两种导致 Wnt 通路过度活跃的人类 BICC1 突变与囊性肾发育不良有关。

Two mutations in human BICC1 resulting in Wnt pathway hyperactivity associated with cystic renal dysplasia.

机构信息

Swiss Institute for Experimental Cancer Research, School of Life Sciences, Ecole Polytechnique Fédérale de Lausanne, Station 19, Lausanne, Switzerland.

出版信息

Hum Mutat. 2012 Jan;33(1):86-90. doi: 10.1002/humu.21610. Epub 2011 Oct 31.

DOI:10.1002/humu.21610

PMID:21922595

Abstract

Bicaudal C homologue 1 (Bicc1) knockout in mice causes polycystic kidney disease and pancreas development defects, including a reduction in insulin-producing β-cells and ensuing diabetes. We therefore screened 137 patients with renal abnormalities or association of early-onset diabetes and renal disease for genetic alterations in BICC1. We identified two heterozygous mutations, one nonsense in the first K Homology (KH) domain and one missense in the sterile alpha motif (SAM) domain. In mice, Bicc1 blocks canonical Wnt signaling, mostly via its SAM domain. We show that the human BICC1, similar to its mouse counterpart, blocks canonical Wnt signaling. The nonsense mutation identified results in a complete loss of Wnt inhibitory activity. The point mutation in the SAM domain has a similar effect to a complete SAM domain deletion, resulting in a 22% loss of activity.

摘要

双尾果蝇同源物 1（Bicc1）在小鼠中的敲除导致多囊肾病和胰腺发育缺陷，包括胰岛素产生β细胞减少和随之而来的糖尿病。因此，我们对 137 名患有肾脏异常或早发性糖尿病和肾脏疾病的患者进行了 BICC1 基因改变的筛查。我们发现了两种杂合突变，一种是第一个 KH 结构域的无义突变，另一种是 SAM 结构域的错义突变。在小鼠中，Bicc1 通过其 SAM 结构域阻断经典 Wnt 信号通路。我们表明，人 BICC1 与其小鼠对应物相似，可阻断经典 Wnt 信号通路。鉴定出的无义突变导致 Wnt 抑制活性完全丧失。SAM 结构域中的点突变具有与完全 SAM 结构域缺失相似的效果，导致活性丧失 22%。

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两种导致 Wnt 通路过度活跃的人类 BICC1 突变与囊性肾发育不良有关。

Two mutations in human BICC1 resulting in Wnt pathway hyperactivity associated with cystic renal dysplasia.

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