刺猬受体补丁蛋白的C末端尾巴调控定位和周转。
The C-terminal tail of the Hedgehog receptor Patched regulates both localization and turnover.
作者信息
Lu Xingwu, Liu Songmei, Kornberg Thomas B
机构信息
Department of Biochemistry and Biophysics, University of California at San Francisco, 94143, USA.
出版信息
Genes Dev. 2006 Sep 15;20(18):2539-51. doi: 10.1101/gad.1461306.
Patched (Ptc) is a membrane protein whose function in Hedgehog (Hh) signal transduction has been conserved among metazoans and whose malfunction has been implicated in human cancers. Genetic analysis has shown that Ptc negatively regulates Hh signal transduction, but its activity and structure are not known. We investigated the functional and structural properties of Drosophila Ptc and its C-terminal domain (CTD), 183 residues that are predicted to reside in the cytoplasm. Our results show that Ptc, as well as truncated Ptc deleted of its CTD, forms a stable trimer. This observation is consistent with the proposal that Ptc is structurally similar to trimeric transporters. The CTD itself trimerizes and is required for both Ptc internalization and turnover. Two mutant forms of the CTD, one that disrupts trimerization and the other that mutates the target sequence of the Nedd4 ubiquitin ligase, stabilize Ptc but do not prevent internalization and sequestration of Hh. Ptc deleted of its CTD is stable and localizes to the plasma membrane. These data show that degradation of Ptc is regulated at a step subsequent to endocytosis, although endocytosis is a likely prerequisite. We also show that the CTD of mouse Ptc regulates turnover.
patched(Ptc)是一种膜蛋白,其在刺猬蛋白(Hh)信号转导中的功能在后生动物中保守,其功能异常与人类癌症有关。遗传分析表明,Ptc负向调节Hh信号转导,但其活性和结构尚不清楚。我们研究了果蝇Ptc及其C末端结构域(CTD)的功能和结构特性,CTD由183个预测位于细胞质中的残基组成。我们的结果表明,Ptc以及缺失其CTD的截短型Ptc形成稳定的三聚体。这一观察结果与Ptc在结构上类似于三聚体转运蛋白的提议一致。CTD本身三聚化,是Ptc内化和周转所必需的。CTD的两种突变形式,一种破坏三聚化,另一种使Nedd4泛素连接酶的靶序列突变,使Ptc稳定,但不阻止Hh的内化和隔离。缺失其CTD的Ptc是稳定的,并定位于质膜。这些数据表明,Ptc的降解在胞吞作用之后的一个步骤中受到调节,尽管胞吞作用可能是一个必要前提。我们还表明,小鼠Ptc的CTD调节周转。
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