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Aging-induced tRNAGlu-derived fragment impairs glutamate biosynthesis by targeting mitochondrial translation-dependent cristae organization

Cell Metab. 2024-03; 
Dingfeng Li, Xinyi Gao, Xiaolin Ma, Ming Wang, Chuandong Cheng, Tian Xue, Feng Gao, Yong Shen, Juan Zhang, Qiang Liu
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Custom DNA/RNA Oligos LNA-modified Glu-5’tsRNA-CTC FISH probe was synthesized (GenScript) (refer to Table S2 for sequence) and then labeled with Alexa Fluor 647 on every G according to the manufacturer’s instructions (ULYSIS Nucleic Acid Labeling Kit, Invitrogen). Get A Quote

摘要

Mitochondrial cristae, infoldings of the mitochondrial inner membrane, undergo aberrant changes in their architecture with age. However, the underlying molecular mechanisms and their contribution to brain aging are largely elusive. Here, we observe an age-dependent accumulation of Glu-5'tsRNA-CTC, a transfer-RNA-derived small RNA (tsRNA), derived from nuclear-encoded tRNAGlu in the mitochondria of glutaminergic neurons. Mitochondrial Glu-5'tsRNA-CTC disrupts the binding of mt-tRNALeu and leucyl-tRNA synthetase2 (LaRs2), impairing mt-tRNALeu aminoacylation and mitochondria-encoded protein translation. Mitochondrial translation defects disrupt cristae organization, leading to damaged glutaminase (GLS)-dependent g... More

关键词

angiogenin; brain aging; cristae organization; glutamate metabolism; memory decline; mitochondria; mitochondrial translation; tRNA-derived small RNAs.