Antimicrobial production by perifollicular dermal preadipocytes is essential to the pathophysiology of acne

类胡萝卜素 痤疮 脂肪生成 痤疮丙酸杆菌 抗菌肽 维甲酸 生物 先天免疫系统 TLR2型 医学 免疫学 免疫系统 抗菌剂 内分泌学 微生物学 皮肤病科 脂肪组织 基因 生物化学
作者
Alan M. O’Neill,Marc C. Liggins,Jason S. Seidman,Tran Do,Fengwu Li,Kellen Cavagnero,Tatsuya Dokoshi,J Cheng,Faiza Shafiq,Tissa Hata,Jóhann E. Guðjónsson,Robert L. Modlin,Richard L. Gallo
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:14 (632): eabh1478-eabh1478 被引量:64
标识
DOI:10.1126/scitranslmed.abh1478
摘要

Innate immune defense against deep tissue infection by Staphylococcus aureus is orchestrated by fibroblasts that become antimicrobial when triggered to differentiate into adipocytes. However, the role of this process in noninfectious human diseases is unknown. To investigate the potential role of adipogenesis by dermal fibroblasts in acne, a disorder triggered by Cutibacterium acnes , single-cell RNA sequencing was performed on human acne lesions and mouse skin challenged by C. acnes . A transcriptome consistent with adipogenesis was observed within specific fibroblast subsets from human acne and mouse skin lesions infected with C. acnes . Perifollicular dermal preadipocytes in human acne and mouse skin lesions showed colocalization of PREF1, an early marker of adipogenesis, and cathelicidin ( Camp ), an antimicrobial peptide. This capacity of C. acnes to specifically trigger production of cathelicidin in preadipocytes was dependent on TLR2. Treatment of wild-type mice with retinoic acid (RA) suppressed the capacity of C. acnes to form acne-like lesions, inhibited adipogenesis, and enhanced cathelicidin expression in preadipocytes, but lesions were unresponsive in Camp −/− mice, despite the anti-adipogenic action of RA. Analysis of inflamed skin of acne patients after retinoid treatment also showed enhanced induction of cathelicidin, a previously unknown beneficial effect of retinoids in difficult-to-treat acne. Overall, these data provide evidence that adipogenic fibroblasts are a critical component of the pathogenesis of acne and represent a potential target for therapy.
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