Deacon Erin, Li Anna, Boivin Felix, Dvorkin-Gheva Anna, Cunanan Joanna, Bridgewater Darren
Department of Pathology and Molecular Medicine, McMaster University, Hamilton, Ontario, Canada.
Dev Dyn. 2023 Sep;252(9):1224-1239. doi: 10.1002/dvdy.603. Epub 2023 May 25.
Kidney development is regulated by cellular interactions between the ureteric epithelium, mesenchyme, and stroma. Previous studies demonstrate essential roles for stromal β-catenin in kidney development. However, how stromal β-catenin regulates kidney development is not known. We hypothesize that stromal β-catenin modulates pathways and genes that facilitate communications with neighboring cell populations to regulate kidney development.
We isolated purified stromal cells with wild type, deficient, and overexpressed β-catenin by fluorescence-activated cell sorting and conducted RNA Sequencing. A Gene Ontology network analysis demonstrated that stromal β-catenin modulates key kidney developmental processes, including branching morphogenesis, nephrogenesis and vascular formation. Specific stromal β-catenin candidate target genes that may mediate these effects included secreted, cell-surface and transcriptional factors that regulate branching morphogenesis and nephrogenesis (Wnts, Bmp, Fgfr, Tcf/Lef) and secreted vascular guidance cues (Angpt1, VEGF, Sema3a). We validated established β-catenin targets including Lef1 and novel candidate β-catenin targets including Sema3e which have unknown roles in kidney development.
These studies advance our understanding of gene and biological pathway dysregulation in the context of stromal β-catenin misexpression during kidney development. Our findings suggest that during normal kidney development, stromal β-catenin may regulate secreted and cell-surface proteins to communicate with adjacent cell populations.
肾脏发育受输尿管上皮、间充质和基质之间的细胞相互作用调控。先前的研究表明基质β-连环蛋白在肾脏发育中起重要作用。然而,基质β-连环蛋白如何调节肾脏发育尚不清楚。我们推测基质β-连环蛋白调节促进与邻近细胞群通讯以调控肾脏发育的信号通路和基因。
我们通过荧光激活细胞分选分离并纯化了具有野生型、缺陷型和过表达β-连环蛋白的基质细胞,并进行了RNA测序。基因本体网络分析表明,基质β-连环蛋白调节关键的肾脏发育过程,包括分支形态发生、肾发生和血管形成。可能介导这些效应的特定基质β-连环蛋白候选靶基因包括调节分支形态发生和肾发生的分泌因子、细胞表面因子和转录因子(Wnts、Bmp、Fgfr、Tcf/Lef)以及分泌的血管导向信号(Angpt1、VEGF、Sema3a)。我们验证了已确定的β-连环蛋白靶标,包括Lef1,以及新的候选β-连环蛋白靶标,包括在肾脏发育中作用未知的Sema3e。
这些研究增进了我们对肾脏发育过程中基质β-连环蛋白错误表达情况下基因和生物信号通路失调的理解。我们的研究结果表明,在正常肾脏发育过程中,基质β-连环蛋白可能调节分泌蛋白和细胞表面蛋白以与相邻细胞群进行通讯。
