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双向时空控制的细胞凋亡调节沃尔夫管泄殖腔融合。

Reciprocal Spatiotemporally Controlled Apoptosis Regulates Wolffian Duct Cloaca Fusion.

机构信息

Division of Nephrology, Department of Internal Medicine.

Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital, Toronto, Ontario, Canada.

出版信息

J Am Soc Nephrol. 2018 Mar;29(3):775-783. doi: 10.1681/ASN.2017040380. Epub 2018 Jan 11.

DOI:10.1681/ASN.2017040380
PMID:29326158
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5827592/
Abstract

The epithelial Wolffian duct (WD) inserts into the cloaca (primitive bladder) before metanephric kidney development, thereby establishing the initial plumbing for eventual joining of the ureters and bladder. Defects in this process cause common anomalies in the spectrum of congenital anomalies of the kidney and urinary tract (CAKUT). However, developmental, cellular, and molecular mechanisms of WD-cloaca fusion are poorly understood. Through systematic analysis of early WD tip development in mice, we discovered that a novel process of spatiotemporally regulated apoptosis in WD and cloaca was necessary for WD-cloaca fusion. Aberrant RET tyrosine kinase signaling through tyrosine (Y) 1062, to which PI3K- or ERK-activating proteins dock, or Y1015, to which PLC docks, has been shown to cause CAKUT-like defects. Cloacal apoptosis did not occur in RetY1062F mutants, in which WDs did not reach the cloaca, or in RetY1015F mutants, in which WD tips reached the cloaca but did not fuse. Moreover, inhibition of ERK or apoptosis prevented WD-cloaca fusion in cultures, and WD-specific genetic deletion of YAP attenuated cloacal apoptosis and WD-cloacal fusion Thus, cloacal apoptosis requires direct contact and signals from the WD tip and is necessary for WD-cloacal fusion. These findings may explain the mechanisms of many CAKUT.

摘要

上皮性 Wolffian 管(WD)在后肾发育之前插入泄殖腔(原始膀胱),从而为输尿管和膀胱的最终连接建立了初始管道。这个过程中的缺陷会导致先天性肾和泌尿道异常(CAKUT)谱中的常见异常。然而,WD-泄殖腔融合的发育、细胞和分子机制尚不清楚。通过对小鼠早期 WD 尖端发育的系统分析,我们发现 WD 和泄殖腔中时空调节的细胞凋亡的一个新过程对于 WD-泄殖腔融合是必要的。通过与 PI3K 或 ERK 激活蛋白结合的酪氨酸(Y)1062 或与 PLC 结合的 Y1015 发生异常 RET 酪氨酸激酶信号传导,已被证明会导致 CAKUT 样缺陷。在 RetY1062F 突变体中,没有发生泄殖腔凋亡,其中 WD 没有到达泄殖腔,或者在 RetY1015F 突变体中,WD 尖端到达了泄殖腔但没有融合。此外,ERK 或凋亡的抑制在培养物中阻止了 WD-泄殖腔融合,而 WD 特异性 YAP 的基因缺失减弱了泄殖腔凋亡和 WD-泄殖腔融合。因此,泄殖腔凋亡需要 WD 尖端的直接接触和信号,是 WD-泄殖腔融合所必需的。这些发现可能解释了许多 CAKUT 的机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e3b7/5827592/9acab0ff5320/ASN.2017040380absf1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e3b7/5827592/9acab0ff5320/ASN.2017040380absf1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e3b7/5827592/9acab0ff5320/ASN.2017040380absf1.jpg

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