Fan Bolin, Qin Biyun, Li Mingjun, Zhu Yuchao, Fan Fuqiang, Xu Hao, Xue Lilan, Chen Yukun, Pan Ming, Shen Bang
State Key Laboratory of Agricultural Microbiology, College of Veterinary Medicine, Huazhong Agricultural University, Wuhan, Hubei, China.
Hubei Hongshan Laboratory, Wuhan, Hubei, China.
mBio. 2025 Jun 27:e0124225. doi: 10.1128/mbio.01242-25.
is an obligate intracellular pathogen that infects humans and many animals. It harbors unique secretory organelles to facilitate its parasitic lifestyle, including dense granules that secrete diverse proteins to different destinations. Yet the biological functions of these secretory proteins are mostly unknown. Here, we examined the roles of GRA1, the first dense granule protein discovered. GRA1 is secreted to the parasitophorous vacuole (PV), and its conditional depletion led to growth arrest of tachyzoites, suggesting a crucial role of GRA1 for parasite propagation during acute infection. Furthermore, GRA1 inactivation resulted in severe metabolic defects, including reduced glycolysis and tricarboxylic acid cycle activities and a drop in cellular ATP levels. GRA1 depletion also disrupted the integrity of the mitochondrion and apicoplasts. Mechanistically, disruption of GRA1 altered the structures of membranous tubules in the PV, called the intravacuolar network (IVN), which are thought to mediate the transport of molecules in and out of the parasites. Consistently, GRA1 inactivation impaired the secretion of various GRA proteins to the PV membrane (PVM) or host cells, including GRA17 that is involved in nutrient uptake from host cells. In agreement with the mislocalization of GRA proteins, mutants lacking GRA1 had a strong defect in absorbing nutrients like glucose and pantothenate from host cells. Consequently, the parasites displayed slower growth and a higher tendency to differentiate into bradyzoites. Together, these results suggest that GRA1 plays a vital role in maintaining the structural integrity of the IVN, thus contributing to the scavenging of host nutrients.
critically relies on host nutrients for growth, but the underlying mechanisms are largely unknown. Here, we discovered that the secretory protein GRA1 in played a crucial role in scavenging host nutrients to support parasite proliferation. GRA1 is the first reported GRA protein, but its function remains enigmatic since its discovery in 1989. GRA1 is secreted to the PV from the dense granules, which harbor many proteins that traffic to PV, PVM, and even host cells to perform diverse functions, including forming channels on the PVM to take up host nutrients to establish parasitism. GRA1 disruption impaired the structure of IVN and abolished the targeting of other GRA proteins to their destinations, which compromised the parasite's ability to import nutrients from the hosts. These findings reveal the functional mode of GRA1 in and highlight its potential as a target for developing new interventions against toxoplasmosis.
是一种专性细胞内病原体,可感染人类和许多动物。它拥有独特的分泌细胞器以促进其寄生生活方式,包括致密颗粒,这些致密颗粒可将多种蛋白质分泌到不同的目的地。然而,这些分泌蛋白的生物学功能大多未知。在这里,我们研究了首个被发现的致密颗粒蛋白GRA1的作用。GRA1被分泌到寄生泡(PV)中,其条件性缺失导致速殖子生长停滞,这表明GRA1在急性感染期间对寄生虫繁殖起着关键作用。此外,GRA1失活导致严重的代谢缺陷,包括糖酵解和三羧酸循环活性降低以及细胞ATP水平下降。GRA1缺失还破坏了线粒体和顶质体的完整性。从机制上讲,GRA1的破坏改变了PV中称为泡内网络(IVN)的膜性小管的结构,据认为这些小管介导分子进出寄生虫的运输。一致地,GRA1失活损害了各种GRA蛋白向PV膜(PVM)或宿主细胞的分泌,包括参与从宿主细胞摄取营养的GRA17。与GRA蛋白的错误定位一致,缺乏GRA1的突变体在从宿主细胞吸收葡萄糖和泛酸等营养物质方面存在严重缺陷。因此,寄生虫生长较慢,且更倾向于分化为缓殖子。总之,这些结果表明GRA1在维持IVN的结构完整性方面起着至关重要的作用,从而有助于宿主营养物质的摄取。
严重依赖宿主营养进行生长,但其潜在机制 largely unknown。在这里,我们发现 中的分泌蛋白GRA1在摄取宿主营养以支持寄生虫增殖方面起着关键作用。GRA1是首个被报道的GRA蛋白,但其功能自1989年发现以来一直成谜。GRA1从致密颗粒分泌到PV中,致密颗粒中含有许多运输到PV、PVM甚至宿主细胞以执行多种功能的蛋白质,包括在PVM上形成通道以摄取宿主营养以建立寄生关系。GRA1的破坏损害了IVN的结构,并消除了其他GRA蛋白向其目的地的靶向,这损害了寄生虫从宿主摄取营养的能力。这些发现揭示了GRA1在 中的功能模式,并突出了其作为开发抗弓形虫病新干预措施靶点的潜力。 (注:原文中“largely unknown”未准确翻译,可能是原英文表述有误,正常应是“largely unknown”表示“很大程度上未知” )
