来自刚地弓形虫微线体蛋白1的一种新型半乳糖凝集素样结构域协助细胞黏附复合体的折叠、组装和运输。

A novel galectin-like domain from Toxoplasma gondii micronemal protein 1 assists the folding, assembly, and transport of a cell adhesion complex.

作者信息

Saouros Savvas, Edwards-Jones Bryn, Reiss Matthias, Sawmynaden Kovilen, Cota Ernesto, Simpson Peter, Dowse Timothy J, Jäkle Ursula, Ramboarina Stephanie, Shivarattan Tara, Matthews Stephen, Soldati-Favre Dominique

机构信息

Department of Biological Sciences, Imperial College London, South Kensington Campus, London SW7 2AZ, United Kingdom.

出版信息

J Biol Chem. 2005 Nov 18;280(46):38583-91. doi: 10.1074/jbc.C500365200. Epub 2005 Sep 15.

DOI:10.1074/jbc.C500365200

PMID:16166092

Abstract

Immediately prior to invasion Toxoplasma gondii tachyzoites release a large number of micronemal proteins (TgMICs) that participate in host cell attachment and penetration. The TgMIC4-MIC1-MIC6 complex was the first to be identified in T. gondii and has been recently shown to be critical in invasion. This study establishes that the N-terminal thrombospondin type I repeat-like domains (TSR1-like) from TgMIC1 function as an independent adhesin as well as promoting association with TgMIC4. Using the newly solved three-dimensional structure of the C-terminal domain of TgMIC1 we have identified a novel Galectin-like fold that does not possess carbohydrate binding properties and redefines the architecture of TgMIC1. Instead, the TgMIC1 Galectin-like domain interacts and stabilizes TgMIC6, which provides the basis for a highly specific quality control mechanism for successful exit from the early secretory compartments and for subsequent trafficking of the complex to the micronemes.

摘要

在入侵之前，刚地弓形虫速殖子会释放大量参与宿主细胞附着和穿透的微线体蛋白（TgMICs）。TgMIC4-MIC1-MIC6复合物是在刚地弓形虫中最早被鉴定出来的，最近已证明其在入侵过程中至关重要。本研究证实，TgMIC1的N端I型血小板反应蛋白重复样结构域（TSR1样）作为一种独立的黏附素发挥作用，并促进与TgMIC4的结合。利用新解析的TgMIC1 C端结构域的三维结构，我们鉴定出一种不具备碳水化合物结合特性的新型半乳糖凝集素样折叠，并重新定义了TgMIC1的结构。相反，TgMIC1半乳糖凝集素样结构域与TgMIC6相互作用并使其稳定，这为成功从早期分泌小泡中释放并随后将复合物转运至微线体提供了高度特异性质量控制机制的基础。

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来自刚地弓形虫微线体蛋白1的一种新型半乳糖凝集素样结构域协助细胞黏附复合体的折叠、组装和运输。

A novel galectin-like domain from Toxoplasma gondii micronemal protein 1 assists the folding, assembly, and transport of a cell adhesion complex.

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