Cystine transporter regulation of pentose phosphate pathway dependency and disulfide stress exposes a targetable metabolic vulnerability in cancer

Xiaoguang Liu; Kellen Olszewski; Yilei Zhang; Esther W. Lim; Jiejun Shi; Xiaoshan Zhang; Jie Zhang; Hyemin Lee; Pranavi Koppula; Guang Lei; Li Zhuang; M. James You; Bingliang Fang; Wei Li; Christian M. Metallo; Masha V. Poyurovsky; Boyi Gan

doi:10.1038/s41556-020-0496-x

Cystine transporter regulation of pentose phosphate pathway dependency and disulfide stress exposes a targetable metabolic vulnerability in cancer

Xiaoguang Liu, Kellen Olszewski, Yilei Zhang, Esther W. Lim, Jiejun Shi, Xiaoshan Zhang, Jie Zhang, Hyemin Lee, Pranavi Koppula, Guang Lei, Li Zhuang, M. James You, Bingliang Fang, Wei Li, Christian M. Metallo, Masha V. Poyurovsky, Boyi Gan

Research output: Contribution to journal › Article › peer-review

214 Scopus citations

Abstract

SLC7A11-mediated cystine uptake is critical for maintaining redox balance and cell survival. Here we show that this comes at a significant cost for cancer cells with high levels of SLC7A11. Actively importing cystine is potentially toxic due to its low solubility, forcing cancer cells with high levels of SLC7A11 (SLC7A11^high) to constitutively reduce cystine to the more soluble cysteine. This presents a significant drain on the cellular NADPH pool and renders such cells dependent on the pentose phosphate pathway. Limiting glucose supply to SLC7A11^high cancer cells results in marked accumulation of intracellular cystine, redox system collapse and rapid cell death, which can be rescued by treatments that prevent disulfide accumulation. We further show that inhibitors of glucose transporters selectively kill SLC7A11^high cancer cells and suppress SLC7A11^high tumour growth. Our results identify a coupling between SLC7A11-associated cystine metabolism and the pentose phosphate pathway, and uncover an accompanying metabolic vulnerability for therapeutic targeting in SLC7A11^high cancers.

Original language	English (US)
Pages (from-to)	476-486
Number of pages	11
Journal	Nature cell biology
Volume	22
Issue number	4
DOIs	https://doi.org/10.1038/s41556-020-0496-x
State	Published - Apr 1 2020

ASJC Scopus subject areas

Cell Biology

MD Anderson CCSG core facilities

Functional Genomics Core

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Liu, X., Olszewski, K., Zhang, Y., Lim, E. W., Shi, J., Zhang, X., Zhang, J., Lee, H., Koppula, P., Lei, G., Zhuang, L., You, M. J., Fang, B., Li, W., Metallo, C. M., Poyurovsky, M. V., & Gan, B. (2020). Cystine transporter regulation of pentose phosphate pathway dependency and disulfide stress exposes a targetable metabolic vulnerability in cancer. Nature cell biology, 22(4), 476-486. https://doi.org/10.1038/s41556-020-0496-x

Liu, X, Olszewski, K, Zhang, Y, Lim, EW, Shi, J, Zhang, X, Zhang, J, Lee, H, Koppula, P, Lei, G, Zhuang, L, You, MJ, Fang, B, Li, W, Metallo, CM, Poyurovsky, MV & Gan, B 2020, 'Cystine transporter regulation of pentose phosphate pathway dependency and disulfide stress exposes a targetable metabolic vulnerability in cancer', Nature cell biology, vol. 22, no. 4, pp. 476-486. https://doi.org/10.1038/s41556-020-0496-x

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abstract = "SLC7A11-mediated cystine uptake is critical for maintaining redox balance and cell survival. Here we show that this comes at a significant cost for cancer cells with high levels of SLC7A11. Actively importing cystine is potentially toxic due to its low solubility, forcing cancer cells with high levels of SLC7A11 (SLC7A11high) to constitutively reduce cystine to the more soluble cysteine. This presents a significant drain on the cellular NADPH pool and renders such cells dependent on the pentose phosphate pathway. Limiting glucose supply to SLC7A11high cancer cells results in marked accumulation of intracellular cystine, redox system collapse and rapid cell death, which can be rescued by treatments that prevent disulfide accumulation. We further show that inhibitors of glucose transporters selectively kill SLC7A11high cancer cells and suppress SLC7A11high tumour growth. Our results identify a coupling between SLC7A11-associated cystine metabolism and the pentose phosphate pathway, and uncover an accompanying metabolic vulnerability for therapeutic targeting in SLC7A11high cancers.",

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AU - Shi, Jiejun

AU - Zhang, Xiaoshan

AU - Zhang, Jie

AU - Lee, Hyemin

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AU - Lei, Guang

AU - Zhuang, Li

AU - You, M. James

AU - Fang, Bingliang

AU - Li, Wei

AU - Metallo, Christian M.

AU - Poyurovsky, Masha V.

AU - Gan, Boyi

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AB - SLC7A11-mediated cystine uptake is critical for maintaining redox balance and cell survival. Here we show that this comes at a significant cost for cancer cells with high levels of SLC7A11. Actively importing cystine is potentially toxic due to its low solubility, forcing cancer cells with high levels of SLC7A11 (SLC7A11high) to constitutively reduce cystine to the more soluble cysteine. This presents a significant drain on the cellular NADPH pool and renders such cells dependent on the pentose phosphate pathway. Limiting glucose supply to SLC7A11high cancer cells results in marked accumulation of intracellular cystine, redox system collapse and rapid cell death, which can be rescued by treatments that prevent disulfide accumulation. We further show that inhibitors of glucose transporters selectively kill SLC7A11high cancer cells and suppress SLC7A11high tumour growth. Our results identify a coupling between SLC7A11-associated cystine metabolism and the pentose phosphate pathway, and uncover an accompanying metabolic vulnerability for therapeutic targeting in SLC7A11high cancers.

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Cystine transporter regulation of pentose phosphate pathway dependency and disulfide stress exposes a targetable metabolic vulnerability in cancer

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MD Anderson CCSG core facilities

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