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 McLean

Marcin Cieslik, Arul M. Chinnaiyan, Witold Zgodziński, Grzegorz Wallner, Iwona Wertel, Karolina Okła, Ilona Kryczek, Costas A. Lyssiotis, Weiping Zou^*

^*Autor/a de correspondencia de este trabajo

Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva

491 Citas (Scopus)

Resumen

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	Inglés
Páginas (desde-hasta)	277-282
Número de páginas	6
Publicación	Nature
Volumen	585
N.º	7824
DOI	https://doi.org/10.1038/s41586-020-2682-1
Estado	Publicada - 10 sept 2020
Publicado de forma externa	Sí

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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",

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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, n.º 7824, pp. 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

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ER -

Cancer SLC43A2 alters T cell methionine metabolism and histone methylation

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