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Hepatocyte mitochondria-derived danger signals directly activate hepatic stellate cells and drive progression of liver fibrosis

Ping An, Linlin Wei, Shuangshuang Zhao, Deanna Sverdlov, Kahini A. Vaid, Makoto Miyamoto, Kaori Kuramitsu, Michelle Lai, Yury Popov

2020Nature Communications297 citationsDOIOpen Access PDF

Abstract

Due to their bacterial ancestry, many components of mitochondria share structural similarities with bacteria. Release of molecular danger signals from injured cell mitochondria (mitochondria-derived damage-associated molecular patterns, mito-DAMPs) triggers a potent inflammatory response, but their role in fibrosis is unknown. Using liver fibrosis resistant/susceptible mouse strain system, we demonstrate that mito-DAMPs released from injured hepatocyte mitochondria (with mtDNA as major active component) directly activate hepatic stellate cells, the fibrogenic cell in the liver, and drive liver scarring. The release of mito-DAMPs is controlled by efferocytosis of dying hepatocytes by phagocytic resident liver macrophages and infiltrating Gr-1(+) myeloid cells. Circulating mito-DAMPs are markedly increased in human patients with non-alcoholic steatohepatitis (NASH) and significant liver fibrosis. Our study identifies specific pathway driving liver fibrosis, with important diagnostic and therapeutic implications. Targeting mito-DAMP release from hepatocytes and/or modulating the phagocytic function of macrophages represents a promising antifibrotic strategy.

Topics & Concepts

Hepatic stellate cellMitochondrionHepatocyteFibrosisSteatohepatitisCell biologyDampBiologyLiver injuryCancer researchImmunologyFatty liverMedicinePathologyIn vitroBiochemistryPharmacologyEndocrinologyDiseasePhysicsMeteorologyLiver Disease Diagnosis and TreatmentLiver physiology and pathologyLiver Disease and Transplantation