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Literature DB >> 33004350

Epigenetic Control of Cdkn2a.Arf Protects Tumor-Infiltrating Lymphocytes from Metabolic Exhaustion.

Brian Koss¹, Bradley D Shields¹, Erin M Taylor¹, Aaron J Storey¹, Stephanie D Byrum^1,2,3, Allen J Gies^1,3, Charity L Washam^1,3, Samrat Roy Choudhury¹, Jeong Hyun Ahn⁴, Hidetaka Uryu⁴, Jason B Williams⁵, Kimberly J Krager⁶, Tung-Chin Chiang⁷, Samuel G Mackintosh¹, Rick D Edmondson², Nukhet Aykin-Burns⁶, Thomas F Gajewski⁵, Gang Greg Wang⁴, Alan J Tackett^8,2,3.

Abstract

T-cell exhaustion in cancer is linked to poor clinical outcomes, where evidence suggests T-cell metabolic changes precede functional exhaustion. Direct competition between tumor-infiltrating lymphocytes (TIL) and cancer cells for metabolic resources often renders T cells dysfunctional. Environmental stress produces epigenome remodeling events within TIL resulting from loss of the histone methyltransferase EZH2. Here, we report an epigenetic mechanism contributing to the development of metabolic exhaustion in TIL. A multiomics approach revealed a Cdkn2a.Arf-mediated, p53-independent mechanism by which EZH2 inhibition leads to mitochondrial dysfunction and the resultant exhaustion. Reprogramming T cells to express a gain-of-function EZH2 mutant resulted in an enhanced ability of T cells to inhibit tumor growth in vitro and in vivo. Our data suggest that manipulation of T-cell EZH2 within the context of cellular therapies may yield lymphocytes that are able to withstand harsh tumor metabolic environments and collateral pharmacologic insults. SIGNIFICANCE: These findings demonstrate that manipulation of T-cell EZH2 in cellular therapies may yield cellular products able to withstand solid tumor metabolic-deficient environments. GRAPHICAL ABSTRACT: http://cancerres.aacrjournals.org/content/canres/80/21/4707/F1.large.jpg. ©2020 American Association for Cancer Research.

Entities: CellLine Chemical Disease Gene Mutation Species

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Year: 2020 PMID： 33004350 PMCID： PMC7642172 DOI： 10.1158/0008-5472.CAN-20-0524

Source DB: PubMed Journal: Cancer Res ISSN： 0008-5472 Impact factor: 12.701

59 in total

1. Quantification of histone modifications by parallel-reaction monitoring: a method validation.

Authors: James L Sowers; Barsam Mirfattah; Pei Xu; Hui Tang; In Young Park; Cheryl Walker; Ping Wu; Fernanda Laezza; Lawrence C Sowers; Kangling Zhang
Journal: Anal Chem Date: 2015-10-06 Impact factor: 6.986

2. Bioenergetic Insufficiencies Due to Metabolic Alterations Regulated by the Inhibitory Receptor PD-1 Are an Early Driver of CD8(+) T Cell Exhaustion.

Authors: Bertram Bengsch; Andy L Johnson; Makoto Kurachi; Pamela M Odorizzi; Kristen E Pauken; John Attanasio; Erietta Stelekati; Laura M McLane; Michael A Paley; Greg M Delgoffe; E John Wherry
Journal: Immunity Date: 2016-08-02 Impact factor: 31.745

3. CANCER IMMUNOLOGY. The "cancer immunogram".

Authors: Christian U Blank; John B Haanen; Antoni Ribas; Ton N Schumacher
Journal: Science Date: 2016-05-06 Impact factor: 47.728

Review 4. Targeting DNA Methylation and EZH2 Activity to Overcome Melanoma Resistance to Immunotherapy.

Authors: Abdullah Al Emran; Aniruddha Chatterjee; Euan J Rodger; Jessamy C Tiffen; Stuart J Gallagher; Michael R Eccles; Peter Hersey
Journal: Trends Immunol Date: 2019-03-07 Impact factor: 16.687

5. Small mitochondrial Arf (smArf) protein corrects p53-independent developmental defects of Arf tumor suppressor-deficient mice.

Authors: Jolieke G van Oosterwijk; Chunliang Li; Xue Yang; Joseph T Opferman; Charles J Sherr
Journal: Proc Natl Acad Sci U S A Date: 2017-06-26 Impact factor: 11.205

Review 6. Molecular Mechanisms Directing PRC2 Recruitment and H3K27 Methylation.

Authors: Anne Laugesen; Jonas Westergaard Højfeldt; Kristian Helin
Journal: Mol Cell Date: 2019-04-04 Impact factor: 17.970

7. Mitochondrial Dynamics Controls T Cell Fate through Metabolic Programming.

Authors: Michael D Buck; David O'Sullivan; Ramon I Klein Geltink; Jonathan D Curtis; Chih-Hao Chang; David E Sanin; Jing Qiu; Oliver Kretz; Daniel Braas; Gerritje J W van der Windt; Qiongyu Chen; Stanley Ching-Cheng Huang; Christina M O'Neill; Brian T Edelson; Edward J Pearce; Hiromi Sesaki; Tobias B Huber; Angelika S Rambold; Erika L Pearce
Journal: Cell Date: 2016-06-09 Impact factor: 41.582

Review 8. Metabolic syndrome, autoimmunity and rheumatic diseases.

