富马酸还原酶
线粒体
延胡索酶
生物化学
柠檬酸循环
细胞生物学
苹果酸脱氢酶
苹果酸酶
FKBP公司
生物
酶
琥珀酸脱氢酶
脱氢酶
作者
Yiping Wang,Azeem Sharda,Shuangnian Xu,Nick van Gastel,Cheuk Him Man,Una Choi,Wei Zhong Leong,Xi Li,David T. Scadden
出处
期刊:Cell Metabolism
[Cell Press]
日期:2021-03-25
卷期号:33 (5): 1027-1041.e8
被引量:55
标识
DOI:10.1016/j.cmet.2021.03.003
摘要
Mitochondria have an independent genome (mtDNA) and protein synthesis machinery that coordinately activate for mitochondrial generation. Here, we report that the Krebs cycle intermediate fumarate links metabolism to mitobiogenesis through binding to malic enzyme 2 (ME2). Mechanistically, fumarate binds ME2 with two complementary consequences. First, promoting the formation of ME2 dimers, which activate deoxyuridine 5'-triphosphate nucleotidohydrolase (DUT). DUT fosters thymidine generation and an increase of mtDNA. Second, fumarate-induced ME2 dimers abrogate ME2 monomer binding to mitochondrial ribosome protein L45, freeing it for mitoribosome assembly and mtDNA-encoded protein production. Methylation of the ME2-fumarate binding site by protein arginine methyltransferase-1 inhibits fumarate signaling to constrain mitobiogenesis. Notably, acute myeloid leukemia is highly dependent on mitochondrial function and is sensitive to targeting of the fumarate-ME2 axis. Therefore, mitobiogenesis can be manipulated in normal and malignant cells through ME2, an unanticipated governor of mitochondrial biomass production that senses nutrient availability through fumarate.
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