DOI: 10.7554/elife.82205 ISSN: 2050-084X

Pink1-mediated mitophagy in the endothelium releases proteins encoded by mitochondrial DNA and activates neutrophil responses during inflammation

Priyanka Gajwani, Li Wang, Koushik Debnath, Pierina Danos, Young-Mee Kim, Shubhi Srivastava, Zijing Ye, Sarah Krantz, Dongmei Wang, Chinnaswamy Tiruppathi, Peter T Toth, Sriram Ravindran, Jalees Rehman

Eukaryotic mitochondria are characterized by several features that represent vestiges of their prokaryotic ancestry. One such feature is the N-terminal formylation of proteins encoded by mitochondrial DNA that undergo translation by mitochondrial ribosomes. N-formylated proteins are also released by bacteria and trigger activation of immune cells such as neutrophils. Growing evidence indicates that circulating levels of mitochondrial formyl proteins are elevated in the serum of patients with excessive inflammatory responses. However, the mechanisms by which they are released into circulation are not known. In this study, we have identified vascular endothelial cells as a source of Pink1-dependent release of mitochondrial formyl proteins in response to inflammatory mediators. Mechanistically, the mitophagy mediator Pink1 is stabilized by inflammatory activation of endothelial cells, promoting mitophagy and mitochondrial formyl peptide release both in mice and primary human endothelial cells. Using nanoparticle delivery of Pink1 -targeting sgRNA in mice expressing endothelial-specific Cas9, we developed a mouse model in which Pink1 is specifically depleted in the endothelium. Deletion of endothelial Pink1 decreased circulating formyl peptide levels, lowered lung neutrophil infiltration and reduced mortality in mice. We thus propose that endothelial cells upregulate pro-inflammatory mitophagy in response to inflammation, leading to the release of mitochondrial formyl peptides and detrimental neutrophil recruitment into the lung.

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