Hedgehog-GLI mediated control of renal formation and malformation.

Frontiers in nephrology Pub Date : 2023-01-01 DOI:10.3389/fneph.2023.1176347

Dina Greenberg, Robert D'Cruz, Jon L Lacanlale, Christopher J Rowan, Norman D Rosenblum

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Abstract

CAKUT is the leading cause of end-stage kidney disease in children and comprises a broad spectrum of phenotypic abnormalities in kidney and ureter development. Molecular mechanisms underlying the pathogenesis of CAKUT have been elucidated in genetic models, predominantly in the mouse, a paradigm for human renal development. Hedgehog (Hh) signaling is critical to normal embryogenesis, including kidney development. Hh signaling mediates the physiological development of the ureter and stroma and has adverse pathophysiological effects on the metanephric mesenchyme, ureteric, and nephrogenic lineages. Further, disruption of Hh signaling is causative of numerous human developmental disorders associated with renal malformation; Pallister-Hall Syndrome (PHS) is characterized by a diverse spectrum of malformations including CAKUT and caused by truncating variants in the middle-third of the Hh signaling effector GLI3. Here, we outline the roles of Hh signaling in regulating murine kidney development, and review human variants in Hh signaling genes in patients with renal malformation.

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刺猬- gli介导的肾脏形成和畸形的控制。

CAKUT是儿童终末期肾脏疾病的主要原因，包括肾脏和输尿管发育的广泛表型异常。CAKUT发病机制的分子机制已经在遗传模型中被阐明，主要是在小鼠中，这是人类肾脏发育的一个范例。Hedgehog (Hh)信号对正常胚胎发生至关重要，包括肾脏发育。Hh信号介导输尿管和间质的生理发育，并对后肾间质、输尿管和肾源谱系有不利的病理生理影响。此外，Hh信号的破坏是导致许多与肾脏畸形相关的人类发育障碍的原因;帕利斯特-霍尔综合征(PHS)以包括CAKUT在内的多种畸形为特征，由Hh信号效应因子GLI3中间三分之一的突变截短引起。在这里，我们概述了Hh信号在调节小鼠肾脏发育中的作用，并回顾了Hh信号基因在肾脏畸形患者中的人类变异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in nephrology

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