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Hair follicle stem cells regulate retinoid metabolism to maintain the self-renewal niche for melanocyte stem cells.


ABSTRACT: Metabolites are major biological parameters sensed by many cell types in vivo, whether they function as signaling mediators of SC and niche cross talk to regulate tissue regeneration is largely unknown. We show here that deletion of the Notch pathway co-factor RBP-J specifically in mouse HFSCs triggers adjacent McSCs to precociously differentiate in their shared niche. Transcriptome screen and in vivo functional studies revealed that the elevated level of retinoic acid (RA) caused by de-repression of RA metabolic process genes as a result of RBP-J deletion in HFSCs triggers ectopic McSCs differentiation in the niche. Mechanistically the increased level of RA sensitizes McSCs to differentiation signal KIT-ligand by increasing its c-Kit receptor protein level in vivo. Using genetic approach, we further pinpointed HFSCs as the source of KIT-ligand in the niche. We discover that HFSCs regulate the metabolite RA level in vivo to allow self-renewal of neighboring McSCs.

SUBMITTER: Lu Z 

PROVIDER: S-EPMC6970533 | biostudies-literature | 2020 Jan

REPOSITORIES: biostudies-literature

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Hair follicle stem cells regulate retinoid metabolism to maintain the self-renewal niche for melanocyte stem cells.

Lu Zhiwei Z   Xie Yuhua Y   Huang Huanwei H   Jiang Kaiju K   Zhou Bin B   Wang Fengchao F   Chen Ting T  

eLife 20200103


Metabolites are major biological parameters sensed by many cell types in vivo, whether they function as signaling mediators of SC and niche cross talk to regulate tissue regeneration is largely unknown. We show here that deletion of the Notch pathway co-factor RBP-J specifically in mouse HFSCs triggers adjacent McSCs to precociously differentiate in their shared niche. Transcriptome screen and in vivo functional studies revealed that the elevated level of retinoic acid (RA) caused by de-repressi  ...[more]

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