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Age-Related Loss of Innate Immune Antimicrobial Function of Dermal Fat Is Mediated by Transforming Growth Factor Beta
Dermal immature adipocytes fightagainstStaphylococcusaureusinfectionby secreting antimicrobial peptidesduring adipogenesis. Zhang et al.demonstrate that activation of the TGF-bpathway suppresses the adipogenicpotential of dermal fibroblasts andtherefore leads to an age-dependent lossof antimicrobial protection fromdermal fat.
皮下脂肪细胞作为皮肤的最后一道防线,有很重要的免疫抗菌功能,分化中脂肪细胞释放大量抗菌肽,这是一种人自源抗生素,能有效地抑制细菌生长。但这一重要的宿主天然免疫功能在发育和老化过程中如何被调控还不为人知。研究人员发现,老化过程中皮肤脂肪丢失是和真皮成纤维细胞(dermal fibroblasts)失去脂肪分化能力密切相关的。真皮成纤维细胞是皮肤深处的特化细胞,可以产生结缔组织并帮助皮肤从损伤中恢复。【Abstract】Dermal fibroblasts (dFBs) resist infection by locallydifferentiating into adipocytes and producing cathe-licidin antimicrobial peptide in response toStaphylo-coccusaureus(S.aureus). Here, we show thatneonatal skin was enriched with adipogenic dFBsand immature dermal fat that highly expressed cath-elicidin. The pool of adipogenic and antimicrobialdFBs declined after birth, leading to an age-depen-dent loss of dermal fat and a decrease in adipogene-sis and cathelidicin production in response to infec-tion. Transforming growth factor beta (TGF-b),which acted on uncommitted embryonic and adultdFBs and inhibited their adipogenic and antimicro-bial function, was identified as a key upstream regu-lator of this process. Furthermore, inhibition of theTGF-breceptor restored the adipogenic and antimi-crobial function of dFBs in culture and increasedresistance of adult mice toS.aureusinfection. Theseresults provide insight into changes that occur in theskin innate immune system between the perinataland adult periods of life.This work was supported by NIH grant R01-AR069653 to L.Z. and R.L.G. and NIH grants R01-AI083358, R01-AR052728, and U19-AI117673 to R.L.G. M.V.P. is supported by a Pew Charitable Trust grant, NIH grants U01-AR073159 and R01-AR067273, National Science Foundation (NSF) grant DMS1763272, and Simons Foundation grant 594598 (to Qing Nie). C.F.G.J. is supported by NSF-GRFP grant DGE-1321846 and MBRS-IMSD training grant GM055246. Y.Z. is supported by NIH grant R01-AI107027. 该项目研究得到了厦门大学双一流启动基金的支持