xiaojing Liu⁵, Jason W Locasale⁵, Hideo Yagita⁶, Craig L Slingluff⁷, Kyle L Hoehn⁸, Jeffrey C Rathmell³, Timothy N J Bullock⁹.

Abstract

In the context of solid tumors, there is a positive correlation between the accumulation of cytotoxic CD8+ tumor-infiltrating lymphocytes (TILs) and favorable clinical outcomes. However, CD8+ TILs often exhibit a state of functional exhaustion, limiting their activity, and the underlying molecular basis of this dysfunction is not fully understood. Here, we show that TILs found in human and murine CD8+ melanomas are metabolically compromised with deficits in both glycolytic and oxidative metabolism. Although several studies have shown that tumors can outcompete T cells for glucose, thus limiting T cell metabolic activity, we report that a down-regulation in the activity of ENOLASE 1, a critical enzyme in the glycolytic pathway, represses glycolytic activity in CD8+ TILs. Provision of pyruvate, a downstream product of ENOLASE 1, bypasses this inactivity and promotes both glycolysis and oxidative phosphorylation, resulting in improved effector function of CD8+ TILs. We found high expression of both enolase 1 mRNA and protein in CD8+ TILs, indicating that the enzymatic activity of ENOLASE 1 is regulated posttranslationally. These studies provide a critical insight into the biochemical basis of CD8+ TIL dysfunction.

Entities: Chemical Disease Gene Species

Mesh：

Substances：

Year: 2019 PMID： 30683669 PMCID： PMC6824424 DOI： 10.1126/sciimmunol.aap9520

Source DB: PubMed Journal: Sci Immunol ISSN： 2470-9468

54 in total

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Authors: Joel Crespo; Haoyu Sun; Theodore H Welling; Zhigang Tian; Weiping Zou
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2. Type, density, and location of immune cells within human colorectal tumors predict clinical outcome.

Authors: Jérôme Galon; Anne Costes; Fatima Sanchez-Cabo; Amos Kirilovsky; Bernhard Mlecnik; Christine Lagorce-Pagès; Marie Tosolini; Matthieu Camus; Anne Berger; Philippe Wind; Franck Zinzindohoué; Patrick Bruneval; Paul-Henri Cugnenc; Zlatko Trajanoski; Wolf-Herman Fridman; Franck Pagès
Journal: Science Date: 2006-09-29 Impact factor: 47.728

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

Authors: Hung D Nguyen; Shilpak Chatterjee; Kelley M K Haarberg; Yongxia Wu; David Bastian; Jessica Heinrichs; Jianing Fu; Anusara Daenthanasanmak; Steven Schutt; Sharad Shrestha; Chen Liu; Honglin Wang; Hongbo Chi; Shikhar Mehrotra; Xue-Zhong Yu
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Review 4. mTOR, metabolism, and the regulation of T-cell differentiation and function.

Authors: Adam T Waickman; Jonathan D Powell
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5. Metabolic Competition in the Tumor Microenvironment Is a Driver of Cancer Progression.

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6. CD137 as a biomarker for tumor-reactive T cells: finding gold in the desert.

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Authors: Lin Zhang; Jose R Conejo-Garcia; Dionyssios Katsaros; Phyllis A Gimotty; Marco Massobrio; Giorgia Regnani; Antonis Makrigiannakis; Heidi Gray; Katia Schlienger; Michael N Liebman; Stephen C Rubin; George Coukos
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8. PD-1 alters T-cell metabolic reprogramming by inhibiting glycolysis and promoting lipolysis and fatty acid oxidation.

Authors: Nikolaos Patsoukis; Kankana Bardhan; Pranam Chatterjee; Duygu Sari; Bianling Liu; Lauren N Bell; Edward D Karoly; Gordon J Freeman; Victoria Petkova; Pankaj Seth; Lequn Li; Vassiliki A Boussiotis
Journal: Nat Commun Date: 2015-03-26 Impact factor: 14.919

Review 9. Progress in the biological function of alpha-enolase.

