Cancer SLC43A2 alters T cell methionine metabolism and histone methylation

Yingjie Bian; Wei Li; Daniel M. Kremer; Peter Sajjakulnukit; Shasha Li; Joel Crespo; Zeribe C. Nwosu; Li Zhang; Arkadiusz Czerwonka; Anna Pawłowska; Houjun Xia; Jing Li; Peng Liao; Jiali Yu; Linda Vatan; Wojciech Szeliga; Shuang Wei; Sara Grove; J. Rebecca Liu; Karen McLean; Marcin Cieslik; Arul M. Chinnaiyan; Witold Zgodziński; Grzegorz Wallner; Iwona Wertel; Karolina Okła; Ilona Kryczek; Costas A. Lyssiotis; Weiping Zou

doi:10.1038/s41586-020-2682-1

Cancer SLC43A2 alters T cell methionine metabolism and histone methylation

Yingjie Bian, Wei Li, Daniel M. Kremer, Peter Sajjakulnukit, Shasha Li, Joel Crespo, Zeribe C. Nwosu, Li Zhang, Arkadiusz Czerwonka, Anna Pawłowska, Houjun Xia, Jing Li, Peng Liao, Jiali Yu, Linda Vatan, Wojciech Szeliga, Shuang Wei, Sara Grove, J. Rebecca Liu, Karen McLeanMarcin Cieslik, Arul M. Chinnaiyan, Witold Zgodziński, Grzegorz Wallner, Iwona Wertel, Karolina Okła, Ilona Kryczek, Costas A. Lyssiotis, Weiping Zou^*

^*Autor corresponent d’aquest treball

Producció científica: Article en revista indexada › Article › Avaluat per experts

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Abnormal epigenetic patterns correlate with effector T cell malfunction in tumours^1–4, but the cause of this link is unknown. Here we show that tumour cells disrupt methionine metabolism in CD8⁺ T cells, thereby lowering intracellular levels of methionine and the methyl donor S-adenosylmethionine (SAM) and resulting in loss of dimethylation at lysine 79 of histone H3 (H3K79me2). Loss of H3K79me2 led to low expression of STAT5 and impaired T cell immunity. Mechanistically, tumour cells avidly consumed methionine and outcompeted T cells for methionine by expressing high levels of the methionine transporter SLC43A2. Genetic and biochemical inhibition of tumour SLC43A2 restored H3K79me2 in T cells, thereby boosting spontaneous and checkpoint-induced tumour immunity. Moreover, methionine supplementation improved the expression of H3K79me2 and STAT5 in T cells, and this was accompanied by increased T cell immunity in tumour-bearing mice and patients with colon cancer. Clinically, tumour SLC43A2 correlated negatively with T cell histone methylation and functional gene signatures. Our results identify a mechanistic connection between methionine metabolism, histone patterns, and T cell immunity in the tumour microenvironment. Thus, cancer methionine consumption is an immune evasion mechanism, and targeting cancer methionine signalling may provide an immunotherapeutic approach.

Idioma original	Anglès
Pàgines (de-a)	277-282
Nombre de pàgines	6
Revista	Nature
Volum	585
Número	7824
DOIs	https://doi.org/10.1038/s41586-020-2682-1
Estat de la publicació	Publicada - 10 de set. 2020
Publicat externament	Sí

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10.1038/s41586-020-2682-1

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Bian, Y., Li, W., Kremer, D. M., Sajjakulnukit, P., Li, S., Crespo, J., Nwosu, Z. C., Zhang, L., Czerwonka, A., Pawłowska, A., Xia, H., Li, J., Liao, P., Yu, J., Vatan, L., Szeliga, W., Wei, S., Grove, S., Liu, J. R., ... Zou, W. (2020). Cancer SLC43A2 alters T cell methionine metabolism and histone methylation. Nature, 585(7824), 277-282. https://doi.org/10.1038/s41586-020-2682-1

