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  • miR-29a/b1 Inhibits Hair Follicle Stem Cell Lineage Progression by Spatiotemporally Suppressing WNT and BMP Signaling.

miR-29a/b1 Inhibits Hair Follicle Stem Cell Lineage Progression by Spatiotemporally Suppressing WNT and BMP Signaling.

Cell reports (2019-11-21)
Mengxu Ge, Chuncheng Liu, Lei Li, Miaomiao Lan, Yingying Yu, Lijie Gu, Yang Su, Kuo Zhang, Yuying Zhang, Tongtong Wang, Chang Liu, Fan Liu, Min Li, Lei Xiong, Kun Wang, Ting He, Yunping Dai, Yaofeng Zhao, Ning Li, Zhengquan Yu, Qingyong Meng
ZUSAMMENFASSUNG

Hair follicle stem cells (HFSCs) and subsequent generations of matrix progeny make lineage choices by responding to spatiotemporal signals; however, the cues driving that specification are not well understood. Here, we demonstrate that the dynamics of microRNA (miR)-29 expression are inversely proportional to HFSC lineage progression. Furthermore, we show that sustained miR-29a/b1 overexpression in anagen or telogen in mice causes a short-hair phenotype and eventual hair loss by inhibiting the proliferation of HFSCs and matrix cells and likely preventing their differentiation. Conversely, in a loss-of-function in vivo model, miR-29a/b1 deficiency accelerates HFSC lineage progression in telogen. Mechanistically, miR-29a/b1 blocks HFSC lineage specification by spatiotemporally targeting Ctnnb1, Lrp6, Bmpr1a, and Ccna2. We further show that skin-specific Lrp6 or Bmpr1a ablation partially accounts for the short-hair phenotype. Overall, these synergistic targets reveal miR-29a/b1 as a high-fidelity antagonist of HFSC lineage progression and a potential therapeutic target for hair loss.

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1,3-Di-o-tolylguanidin, 99%