GAS1、CDO 和 BOC 这 3 种共受体在 SHH 通路功能中具有重叠的作用和共同的需求。
Overlapping roles and collective requirement for the coreceptors GAS1, CDO, and BOC in SHH pathway function.
机构信息
Department of Cell and Developmental Biology, University of Michigan, Ann Arbor, 48109, USA.
出版信息
Dev Cell. 2011 Jun 14;20(6):775-87. doi: 10.1016/j.devcel.2011.04.018.
Abstract
Secreted Hedgehog (HH) ligands signal through the canonical receptor Patched (PTCH1). However, recent studies implicate three additional HH-binding, cell-surface proteins, GAS1, CDO, and BOC, as putative coreceptors for HH ligands. A central question is to what degree these coreceptors function similarly and what their collective requirement in HH signal transduction is. Here we provide evidence that GAS1, CDO, and BOC play overlapping and essential roles during HH-mediated ventral neural patterning of the mammalian neural tube. Specifically, we demonstrate two important roles for these molecules: an early role in cell fate specification of multiple neural progenitors and a later role in motor neuron progenitor maintenance. Most strikingly, genetic loss-of-function experiments indicate an obligatory requirement for GAS1, CDO, and BOC in HH pathway activity in multiple tissues.
摘要
分泌的 Hedgehog (HH) 配体通过经典受体 Patched (PTCH1) 发出信号。然而,最近的研究表明,还有另外三种 HH 结合的细胞表面蛋白,GAS1、CDO 和 BOC,作为 HH 配体的假定核心受体。一个核心问题是这些核心受体在多大程度上具有相似的功能,以及它们在 HH 信号转导中的集体需求是什么。在这里,我们提供了证据表明 GAS1、CDO 和 BOC 在 HH 介导的哺乳动物神经管腹侧神经模式形成中发挥重叠且至关重要的作用。具体来说,我们证明了这些分子的两个重要作用:早期在多个神经祖细胞的细胞命运特化中的作用,以及在运动神经元祖细胞维持中的后期作用。最引人注目的是,遗传功能丧失实验表明,GAS1、CDO 和 BOC 在 HH 途径在多个组织中的活性中是必需的。
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