与神经纤维瘤病2基因产物Merlin相互作用的蛋白HRS的进化和起源。

Leonid V Omelyanchuk, Julia A Pertseva, Sarah S Burns, Long-Sheng Chang
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引用次数: 7

摘要

肝细胞生长因子受体酪氨酸激酶底物(HRS)是一种内体蛋白,用于将受体酪氨酸激酶从早期内体运送到溶酶体。HRS与神经纤维瘤病2 (NF2)基因产物Merlin相互作用,这种相互作用可能对Merlin的肿瘤抑制活性很重要。了解HRS的演化、起源和结构可以为Merlin功能提供新的认识。我们发现HRS同源物存在于广泛的后生动物中,酵母Vps27蛋白是它们最遥远的祖先。HRS家族的系统发育树与物种进化和分化一致,表明HRS具有独特的功能。序列比对表明,酵母和多细胞生物的HRS的多种蛋白结构域,包括VHS结构域、FYVE结构域、UIM结构域和网格蛋白结合结构域都是保守的。从单细胞生物到多细胞生物的进化转变伴随着Merlin结合位点的出现,该结合位点出现在早期后生动物与扁虫分离后。除了负责抑制生长的区域外,HRS的merlin结合域和stamm结合域在多细胞生物中是保守的。在人类HRS蛋白中磷酸化的相当于酪氨酸-377的残基在整个HRS家族中高度保守。在后生动物的HRS蛋白中发现了另外三个缺乏指定功能的保守盒。框1和框3可能分别构成eps -15和snx1结合位点,框2含有与酪氨酸-377相当的残基,可能对HRS磷酸化很重要。虽然在整个HRS家族中有几个功能域是保守的,但在梅林蛋白出现的早期后生动物中,stamm结合域、Merlin结合域和生长抑制域就已经进化了。由于这些结构域出现在向多细胞过渡的过程中,它们的功能作用可能与细胞间相互作用有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Evolution and origin of HRS, a protein interacting with Merlin, the Neurofibromatosis 2 gene product.

Evolution and origin of HRS, a protein interacting with Merlin, the Neurofibromatosis 2 gene product.

Evolution and origin of HRS, a protein interacting with Merlin, the Neurofibromatosis 2 gene product.

Evolution and origin of HRS, a protein interacting with Merlin, the Neurofibromatosis 2 gene product.

Hepatocyte growth factor receptor tyrosine kinase substrate (HRS) is an endosomal protein required for trafficking receptor tyrosine kinases from the early endosome to the lysosome. HRS interacts with Merlin, the Neurofibromatosis 2 (NF2) gene product, and this interaction may be important for Merlin's tumor suppressor activity. Understanding the evolution, origin, and structure of HRS may provide new insight into Merlin function. We show that HRS homologs are present across a wide range of Metazoa with the yeast Vps27 protein as their most distant ancestor. The phylogenetic tree of the HRS family coincides with species evolution and divergence, suggesting a unique function for HRS. Sequence alignment shows that various protein domains of HRS, including the VHS domain, the FYVE domain, the UIM domain, and the clathrin-binding domain, are conserved from yeast to multicellular organisms. The evolutionary transition from unicellular to multicellular organisms was accompanied by the appearance of a binding site for Merlin, which emerges in the early Metazoa after its separation from flatworms. In addition to the region responsible for growth suppression, the Merlin-binding and STAM-binding domains of HRS are conserved among multicellular organisms. The residue equivalent to tyrosine-377, which is phosphorylated in the human HRS protein, is highly conserved throughout the HRS family. Three additional conserved boxes lacking assigned functions are found in the HRS proteins of Metazoa. While boxes 1 and 3 may constitute the Eps-15-and Snx1-binding sites, respectively, box 2, containing the residue equivalent to tyrosine-377, is likely to be important for HRS phosphorylation. While several functional domains are conserved throughout the HRS family, the STAM-binding, Merlin-binding, and growth suppression domains evolved in the early Metazoa around the time the Merlin protein emerged. As these domains appear during the transition to multicellularity, their functional roles may be related to cell-cell interaction.

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