Abstract
AbstractGiven their ancient evolutionary origins, eukaryotic mitochondria possess multiple vestiges of their prokaryotic ancestors. One such factor is the N-terminal formylation of proteins encoded by mitochondrial DNA. N-formylated proteins are also released by bacteria and trigger activation of immune cells such as neutrophils. Growing evidence indicate that circulating levels of mitochondrial formyl proteins are elevated in the serum of patients with excessive inflammatory responses and trigger neutrophil activation like their bacterial counterparts. However, the cellular source of these proteins, and the mechanism by which they are released into the circulation is not known. In this study, we have identified vascular endothelial cells as a source of mitophagy induced release of formyl proteins in response to inflammatory mediators in vitro. Mechanistically, endothelial mitophagy required activation of the Pink1 pathway. Using liposomal delivery of sgRNA targeting Pink1 in mice expressing endothelial-specific Cas9, we developed a mouse model in which Pink1 is specifically depleted in the endothelium. Deletion of endothelial Pink1 was remarkably protective in endotoxin-induced lung inflammation, resulting in reduced neutrophil infiltration and significantly reduced death in mice. We thus propose that endothelial cells upregulate pro-inflammatory mitophagy in response to inflammation, leading to release of mitochondrial formyl peptides and detrimental neutrophil recruitment into the lung.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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1. Autophagy genes in biology and disease;Nature Reviews Genetics;2023-01-12