γ-tubulin complex controls the nucleation of tubulin-based structures in Apicomplexa.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2024-09-01 Epub Date: 2024-07-24 DOI:10.1091/mbc.E24-03-0100
Romuald Haase, Annet Puthenpurackal, Bohumil Maco, Amandine Guérin, Dominique Soldati-Favre
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引用次数: 0

Abstract

Apicomplexan parasites rely on tubulin structures throughout their cell and life cycles, particularly in the polymerization of spindle microtubules to separate the replicated nucleus into daughter cells. Additionally, tubulin structures, including conoid and subpellicular microtubules, provide the necessary rigidity and structure for dissemination and host cell invasion. However, it is unclear whether these tubulin structures are nucleated via a highly conserved γ-tubulin complex or through a specific process unique to apicomplexans. This study demonstrates that Toxoplasma γ-tubulin is responsible for nucleating spindle microtubules, akin to higher eukaryotes, facilitating nucleus division in newly formed parasites. Interestingly, γ-tubulin colocalizes with nascent conoid and subpellicular microtubules during division, potentially nucleating these structures as well. Loss of γ-tubulin results in significant morphological defects due to impaired nucleus scission and the loss of conoid and subpellicular microtubule nucleation, crucial for parasite shape and rigidity. Additionally, the nucleation process of tubulin structures involves a concerted action of γ-tubulin and Gamma Tubulin Complex proteins (GCPs), recapitulating the localization and phenotype of γ-tubulin. This study also introduces new molecular markers for cytoskeletal structures and applies iterative expansion microscopy to reveal microtubule-based architecture in Cryptosporidium parvum sporozoites, further demonstrating the conserved localization and probable function of γ-tubulin in Cryptosporidium.

γ-微管蛋白复合物控制着微管蛋白结构的成核。
吸虫寄生虫在整个细胞周期和生命周期中都依赖于微管蛋白结构,特别是在纺锤体微管聚合过程中,将复制的细胞核分离成子细胞。此外,微管蛋白结构(包括圆锥形和亚圆锥形微管)还为寄生虫的传播和宿主细胞的入侵提供了必要的刚性和结构。然而,目前还不清楚这些微管蛋白结构是通过高度保守的γ-微管蛋白复合物成核的,还是通过 apicomplexans 特有的特定过程成核的。这项研究证明,弓形虫的γ-微管蛋白负责核化纺锤体微管,这与高等真核生物类似,有助于新形成的寄生虫的细胞核分裂。有趣的是,在分裂过程中,γ-tubulin 与新生的球果状和亚球果状微管聚集在一起,可能也对这些结构起核作用。γ-微管蛋白的缺失会导致明显的形态缺陷,这是因为细胞核分裂受损,失去了对寄生虫形状和刚性至关重要的锥体和小球下微管成核。此外,微管蛋白结构的成核过程涉及γ-微管蛋白和γ-微管蛋白复合蛋白(GCPs)的协同作用,再现了γ-微管蛋白的定位和表型。该研究还引入了细胞骨架结构的新分子标记,并应用迭代扩展显微镜揭示了副隐孢子虫孢子虫中基于微管的结构,进一步证明了γ-微管蛋白在隐孢子虫中的保守定位和可能功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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