R-spondin 3 的过表达会影响毛发的形态发生和毛发发育,以及毛囊干细胞的形成和成熟。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2024-09-16 eCollection Date: 2024-01-01 DOI:10.3389/fphys.2024.1424077
Alicja Olczak, Tomasz D Pieczonka, Szymon Ławicki, Konrad Łukaszyk, Anna Pulawska-Czub, Linda Cambier, Krzysztof Kobielak
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引用次数: 0

摘要

小鼠毛囊(HFs)是研究毛发生物学各方面(包括形态发生、发育和再生)的重要模型,因为其表型易于观察,且可进行遗传操作。毛囊形态发生的起始和进展以及毛囊周期受多种信号通路调控,其中起主要作用的是无翼型 MMTV 整合位点家族(Wnt)和骨形态发生蛋白(BMP)。在毛囊周期中,BMP通路使毛囊干细胞(HFSCs)处于休眠状态,而Wnt通路则激活它们以促进毛发生长。鉴于 Wnt 通路在毛发生物学和毛囊干细胞调控中的关键作用,我们研究了 Wnt 调制剂 R-spondin 3(Rspo3)在这些过程中的影响。为此,我们开发了一种在整个外胚层及其衍生物中过表达 Rspo3(Rspo3GOF)的转基因小鼠模型,从早期形态发生开始。Rspo3GOF 小鼠表现出毛发稀疏和明显秃发区的独特表型,这是由于毛基质祖细胞增殖减少和凋亡增加造成的,这导致毛发从生长期向成熟期过渡过早,生长期缩短,所有类型毛发的总长度减少。此外,在形态发生过程中,Rspo3GOF 促进了 auchene 和 awl(典型的 Wnt 依赖性毛发类型)的诱导,但总体毛发数量仍然减少。我们还发现,在形态发生过程中,隆起前毛发形成延迟,出生后隆起区的高频间充质干细胞群长期不成熟,这进一步损害了小鼠整个生命周期中毛发的正常再生。我们的数据证实,在我们的模型中观察到的 Rspo3 功能在形态发生过程中通过加强激活典型 Wnt 通路对高频间充质干细胞形成前隆起起作用,而相反,在出生后未成熟的隆起区,典型 Wnt 信号的激活被削弱。对角质形成细胞进行的体外研究显示,细胞的增殖、迁移和集落形成都发生了变化,凸显了组成型过表达 Rspo3 对这些细胞过程的抑制作用。我们的研究为 Rspo3 在毛发形态发生和发育以及影响毛发再生的高频间充质干细胞的形成和成熟的调控过程中的作用提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The overexpression of R-spondin 3 affects hair morphogenesis and hair development along with the formation and maturation of the hair follicle stem cells.

Mice hair follicles (HFs) are a valuable model for studying various aspects of hair biology, including morphogenesis, development, and regeneration due to their easily observable phenotype and genetic manipulability. The initiation and progression of hair follicle morphogenesis, as well as the hair follicle cycle, are regulated by various signaling pathways, of which the main role is played by the Wingless-type MMTV integration site family (Wnt) and the Bone Morphogenic Protein (BMP). During the hair follicle cycle, the BMP pathway maintains hair follicle stem cells (HFSCs) in a dormant state while the Wnt pathway activates them for hair growth. Given the pivotal role of the Wnt pathway in hair biology and HFSCs regulation, we investigated the influence of the Wnt modulator - R-spondin 3 (Rspo3), in these processes. For this purpose, we developed a transgenic mice model with the overexpression of Rspo3 (Rspo3GOF) in the whole ectoderm and its derivatives, starting from early morphogenesis. Rspo3GOF mice exhibited a distinct phenotype with sparse hair and visible bald areas, caused by reduced proliferation and increased apoptosis of hair matrix progenitor cells, which resulted in a premature anagen-to-catagen transition with a shortened growth phase and decreased overall length of all hair types. In addition, Rspo3GOF promoted induction of auchene and awl, canonical Wnt-dependent hair type during morphogenesis, but the overall hair amount remained reduced. We also discovered a delay in the pre-bulge formation during morphogenesis and prolonged immaturity of the HFSC population in the bulge region postnatally, which further impaired proper hair regeneration throughout the mice's lifespan. Our data supported that Rspo3 function observed in our model works in HFSCs' formation of pre-bulge during morphogenesis via enhancing activation of the canonical Wnt pathway, whereas in contrast, in the postnatal immature bulge, activation of canonical Wnt signaling was attenuated. In vitro studies on keratinocytes revealed changes in proliferation, migration, and colony formation, highlighting the inhibitory effect of constitutive overexpression of Rspo3 on these cellular processes. Our research provides novel insights into the role of Rspo3 in the regulation of hair morphogenesis and development, along with the formation and maturation of the HFSCs, which affect hair regeneration.

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