@article{457e3a9919aa415a870a48256f2b3907,

title = "Cancer SLC43A2 alters T cell methionine metabolism and histone methylation",

abstract = "Abnormal epigenetic patterns correlate with effector T cell malfunction in tumours1–4, but the cause of this link is unknown. Here we show that tumour cells disrupt methionine metabolism in CD8+ T cells, thereby lowering intracellular levels of methionine and the methyl donor S-adenosylmethionine (SAM) and resulting in loss of dimethylation at lysine 79 of histone H3 (H3K79me2). Loss of H3K79me2 led to low expression of STAT5 and impaired T cell immunity. Mechanistically, tumour cells avidly consumed methionine and outcompeted T cells for methionine by expressing high levels of the methionine transporter SLC43A2. Genetic and biochemical inhibition of tumour SLC43A2 restored H3K79me2 in T cells, thereby boosting spontaneous and checkpoint-induced tumour immunity. Moreover, methionine supplementation improved the expression of H3K79me2 and STAT5 in T cells, and this was accompanied by increased T cell immunity in tumour-bearing mice and patients with colon cancer. Clinically, tumour SLC43A2 correlated negatively with T cell histone methylation and functional gene signatures. Our results identify a mechanistic connection between methionine metabolism, histone patterns, and T cell immunity in the tumour microenvironment. Thus, cancer methionine consumption is an immune evasion mechanism, and targeting cancer methionine signalling may provide an immunotherapeutic approach.",

keywords = "Plasma-concentrations, Genome browser, Dysfunction, Apoptosis",

author = "Yingjie Bian and Wei Li and Kremer, \{Daniel M.\} and Peter Sajjakulnukit and Shasha Li and Joel Crespo and Nwosu, \{Zeribe C.\} and Li Zhang and Arkadiusz Czerwonka and Anna Paw{\l}owska and Houjun Xia and Jing Li and Peng Liao and Jiali Yu and Linda Vatan and Wojciech Szeliga and Shuang Wei and Sara Grove and Liu, \{J. Rebecca\} and Karen McLean and Marcin Cieslik and Chinnaiyan, \{Arul M.\} and Witold Zgodzi{\'n}ski and Grzegorz Wallner and Iwona Wertel and Karolina Ok{\l}a and Ilona Kryczek and Lyssiotis, \{Costas A.\} and Weiping Zou",

note = "Publisher Copyright: {\textcopyright} 2020, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2020",

month = sep,

day = "10",

doi = "10.1038/s41586-020-2682-1",

language = "English",

volume = "585",

pages = "277--282",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "7824",

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Bian, Y, Li, W, Kremer, DM, Sajjakulnukit, P, Li, S, Crespo, J, Nwosu, ZC, Zhang, L, Czerwonka, A, Pawłowska, A, Xia, H, Li, J, Liao, P, Yu, J, Vatan, L, Szeliga, W, Wei, S, Grove, S, Liu, JR, McLean, K, Cieslik, M, Chinnaiyan, AM, Zgodziński, W, Wallner, G, Wertel, I, Okła, K, Kryczek, I, Lyssiotis, CA & Zou, W 2020, 'Cancer SLC43A2 alters T cell methionine metabolism and histone methylation', Nature, vol. 585, núm. 7824, pàg. 277-282. https://doi.org/10.1038/s41586-020-2682-1

TY - JOUR

T1 - Cancer SLC43A2 alters T cell methionine metabolism and histone methylation

AU - Bian, Yingjie

AU - Li, Wei

AU - Kremer, Daniel M.

AU - Sajjakulnukit, Peter

AU - Li, Shasha

AU - Crespo, Joel

AU - Nwosu, Zeribe C.

AU - Zhang, Li

AU - Czerwonka, Arkadiusz

AU - Pawłowska, Anna

AU - Xia, Houjun

AU - Li, Jing

AU - Liao, Peng

AU - Yu, Jiali

AU - Vatan, Linda

AU - Szeliga, Wojciech

AU - Wei, Shuang

AU - Grove, Sara

AU - Liu, J. Rebecca

AU - McLean, Karen

AU - Cieslik, Marcin

AU - Chinnaiyan, Arul M.

