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双皮质素（DCX）结构域蛋白的缺失会导致刚地弓形虫微管细胞器出现结构缺陷，并损害宿主细胞入侵。

Loss of a doublecortin (DCX)-domain protein causes structural defects in a tubulin-based organelle of Toxoplasma gondii and impairs host-cell invasion.

作者信息

Nagayasu Eiji, Hwang Yu-Chen, Liu Jun, Murray John M, Hu Ke

机构信息

Nikon Instruments, Melville, NY 11747.

Department of Biology, Indiana University, Bloomington, IN 47405.

出版信息

Mol Biol Cell. 2017 Feb 1;28(3):411-428. doi: 10.1091/mbc.E16-08-0587. Epub 2016 Dec 8.

DOI:10.1091/mbc.E16-08-0587

PMID:27932494

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5341725/

Abstract

The ∼6000 species in phylum Apicomplexa are single-celled obligate intracellular parasites. Their defining characteristic is the apical complex-membranous and cytoskeletal elements at the apical end of the cell that participate in host-cell invasion. The apical complex of Toxoplasma gondii and some other apicomplexans includes a cone-shaped assembly, the conoid, which in T. gondii comprises 14 spirally arranged fibers that are nontubular polymers of tubulin. The tubulin dimers of the conoid fibers make canonical microtubules elsewhere in the same cell, suggesting that nontubulin protein dictates their special arrangement in the conoid fibers. One candidate for this role is TgDCX, which has a doublecortin (DCX) domain and a TPPP/P25-α domain, both of which are known modulators of tubulin polymer structure. Loss of TgDCX radically disrupts the structure of the conoid, severely impairs host-cell invasion, and slows growth. Both the conoid structural defects and the impaired invasion of TgDCX-null parasites are corrected by reintroduction of a TgDCX coding sequence. The nontubular polymeric form of tubulin found in the conoid is not found in the host cell, suggesting that TgDCX may be an attractive target for new parasite-specific chemotherapeutic agents.

摘要

顶复门中的约6000个物种是单细胞专性细胞内寄生虫。它们的决定性特征是顶端复合体——位于细胞顶端的膜性和细胞骨架成分，参与宿主细胞入侵。刚地弓形虫和其他一些顶复门动物的顶端复合体包括一个锥形结构，即类锥体，在刚地弓形虫中，类锥体由14条螺旋排列的纤维组成，这些纤维是微管蛋白的非管状聚合物。类锥体纤维的微管蛋白二聚体在同一细胞的其他部位形成典型的微管，这表明非微管蛋白决定了它们在类锥体纤维中的特殊排列。TgDCX是这个角色的一个候选者，它有一个双皮质素（DCX）结构域和一个TPPP/P25-α结构域，这两个结构域都是已知的微管蛋白聚合物结构调节剂。TgDCX的缺失会从根本上破坏类锥体的结构，严重损害宿主细胞入侵，并减缓生长。通过重新引入TgDCX编码序列，可以纠正类锥体结构缺陷和TgDCX缺失寄生虫的入侵受损问题。在类锥体中发现的微管蛋白的非管状聚合物形式在宿主细胞中不存在，这表明TgDCX可能是新型寄生虫特异性化疗药物的一个有吸引力的靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ba13/5341725/9d7c6557edc2/411fig1.jpg

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双皮质素（DCX）结构域蛋白的缺失会导致刚地弓形虫微管细胞器出现结构缺陷，并损害宿主细胞入侵。

Loss of a doublecortin (DCX)-domain protein causes structural defects in a tubulin-based organelle of Toxoplasma gondii and impairs host-cell invasion.

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