A lipid-driven, microbe-independent mechanism of acne via Lrig1 ⁺ follicular progenitor cells

Long-chain saturated fatty acids (lcSFAs) are abundant in the skin, but their pathogenic roles in acne remain unclear. In human sebum profiling, C16:0, the most abundant lcSFA, was the only fatty acid significantly elevated in acne and correlated with inflammatory comedone counts. We then established a mouse model that faithfully recapitulates human acne phenotypes, in which topical C16:0 penetrated the epidermis and induced sebocyte hyperplasia, comedogenesis, and follicular inflammation. Mechanistically, C16:0 activated keratinization and inflammatory pathways and drove sebocyte-lineage differentiation from Lrig1 ⁺ progenitor cells, which function as cutaneous lipid sensors. These effects persisted in germ-free mice and were unaffected by fatty acid transporter modulation, while MyD88 signaling was partially required for inflammatory cell recruitment. Together, our findings identified C16:0 as a human acne-associated lipid that recapitulates disease hallmarks through a microbe-independent, lipid-driven pathway, highlighting Lrig1 ⁺ cells as central hubs in remodeling of the pilosebaceous unit.