自噬维持了 BrafV600E 驱动的肺肿瘤中的线粒体谷氨酰胺代谢和生长。

Autophagy sustains mitochondrial glutamine metabolism and growth of BrafV600E-driven lung tumors.

机构信息

1Cancer Institute of New Jersey, New Brunswick; 2Department of Molecular Biology and Biochemistry, Rutgers University, Piscataway, New Jersey; and 3Department of Cellular & Molecular Pharmacology, Helen Diller Family Comprehensive Cancer Center, University of California, San Francisco, California.

出版信息

Cancer Discov. 2013 Nov;3(11):1272-85. doi: 10.1158/2159-8290.CD-13-0397. Epub 2013 Aug 21.

DOI:10.1158/2159-8290.CD-13-0397

PMID:23965987

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3823822/

Abstract

UNLABELLED

Autophagic elimination of defective mitochondria suppresses oxidative stress and preserves mitochondrial function. Here, the essential autophagy gene Atg7 was deleted in a mouse model of BrafV600E-induced lung cancer in the presence or absence of the tumor suppressor Trp53. Atg7 deletion initially induced oxidative stress and accelerated tumor cell proliferation in a manner indistinguishable from Nrf2 ablation. Compound deletion of Atg7 and Nrf2 had no additive effect, suggesting that both genes modulate tumorigenesis by regulating oxidative stress and revealing a potential mechanism of autophagy-mediated tumor suppression. At later stages of tumorigenesis, Atg7 deficiency resulted in an accumulation of defective mitochondria, proliferative defects, reduced tumor burden, conversion of adenomas and adenocarcinomas to oncocytomas, and increased mouse life span. Autophagy-defective tumor-derived cell lines were impaired in their ability to respire and survive starvation and were glutamine-dependent, suggesting that autophagy-supplied substrates from protein degradation sustains BrafV600E tumor growth and metabolism.

SIGNIFICANCE

The essential autophagy gene Atg7 functions to promote BrafV600E-driven lung tumorigenesis by preserving mitochondrial glutamine metabolism. This suggests that inhibiting autophagy is a novel approach to treating BrafV600E-driven cancers.

摘要

未标记

自噬消除功能失调的线粒体可抑制氧化应激并维持线粒体功能。在这里，在存在或不存在肿瘤抑制因子 Trp53 的情况下，在 BrafV600E 诱导的肺癌的小鼠模型中删除了必需的自噬基因 Atg7。Atg7 的缺失最初以与 Nrf2 缺失相同的方式诱导氧化应激并加速肿瘤细胞增殖。Atg7 和 Nrf2 的复合缺失没有相加作用，这表明这两个基因通过调节氧化应激来调节肿瘤发生，并揭示了自噬介导的肿瘤抑制的潜在机制。在肿瘤发生的后期，Atg7 缺乏导致功能失调的线粒体积累、增殖缺陷、肿瘤负担降低、腺瘤和腺癌向嗜酸细胞瘤的转化以及小鼠寿命延长。自噬缺陷的肿瘤衍生细胞系在呼吸和饥饿生存能力方面受损，并且依赖于谷氨酰胺，这表明自噬提供的来自蛋白质降解的底物维持了 BrafV600E 肿瘤的生长和代谢。

意义

必需的自噬基因 Atg7 通过维持线粒体谷氨酰胺代谢来促进 BrafV600E 驱动的肺肿瘤发生。这表明抑制自噬是治疗 BrafV600E 驱动的癌症的一种新方法。

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