Department of Tropical Medicine and Parasitology, College of Medicine, National Taiwan University, Taipei, Taiwan.
The Proteomic Core, Institute of Biomedical Sciences, Academia Sinica, Taipei, Taiwan.
Microbiol Spectr. 2023 Aug 17;11(4):e0059623. doi: 10.1128/spectrum.00596-23. Epub 2023 Jun 13.
Cytoadherence and migration are crucial for pathogens to establish colonization in the host. In contrast to a nonadherent isolate of Trichomonas vaginalis, an adherent one expresses more actin-related machinery proteins with more active flagellate-amoeboid morphogenesis, amoeba migration, and cytoadherence, activities that were abrogated by an actin assembly blocker. By immunoprecipitation coupled with label-free quantitative proteomics, an F-actin capping protein (T. vaginalis F-actin capping protein subunit α [FACPα]) was identified from the actin-centric interactome. His-FACPα was detected at the barbed end of a growing F-actin filament, which inhibited elongation and possessed atypical activity in binding G-actin in assays. FACPα partially colocalized with F-actin at the parasite pseudopod protrusion and formed a protein complex with α-actin through its C-terminal domain. Meanwhile, FACPα overexpression suppressed F-actin polymerization, amoeboid morphogenesis, and cytoadherence in this parasite. Ser2 phosphorylation of FACPα enriched in the amoeboid stage of adhered trophozoites was reduced by a casein kinase II (CKII) inhibitor. Site-directed mutagenesis and CKII inhibitor treatment revealed that Ser2 phosphorylation acts as a switching signal to alter FACPα actin-binding activity and the consequent actin cytoskeleton behaviors. Through CKII signaling, FACPα also controls the conversion of adherent trophozoites from amoeboid migration to the flagellate form with axonemal motility. Together, CKII-dependent Ser2 phosphorylation regulates FACPα binding to actin to fine-tune cytoskeleton dynamics and drive crucial behaviors underlying host colonization by T. vaginalis. Trichomoniasis is one of the most prevalent nonviral sexually transmitted diseases. T. vaginalis cytoadherence to urogenital epithelium cells is the first step in the colonization of the host. However, studies on the mechanisms of cytoadherence have focused mainly on the role of adhesion molecules, and their effects are limited when analyzed by loss- or gain-of-function assays. This study proposes an extra pathway in which the actin cytoskeleton mediated by a capping protein α-subunit may play roles in parasite morphogenesis, cytoadherence, and motility, which are crucial for colonization. Once the origin of the cytoskeleton dynamics could be manipulated, the consequent activities would be controlled as well. This mechanism may provide new potential therapeutic targets to impair this parasite infection and relieve the increasing impact of drug resistance on clinical and public health.
细胞黏附和迁移对于病原体在宿主中建立定植至关重要。与非黏附分离株相比,黏附分离株表达更多与肌动蛋白相关的机制蛋白,具有更活跃的鞭毛阿米巴样形态发生、阿米巴样迁移和细胞黏附,这些活性被肌动蛋白组装抑制剂所阻断。通过免疫沉淀结合无标记定量蛋白质组学,从肌动蛋白中心相互作用组中鉴定出一种阴道毛滴虫 F-肌动蛋白加帽蛋白(T. vaginalis F-actin capping protein subunit α [FACPα])。His-FACPα被检测到在生长中的 F-肌动蛋白丝的珠状末端,它抑制延伸并在测定中具有结合 G-肌动蛋白的非典型活性。FACPα与寄生虫伪足突起处的 F-肌动蛋白部分共定位,并通过其 C 末端结构域与 α-肌动蛋白形成蛋白复合物。同时,FACPα的过表达抑制了寄生虫的 F-肌动蛋白聚合、阿米巴样形态发生和细胞黏附。在黏附的滋养体的阿米巴样阶段富集的 FACPα Ser2 磷酸化被酪蛋白激酶 II(CKII)抑制剂减少。定点突变和 CKII 抑制剂处理表明,Ser2 磷酸化作为一种开关信号,改变 FACPα肌动蛋白结合活性,并导致随后的肌动蛋白细胞骨架行为改变。通过 CKII 信号传导,FACPα还控制从阿米巴样迁移到具有轴突运动的鞭毛形式的黏附滋养体的转化。总之,依赖 CKII 的 Ser2 磷酸化调节 FACPα与肌动蛋白的结合,以微调细胞骨架动力学,并驱动阴道毛滴虫定植宿主的关键行为。滴虫病是最常见的非病毒性性传播疾病之一。阴道毛滴虫对泌尿生殖道上皮细胞的细胞黏附是寄生虫定植宿主的第一步。然而,关于细胞黏附机制的研究主要集中在黏附分子的作用上,并且通过缺失或获得功能分析,其作用是有限的。本研究提出了一种额外的途径,即由帽蛋白 α 亚基介导的肌动蛋白细胞骨架可能在寄生虫形态发生、细胞黏附和运动中发挥作用,这些对定植至关重要。一旦可以操纵细胞骨架动力学的起源,随后的活动也将受到控制。这种机制可能为损害寄生虫感染提供新的潜在治疗靶点,并缓解耐药性对临床和公共卫生的日益影响。
