Genetic disruption of mitochondrial dynamics and stasis leads to liver injury and tumorigenesis

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Abstract

Mitochondrial fission is mediated by dynamin-related protein 1 (gene name DNM1L) and fusion by mitofusins (MFN1 and MFN2) and optic atrophy 1 (OPA1). The role of mitochondrial dynamics in liver disease and cancer remains poorly understood. We used single, double, and triple liver-specific knockout (KO) mice lacking mitochondrial fission and fusion proteins, along with systematic analyses of mitochondrial morphology, untargeted metabolomics, RNA sequencing, hydrodynamic tail vein injection of oncogenes, and human hepatocellular carcinoma samples. Liver-specific Dnm1l KO (L-Dnm1l) mice showed increased ALT levels and hepatic fibrosis, with spontaneous liver tumors developing by 12 to 18 months of age. L-Mfn1 KO and L-Mfn2 KO mice showed no significant liver damage or tumor development, although a small percentage of double knockout (DKO) mice developed tumors. Triple knockout of Dnm1l, Mfn1, and Mfn2 (TKO) mice experienced significantly reduced liver injury and fibrosis, along with decreased spontaneous and oncogene-induced tumorigenesis. L-Dnm1l KO mice showed increased activation of the cGAS-STING-interferon pathway and pyrimidine metabolism, which were significantly normalized in TKO mice. Deletion of hepatic cGas reduced both basal and oncogene-induced liver injury and tumor development in L-Dnm1l KO mice. These findings indicate that mitochondrial dynamics are crucial for maintaining hepatic pyrimidine metabolism and regulating the cGAS-STING-mediated immune response to prevent liver tumorigenesis.

Authors

Xiaowen Ma, Xiaoli Wei, Mengwei Niu, Chen Zhang, Zheyun Peng, Wanqing Liu, Junrong Yan, Xiaoyang Su, Lichun Ma, Shaolei Lu, Wei Cui, Hiromi Sesaki, Wei-Xing Zong, Hong-Min Ni, Wen-Xing Ding