In vivo AAV9-SB-CRISPR screen identifies fatty acid elongase ELOVL5 as a pro-resolving mediator in lung inflammation

Abstract Timely resolution of inflammation is essential to prevent tissue damage and maintain homeostasis. Immunometabolism is critical for innate immunity and inflammation. However, how metabolic enzymes and metabolites contribute to inflammatory resolution remains largely unknown. To identify the key metabolic mediators of inflammation resolution, we generated an AAV9-Sleeping Beauty CRISPR library comprising 17090 sgRNAs targeting 2682 mouse metabolic genes. We then conducted an in vivo CRISPR screen in type II alveolar epithelial cells (AECIIs)-specifically expressing Cas9 mice and uncovered a very long chain fatty acid elongase, ELOVL5, that promoted the resolution of lung inflammation after influenza virus infection. Deficiency of Elovl5 in mouse lung epithelial cells impaired lung inflammation resolution and tissue repair phenotype both in vitro and in vivo . Mechanistically, ELOVL5 bound to STING, inhibiting TBK1 interaction and translocation to the Golgi. These effects ultimately reduced STING-mediated inflammation and promoted AKT1-mediated tissue repair. In addition, ELOVL5 decreased eicosanoid levels in AECIIs to promote lung inflammation resolution. Supplement with ELOVL5 downstream products reversed the increased expression of inflammatory cytokines caused by Elovl5 deficiency. These results support an unrevealed mechanism for polyunsaturated fatty acid metabolism in the resolution of innate inflammation and provide paths toward treating inflammatory diseases through manipulating cellular lipid metabolism.