Institute of Animal Pathology, University of Bern, Bern, Switzerland.
Department of Chemistry, Biochemistry and Pharmaceutical Sciences, Bern, Switzerland.
mBio. 2024 Jun 12;15(6):e0341223. doi: 10.1128/mbio.03412-23. Epub 2024 May 15.
is a tick-transmitted apicomplexan parasite that gained the unique ability among parasitic eukaryotes to transform its host cell, inducing a fatal cancer-like disease in cattle. Understanding the mechanistic interplay between the host cell and malignant species that drives this transformation requires the identification of responsible parasite effector proteins. In this study, we used TurboID-based proximity labeling, which unbiasedly identified secreted parasite proteins within host cell compartments. By fusing TurboID to nuclear export or localization signals, we biotinylated proteins in the vicinity of the ligase enzyme in the nucleus or cytoplasm of infected macrophages, followed by mass spectrometry analysis. Our approach revealed with high confidence nine nuclear and four cytosolic candidate parasite proteins within the host cell compartments, eight of which had no orthologs in non-transforming . Strikingly, all eight of these proteins are predicted to be highly intrinsically disordered proteins. We discovered a novel tandem arrayed protein family, nuclear intrinsically disordered proteins (NIDP) 1-4, featuring diverse functions predicted by conserved protein domains. Particularly, NIDP2 exhibited a biphasic host cell-cycle-dependent localization, interacting with the EB1/CD2AP/CLASP1 parasite membrane complex at the schizont surface and the tumor suppressor stromal antigen 2 (STAG2), a cohesion complex subunit, in the host nucleus. In addition to STAG2, numerous NIDP2-associated host nuclear proteins implicated in various cancers were identified, shedding light on the potential role of the exported protein family NIDP in host cell transformation and cancer-related pathways.IMPORTANCETurboID proximity labeling was used to identify secreted proteins of , an apicomplexan parasite responsible for a fatal, proliferative disorder in cattle that represents a significant socio-economic burden in North Africa, central Asia, and India. Our investigation has provided important insights into the unique host-parasite interaction, revealing secreted parasite proteins characterized by intrinsically disordered protein structures. Remarkably, these proteins are conspicuously absent in non-transforming species, strongly suggesting their central role in the transformative processes within host cells. Our study identified a novel tandem arrayed protein family, with nuclear intrinsically disordered protein 2 emerging as a central player interacting with established tumor genes. Significantly, this work represents the first unbiased screening for exported proteins in and contributes essential insights into the molecular intricacies behind the malignant transformation of immune cells.
是一种通过蜱传播的顶复门寄生虫,它获得了寄生真核生物中独特的能力,可以转化宿主细胞,导致牛致命的类似癌症的疾病。了解宿主细胞与驱动这种转化的恶性种之间的机械相互作用需要鉴定负责的寄生虫效应蛋白。在这项研究中,我们使用了基于 TurboID 的邻近标记法,该方法在宿主细胞区室中 unbiasedly 鉴定了分泌的寄生虫蛋白。通过将 TurboID 融合到核输出或定位信号中,我们在感染的巨噬细胞的核或细胞质中的 ligase 酶附近标记生物素化蛋白质,然后进行质谱分析。我们的方法以高置信度揭示了宿主细胞区室中 9 种核内和 4 种细胞质候选寄生虫蛋白,其中 8 种在非转化寄生虫中没有同源物。引人注目的是,这 8 种蛋白质都被预测为高度无序的蛋白质。我们发现了一种新的串联排列的蛋白家族,核内无序蛋白(NIDP)1-4,具有不同的功能,由保守的蛋白结构域预测。特别是,NIDP2 表现出宿主细胞周期依赖性的双相定位,在裂殖体表面与 EB1/CD2AP/CLASP1 寄生虫膜复合物相互作用,在宿主核内与肿瘤抑制因子基质抗原 2(STAG2),即凝聚复合物亚基相互作用。除了 STAG2,还鉴定到许多与 NIDP2 相关的宿主核内蛋白,这些蛋白参与各种癌症,这表明 分泌的蛋白家族 NIDP 在宿主细胞转化和癌症相关途径中可能发挥作用。重要性 TurboID 邻近标记法用于鉴定顶复门寄生虫的分泌蛋白,该寄生虫是一种致命的、增殖性疾病的病原体,在北非、中亚和印度对牛造成重大的社会经济负担。我们的研究提供了对独特的宿主-寄生虫相互作用的重要见解,揭示了具有无序蛋白结构的分泌寄生虫蛋白。值得注意的是,这些蛋白在非转化寄生虫物种中明显缺失,强烈表明它们在宿主细胞内的转化过程中起着核心作用。我们的研究鉴定了一种新的串联排列蛋白家族,其中核内无序蛋白 2 作为与已建立的肿瘤基因相互作用的核心成员出现。重要的是,这项工作代表了对 中分泌蛋白的首次无偏筛选,并为免疫细胞恶性转化的分子复杂性提供了重要的见解。