Authors: Gabriela Medina; Olga Vera-Lastra; Ana Lilia Peralta-Amaro; María Pilar Jiménez-Arellano; Miguel Angel Saavedra; María Pilar Cruz-Domínguez; Luis J Jara
Journal: Pharmacol Res Date: 2018-01-31 Impact factor: 7.658

Review 9. Metabolic Control of CD8⁺ T Cell Fate Decisions and Antitumor Immunity.

Authors: Lianjun Zhang; Pedro Romero
Journal: Trends Mol Med Date: 2017-12-12 Impact factor: 11.951

10. Genetic absence of PD-1 promotes accumulation of terminally differentiated exhausted CD8+ T cells.

Authors: Pamela M Odorizzi; Kristen E Pauken; Michael A Paley; Arlene Sharpe; E John Wherry
Journal: J Exp Med Date: 2015-06-01 Impact factor: 14.307

5 in total

Review 1. Immune Cell Metabolic Fitness for Life.

Authors: Kevin S Bittman
Journal: Antibodies (Basel) Date: 2022-04-30

Review 2. Importance of T, NK, CAR T and CAR NK Cell Metabolic Fitness for Effective Anti-Cancer Therapy: A Continuous Learning Process Allowing the Optimization of T, NK and CAR-Based Anti-Cancer Therapies.

Authors: Adrien Krug; Adriana Martinez-Turtos; Els Verhoeyen
Journal: Cancers (Basel) Date: 2021-12-30 Impact factor: 6.639

Epigenetic Control of Cdkn2a.Arf Protects Tumor-Infiltrating Lymphocytes from Metabolic Exhaustion.

1. Quantification of histone modifications by parallel-reaction monitoring: a method validation.

2. Bioenergetic Insufficiencies Due to Metabolic Alterations Regulated by the Inhibitory Receptor PD-1 Are an Early Driver of CD8(+) T Cell Exhaustion.

3. CANCER IMMUNOLOGY. The "cancer immunogram".

Review 4. Targeting DNA Methylation and EZH2 Activity to Overcome Melanoma Resistance to Immunotherapy.

5. Small mitochondrial Arf (smArf) protein corrects p53-independent developmental defects of Arf tumor suppressor-deficient mice.

Review 6. Molecular Mechanisms Directing PRC2 Recruitment and H3K27 Methylation.

7. Mitochondrial Dynamics Controls T Cell Fate through Metabolic Programming.

Review 8. Metabolic syndrome, autoimmunity and rheumatic diseases.

Review 9. Metabolic Control of CD8⁺ T Cell Fate Decisions and Antitumor Immunity.

10. Genetic absence of PD-1 promotes accumulation of terminally differentiated exhausted CD8+ T cells.

Review 1. Immune Cell Metabolic Fitness for Life.

Review 2. Importance of T, NK, CAR T and CAR NK Cell Metabolic Fitness for Effective Anti-Cancer Therapy: A Continuous Learning Process Allowing the Optimization of T, NK and CAR-Based Anti-Cancer Therapies.

Review 3. It's Getting Complicated-A Fresh Look at p53-MDM2-ARF Triangle in Tumorigenesis and Cancer Therapy.

Review 4. An Unanticipated Modulation of Cyclin-Dependent Kinase Inhibitors: The Role of Long Non-Coding RNAs.

5. Nicotinamide Inhibits T Cell Exhaustion and Increases Differentiation of CD8 Effector T Cells.

Review 4. Targeting DNA Methylation and EZH2 Activity to Overcome Melanoma Resistance to Immunotherapy.

Review 6. Molecular Mechanisms Directing PRC2 Recruitment and H3K27 Methylation.

Review 8. Metabolic syndrome, autoimmunity and rheumatic diseases.

Review 9. Metabolic Control of CD8+ T Cell Fate Decisions and Antitumor Immunity.

Review 1. Immune Cell Metabolic Fitness for Life.

Review 2. Importance of T, NK, CAR T and CAR NK Cell Metabolic Fitness for Effective Anti-Cancer Therapy: A Continuous Learning Process Allowing the Optimization of T, NK and CAR-Based Anti-Cancer Therapies.

Review 3. It's Getting Complicated-A Fresh Look at p53-MDM2-ARF Triangle in Tumorigenesis and Cancer Therapy.

Review 4. An Unanticipated Modulation of Cyclin-Dependent Kinase Inhibitors: The Role of Long Non-Coding RNAs.

Review 9. Metabolic Control of CD8⁺ T Cell Fate Decisions and Antitumor Immunity.