AU - Zgodziński, Witold

AU - Wallner, Grzegorz

AU - Wertel, Iwona

AU - Okła, Karolina

AU - Kryczek, Ilona

AU - Lyssiotis, Costas A.

AU - Zou, Weiping

PY - 2020/9/10

Y1 - 2020/9/10

N2 - Abnormal epigenetic patterns correlate with effector T cell malfunction in tumours1–4, but the cause of this link is unknown. Here we show that tumour cells disrupt methionine metabolism in CD8+ T cells, thereby lowering intracellular levels of methionine and the methyl donor S-adenosylmethionine (SAM) and resulting in loss of dimethylation at lysine 79 of histone H3 (H3K79me2). Loss of H3K79me2 led to low expression of STAT5 and impaired T cell immunity. Mechanistically, tumour cells avidly consumed methionine and outcompeted T cells for methionine by expressing high levels of the methionine transporter SLC43A2. Genetic and biochemical inhibition of tumour SLC43A2 restored H3K79me2 in T cells, thereby boosting spontaneous and checkpoint-induced tumour immunity. Moreover, methionine supplementation improved the expression of H3K79me2 and STAT5 in T cells, and this was accompanied by increased T cell immunity in tumour-bearing mice and patients with colon cancer. Clinically, tumour SLC43A2 correlated negatively with T cell histone methylation and functional gene signatures. Our results identify a mechanistic connection between methionine metabolism, histone patterns, and T cell immunity in the tumour microenvironment. Thus, cancer methionine consumption is an immune evasion mechanism, and targeting cancer methionine signalling may provide an immunotherapeutic approach.

AB - Abnormal epigenetic patterns correlate with effector T cell malfunction in tumours1–4, but the cause of this link is unknown. Here we show that tumour cells disrupt methionine metabolism in CD8+ T cells, thereby lowering intracellular levels of methionine and the methyl donor S-adenosylmethionine (SAM) and resulting in loss of dimethylation at lysine 79 of histone H3 (H3K79me2). Loss of H3K79me2 led to low expression of STAT5 and impaired T cell immunity. Mechanistically, tumour cells avidly consumed methionine and outcompeted T cells for methionine by expressing high levels of the methionine transporter SLC43A2. Genetic and biochemical inhibition of tumour SLC43A2 restored H3K79me2 in T cells, thereby boosting spontaneous and checkpoint-induced tumour immunity. Moreover, methionine supplementation improved the expression of H3K79me2 and STAT5 in T cells, and this was accompanied by increased T cell immunity in tumour-bearing mice and patients with colon cancer. Clinically, tumour SLC43A2 correlated negatively with T cell histone methylation and functional gene signatures. Our results identify a mechanistic connection between methionine metabolism, histone patterns, and T cell immunity in the tumour microenvironment. Thus, cancer methionine consumption is an immune evasion mechanism, and targeting cancer methionine signalling may provide an immunotherapeutic approach.

KW - Plasma-concentrations

KW - Genome browser

KW - Dysfunction

KW - Apoptosis

UR - https://www.scopus.com/pages/publications/85089786287

UR - https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=pure_univeritat_ramon_llull&SrcAuth=WosAPI&KeyUT=WOS:000565516400008&DestLinkType=FullRecord&DestApp=WOS_CPL

U2 - 10.1038/s41586-020-2682-1

DO - 10.1038/s41586-020-2682-1

M3 - Article

C2 - 32879489

AN - SCOPUS:85089786287

SN - 0028-0836

VL - 585

SP - 277

EP - 282

JO - Nature

JF - Nature

IS - 7824

ER -

Cancer SLC43A2 alters T cell methionine metabolism and histone methylation

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