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SIRT5 stabilizes mitochondrial glutaminase and supports breast cancer tumorigenesis.


ABSTRACT: The mitochondrial enzyme glutaminase (GLS) is frequently up-regulated during tumorigenesis and is being evaluated as a target for cancer therapy. GLS catalyzes the hydrolysis of glutamine to glutamate, which then supplies diverse metabolic pathways with carbon and/or nitrogen. Here, we report that SIRT5, a mitochondrial NAD+-dependent lysine deacylase, plays a key role in stabilizing GLS. In transformed cells, SIRT5 regulates glutamine metabolism by desuccinylating GLS and thereby protecting it from ubiquitin-mediated degradation. Moreover, we show that SIRT5 is up-regulated during cellular transformation and supports proliferation and tumorigenesis. Elevated SIRT5 expression in human breast tumors correlates with poor patient prognosis. These findings reveal a mechanism for increasing GLS expression in cancer cells and establish a role for SIRT5 in metabolic reprogramming and mammary tumorigenesis.

SUBMITTER: Greene KS 

PROVIDER: S-EPMC6936584 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

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SIRT5 stabilizes mitochondrial glutaminase and supports breast cancer tumorigenesis.

Greene Kai Su KS   Lukey Michael J MJ   Wang Xueying X   Blank Bryant B   Druso Joseph E JE   Lin Miao-Chong J MJ   Stalnecker Clint A CA   Zhang Chengliang C   Negrón Abril Yashira Y   Erickson Jon W JW   Wilson Kristin F KF   Lin Hening H   Weiss Robert S RS   Cerione Richard A RA  

Proceedings of the National Academy of Sciences of the United States of America 20191216 52


The mitochondrial enzyme glutaminase (GLS) is frequently up-regulated during tumorigenesis and is being evaluated as a target for cancer therapy. GLS catalyzes the hydrolysis of glutamine to glutamate, which then supplies diverse metabolic pathways with carbon and/or nitrogen. Here, we report that SIRT5, a mitochondrial NAD<sup>+</sup>-dependent lysine deacylase, plays a key role in stabilizing GLS. In transformed cells, SIRT5 regulates glutamine metabolism by desuccinylating GLS and thereby pro  ...[more]

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