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Notch-Collagen V-CALCR 的相互信号传递可使肌肉干细胞保留在其龛位中。

Reciprocal signalling by Notch-Collagen V-CALCR retains muscle stem cells in their niche.

机构信息

Department of Developmental & Stem Cell Biology, Institut Pasteur, Paris, France.

CNRS UMR 3738, Institut Pasteur, Paris, France.

出版信息

Nature. 2018 May;557(7707):714-718. doi: 10.1038/s41586-018-0144-9. Epub 2018 May 23.

DOI:10.1038/s41586-018-0144-9
PMID:29795344
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5985950/
Abstract

The cell microenvironment, which is critical for stem cell maintenance, contains both cellular and non-cellular components, including secreted growth factors and the extracellular matrix. Although Notch and other signalling pathways have previously been reported to regulate quiescence of stem cells, the composition and source of molecules that maintain the stem cell niche remain largely unknown. Here we show that adult muscle satellite (stem) cells in mice produce extracellular matrix collagens to maintain quiescence in a cell-autonomous manner. Using chromatin immunoprecipitation followed by sequencing, we identified NOTCH1/RBPJ-bound regulatory elements adjacent to specific collagen genes, the expression of which is deregulated in Notch-mutant mice. Moreover, we show that Collagen V (COLV) produced by satellite cells is a critical component of the quiescent niche, as depletion of COLV by conditional deletion of the Col5a1 gene leads to anomalous cell cycle entry and gradual diminution of the stem cell pool. Notably, the interaction of COLV with satellite cells is mediated by the Calcitonin receptor, for which COLV acts as a surrogate local ligand. Systemic administration of a calcitonin derivative is sufficient to rescue the quiescence and self-renewal defects found in COLV-null satellite cells. This study reveals a Notch-COLV-Calcitonin receptor signalling cascade that maintains satellite cells in a quiescent state in a cell-autonomous fashion, and raises the possibility that similar reciprocal mechanisms act in diverse stem cell populations.

摘要

细胞微环境对干细胞的维持至关重要,它包含细胞和非细胞成分,包括分泌的生长因子和细胞外基质。尽管 Notch 和其他信号通路以前被报道可以调节干细胞的静止,但维持干细胞龛的分子的组成和来源在很大程度上仍然未知。在这里,我们表明,小鼠的成年肌肉卫星(干细胞)以细胞自主的方式产生细胞外基质胶原蛋白来维持静止。通过染色质免疫沉淀 followed by sequencing,我们鉴定了 NOTCH1/RBPJ 结合的邻近特定胶原蛋白基因的调节元件,这些基因在 Notch 突变小鼠中的表达受到调节。此外,我们表明,卫星细胞产生的胶原蛋白 V(COLV)是静止龛的关键组成部分,因为 Col5a1 基因条件性缺失导致 COLV 耗竭会导致异常的细胞周期进入和干细胞池逐渐减少。值得注意的是,COLV 与卫星细胞的相互作用是由降钙素受体介导的,COLV 作为降钙素的替代局部配体。降钙素衍生物的系统给药足以挽救 COLV 缺失的卫星细胞中发现的静止和自我更新缺陷。这项研究揭示了 Notch-COLV-降钙素受体信号级联反应,以细胞自主的方式维持卫星细胞处于静止状态,并提出了类似的相互作用机制可能在不同的干细胞群体中起作用的可能性。

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