Authors: Hong Ji; Jianfa Wang; Jingru Guo; Yue Li; Shuai Lian; Wenjin Guo; Huanmin Yang; Fanzhi Kong; Li Zhen; Li Guo; Yanzhi Liu
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10. Induction and transcriptional regulation of the co-inhibitory gene module in T cells.

Authors: Norio Chihara; Asaf Madi; Takaaki Kondo; Huiyuan Zhang; Nandini Acharya; Meromit Singer; Jackson Nyman; Nemanja D Marjanovic; Monika S Kowalczyk; Chao Wang; Sema Kurtulus; Travis Law; Yasaman Etminan; James Nevin; Christopher D Buckley; Patrick R Burkett; Jason D Buenrostro; Orit Rozenblatt-Rosen; Ana C Anderson; Aviv Regev; Vijay K Kuchroo
Journal: Nature Date: 2018-06-13 Impact factor: 49.962

41 in total

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4. Improving the Clinical Significance of Preclinical Immunotherapy Studies through Incorporating Tumor Microenvironment-like Conditions.

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5. Sirt2 Inhibition Enhances Metabolic Fitness and Effector Functions of Tumor-Reactive T Cells.

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Impaired enolase 1 glycolytic activity restrains effector functions of tumor-infiltrating CD8⁺ T cells.

Review 1. T cell anergy, exhaustion, senescence, and stemness in the tumor microenvironment.

2. Type, density, and location of immune cells within human colorectal tumors predict clinical outcome.

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

Review 4. mTOR, metabolism, and the regulation of T-cell differentiation and function.

5. Metabolic Competition in the Tumor Microenvironment Is a Driver of Cancer Progression.

6. CD137 as a biomarker for tumor-reactive T cells: finding gold in the desert.

7. Intratumoral T cells, recurrence, and survival in epithelial ovarian cancer.

8. PD-1 alters T-cell metabolic reprogramming by inhibiting glycolysis and promoting lipolysis and fatty acid oxidation.

Review 9. Progress in the biological function of alpha-enolase.

10. Induction and transcriptional regulation of the co-inhibitory gene module in T cells.

1. STAT3 Activation-Induced Fatty Acid Oxidation in CD8⁺ T Effector Cells Is Critical for Obesity-Promoted Breast Tumor Growth.

Review 2. Navigating CAR-T cells through the solid-tumour microenvironment.

Review 3. Tumor microenvironmental influences on dendritic cell and T cell function: A focus on clinically relevant immunologic and metabolic checkpoints.

4. Improving the Clinical Significance of Preclinical Immunotherapy Studies through Incorporating Tumor Microenvironment-like Conditions.

5. Sirt2 Inhibition Enhances Metabolic Fitness and Effector Functions of Tumor-Reactive T Cells.

6. Mitochondrial fragmentation limits NK cell-based tumor immunosurveillance.

Review 7. Targeting immune cell metabolism in kidney diseases.

Review 8. CD8⁺ T cell metabolism in infection and cancer.

Review 9. The Complex Integration of T-cell Metabolism and Immunotherapy.

Review 10. T cell metabolism in homeostasis and cancer immunity.

Review 1. T cell anergy, exhaustion, senescence, and stemness in the tumor microenvironment.

Review 4. mTOR, metabolism, and the regulation of T-cell differentiation and function.

Review 9. Progress in the biological function of alpha-enolase.

Review 2. Navigating CAR-T cells through the solid-tumour microenvironment.

Review 3. Tumor microenvironmental influences on dendritic cell and T cell function: A focus on clinically relevant immunologic and metabolic checkpoints.

Review 7. Targeting immune cell metabolism in kidney diseases.

Review 8. CD8+ T cell metabolism in infection and cancer.

Review 9. The Complex Integration of T-cell Metabolism and Immunotherapy.

Review 10. T cell metabolism in homeostasis and cancer immunity.

Review 8. CD8⁺ T cell metabolism in infection and cancer.