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成纤维细胞中 Smad4 的缺失导致软骨细胞成熟和软骨产生缺陷,而不依赖于 TGFβ Ⅱ型受体。

Deletion of Smad4 in fibroblasts leads to defective chondrocyte maturation and cartilage production in a TGFβ type II receptor independent manner.

机构信息

Division of Matrix Biology, Department of Medicine, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, MA 02215, USA.

出版信息

Biochem Biophys Res Commun. 2011 Apr 22;407(4):633-9. doi: 10.1016/j.bbrc.2011.02.142. Epub 2011 Mar 3.

DOI:10.1016/j.bbrc.2011.02.142
PMID:21376704
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3999521/
Abstract

The transforming growth factor β (TGFβ) superfamily growth factors play vital roles during the development, homeostasis, and pathogenesis of multi-cellular organisms. Smad4 serves as an exclusive co-activating smad that elicits most of the transcription responses invoked by the TGFβ superfamily members. We used Cre recombinase driven by the Fsp1/S100A4 promoter to delete the Smad4 gene in fibroblasts. We show that Fsp1/S100A4 is expressed in the elastic and fibrocartilage, and demonstrate that the fsp1-Cre; Smad4 flox/flox mutants have normal body size, but exhibit a short ear phenotype due to the deletion of the Smad4 gene in the ear chondrocytes. In contrast, TGFβ type II receptor deletion using Fsp1-cre does not lead to this phenotype, supporting the notion that non-TGFβ mediated signaling via Smad4 is essential for proper formation of ear cartilage during development. Smad4 deficiency in Fsp1(+) fibroblasts leads to defective chondrocyte maturation and cartilage production, likely due to a deficiency in bone morphogenic protein 5 (BMP-5) mediated signaling via Smad4. Our results emphasize the importance of BMP signaling pathways in the maturation and function of certain lineages of chondrocytes and offer an insight into the heterogeneity of the chondrocyte population in the body.

摘要

转化生长因子 β(TGFβ)超家族生长因子在多细胞生物的发育、稳态和发病机制中发挥着至关重要的作用。Smad4 作为一种独特的共激活 Smad,可引发 TGFβ 超家族成员引发的大多数转录反应。我们使用 Fsp1/S100A4 启动子驱动的 Cre 重组酶在成纤维细胞中删除 Smad4 基因。我们表明 Fsp1/S100A4 在弹性和纤维软骨中表达,并证明 fsp1-Cre;Smad4 flox/flox 突变体具有正常的体型,但由于耳软骨细胞中 Smad4 基因的缺失而表现出短耳表型。相比之下,使用 Fsp1-cre 删除 TGFβ 型 II 受体不会导致这种表型,这支持了通过 Smad4 进行非 TGFβ 介导的信号转导对于发育过程中耳软骨的正常形成至关重要的观点。Fsp1(+)成纤维细胞中 Smad4 的缺失导致软骨细胞成熟和软骨生成缺陷,这可能是由于 Smad4 介导的骨形态发生蛋白 5(BMP-5)信号转导缺陷所致。我们的研究结果强调了 BMP 信号通路在某些软骨细胞谱系的成熟和功能中的重要性,并深入了解了体内软骨细胞群体的异质性。

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