AMPK maintains TCA cycle through sequential phosphorylation of PDHA to promote tumor metastasis.

IF 4.1 Q2 CELL BIOLOGY Cell Stress Pub Date : 2020-11-25 DOI:10.15698/cst2020.12.238
Zhen Cai, Danni Peng, Hui-Kuan Lin
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引用次数: 9

Abstract

Cancer represents the leading public health problem throughout the world. Globally, about one out of six deaths is related to cancer, which is largely due to the metastatic lesions. However, there are no effective strategies for targeting cancer metastasis. Identification of the key druggable targets maintaining metastasis is crucial for cancer treatment. In our recent study (Cai et al. (2020), Mol Cell, doi: 10.1016/j.molcel.2020.09.018), we found that activity of AMPK was enriched in metastatic tumors compared to primary tumors. Depletion of AMPK rendered cancer cells more sensitive to metabolic and oxidative stress, leading to the impairment of breast cancer lung metastasis. Activation of AMPK rewired cancer metabolism towards TCA cycle, which protects disseminated cancer cells from both metabolic and oxidative stress-induced cell death, and facilitates cancer metastasis. Further, AMPK critically maintained the activity of pyruvate dehydrogenase complex (PDH), the rate limiting enzyme involved in TCA cycle, thus favoring the pyruvate metabolism towards TCA cycle rather than converting it to lactate. Mechanistically, AMPK was shown to co-localize with PDHA, the catalytic subunit of PDH, in the mitochondrial matrix and directly triggered the phosphorylation of PDHA on Ser295 and Ser314. Hyper-phosphorylation of Ser295 and Ser314 of PDHA promotes lung metastasis through elevating activity of PDH. Of note, PDHA Ser314 phosphorylation abrogated the interaction between PDHA and PDHKs leading to the dephosphorylation on previously reported S293 site, whose phosphorylation serves as a negative signal for PDH activation, while S295 phosphorylation serves as an intrinsic catalytic site required for pyruvate metabolism. Our study presented the first evidence for the pro-metastatic property of the AMPK-PDH axis and advance our current understanding of how PDH is activated under physiological and pathological conditions.

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AMPK通过顺序磷酸化PDHA维持TCA循环,促进肿瘤转移。
癌症是全世界最主要的公共卫生问题。在全球范围内,大约六分之一的死亡与癌症有关,这主要是由于转移性病变。然而,目前尚无针对肿瘤转移的有效策略。确定维持转移的关键药物靶点对癌症治疗至关重要。在我们最近的研究中(Cai et al. (2020), Mol Cell, doi: 10.1016/j.molcel.2020.09.018),我们发现与原发肿瘤相比,AMPK在转移性肿瘤中的活性更丰富。AMPK的缺失使癌细胞对代谢和氧化应激更加敏感,导致乳腺癌肺转移受损。AMPK的激活将癌症代谢重新连接到TCA循环,从而保护弥散性癌细胞免受代谢和氧化应激诱导的细胞死亡,并促进癌症转移。此外,AMPK关键地维持了丙酮酸脱氢酶复合物(PDH)的活性,这是参与TCA循环的限速酶,从而有利于丙酮酸向TCA循环代谢,而不是将其转化为乳酸。在机制上,AMPK被证明与PDHA (PDH的催化亚基)在线粒体基质中共定位,并直接触发PDHA在Ser295和Ser314上的磷酸化。PDHA的Ser295和Ser314的超磷酸化通过提高PDH活性促进肺转移。值得注意的是,PDHA Ser314磷酸化消除了PDHA与pdhk之间的相互作用,导致先前报道的S293位点的去磷酸化,其磷酸化是PDH激活的负信号,而S295磷酸化是丙酮酸代谢所需的内在催化位点。我们的研究为AMPK-PDH轴的促转移性提供了第一个证据,并推进了我们目前对PDH在生理和病理条件下如何被激活的理解。
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来源期刊
Cell Stress
Cell Stress Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (miscellaneous)
CiteScore
13.50
自引率
0.00%
发文量
21
审稿时长
15 weeks
期刊介绍: Cell Stress is an open-access, peer-reviewed journal that is dedicated to publishing highly relevant research in the field of cellular pathology. The journal focuses on advancing our understanding of the molecular, mechanistic, phenotypic, and other critical aspects that underpin cellular dysfunction and disease. It specifically aims to foster cell biology research that is applicable to a range of significant human diseases, including neurodegenerative disorders, myopathies, mitochondriopathies, infectious diseases, cancer, and pathological aging. The scope of Cell Stress is broad, welcoming submissions that represent a spectrum of research from fundamental to translational and clinical studies. The journal is a valuable resource for scientists, educators, and policymakers worldwide, as well as for any individual with an interest in cellular pathology. It serves as a platform for the dissemination of research findings that are instrumental in the investigation, classification, diagnosis, and therapeutic management of major diseases. By being open-access, Cell Stress ensures that its content is freely available to a global audience, thereby promoting international scientific collaboration and accelerating the exchange of knowledge within the research community.
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