Hao Liu, Jianming Xie, Cien Zhen, Lin Zeng, Hualin Fan, Haixia Zhuang, Du Feng
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Nucleoid-phagy: a novel safeguard against mitochondrial DNA-Induced inflammation.
Mitochondria, the powerhouses of the cell, play pivotal roles in cellular processes ranging from energy production to innate immunity. Their unique double-membrane structure typically sequesters mitochondrial DNA (mtDNA) from the rest of the cell. However, under oxidative or immune stress, mtDNA can escape into the cytoplasm, posing a threat as a potential danger signal. The accumulation of cytoplasmic mtDNA can disrupt cellular immune balance and trigger cell death. Our research unveils a novel quality control mechanism, which we term "nucleoid-phagy", that safeguards cellular homeostasis by clearing mislocalized mtDNA. We demonstrate that TFAM, a key protein involved in mtDNA folding and wrapping, accompanies mtDNA into the cytoplasm under stress conditions. Remarkably, TFAM acts as an autophagy receptor, interacting with LC3B to facilitate the autophagic clearance of cytoplasmic mtDNA, thereby preventing the activation of the pro-inflammatory CGAS-STING1 pathway. This study provides unprecedented insights into cytoplasmic mtDNA quality control and offers new perspectives on mitigating inflammatory responses in mitochondrial-related diseases.
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