基于 CRISPR 的急性鼠感染期间弓形虫基因组功能分析。
CRISPR-based functional profiling of the Toxoplasma gondii genome during acute murine infection.
机构信息
Whitehead Institute, Cambridge, MA, USA.
Biology Department, MIT, Cambridge, MA, USA.
出版信息
Nat Microbiol. 2024 Sep;9(9):2323-2343. doi: 10.1038/s41564-024-01754-2. Epub 2024 Jul 8.
Abstract
Examining host-pathogen interactions in animals can capture aspects of infection that are obscured in cell culture. Using CRISPR-based screens, we functionally profile the entire genome of the apicomplexan parasite Toxoplasma gondii during murine infection. Barcoded gRNAs enabled bottleneck detection and mapping of population structures within parasite lineages. Over 300 genes with previously unknown roles in infection were found to modulate parasite fitness in mice. Candidates span multiple axes of host-parasite interaction. Rhoptry Apical Surface Protein 1 was characterized as a mediator of host-cell tropism that facilitates repeated invasion attempts. GTP cyclohydrolase I was also required for fitness in mice and druggable through a repurposed compound, 2,4-diamino-6-hydroxypyrimidine. This compound synergized with pyrimethamine against T. gondii and malaria-causing Plasmodium falciparum parasites. This work represents a complete survey of an apicomplexan genome during infection of an animal host and points to novel interfaces of host-parasite interaction.
摘要
在动物中研究宿主-病原体相互作用可以捕捉到在细胞培养中被掩盖的感染方面。我们使用基于 CRISPR 的筛选方法,在小鼠感染期间对顶复门寄生虫弓形虫的整个基因组进行功能分析。带有条形码的 gRNA 可用于检测瓶颈和寄生虫谱系内种群结构的映射。发现 300 多个以前未知在感染中起作用的基因可调节寄生虫在小鼠中的适应性。候选基因跨越宿主-寄生虫相互作用的多个轴。微线体顶膜蛋白 1被表征为介导宿主细胞趋向性的介质,可促进反复入侵尝试。GTP 环水解酶 I 也是在小鼠中适应所必需的,并且可以通过重新利用的化合物 2,4-二氨基-6-羟基嘧啶进行靶向治疗。该化合物与乙胺嘧啶协同作用,可对抗弓形虫和引起疟疾的恶性疟原虫寄生虫。这项工作代表了在动物宿主感染期间对顶复门基因组的全面调查,并指出了宿主-寄生虫相互作用的新界面。
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