Department of Microbiology and Parasitology, Faculty of Pharmacy, Complutense University of Madridgrid.4795.f (UCM), Madrid, Spain.
Ramon y Cajal Health Research Institute (IRYCIS), Madrid, Spain.
Microbiol Spectr. 2022 Jun 29;10(3):e0069822. doi: 10.1128/spectrum.00698-22. Epub 2022 May 23.
Candida albicans is the principal causative agent of lethal fungal infections, predominantly in immunocompromised hosts. Extracellular vesicles (EVs) have been described as crucial in the interaction of microorganisms with their host. Since the yeast-to-hypha transition is an important virulence trait with great impact in invasive candidiasis (IC), we have addressed the characterization of EVs secreted by hyphal cells (HEVs) from C. albicans, comparing them to yeast EVs (YEVs). YEVs comprised a larger population of bigger EVs with mainly cell wall proteins, while HEVs were smaller, in general, and had a much higher protein diversity. YEVs were able to rescue the sensitivity of a cell wall mutant against calcofluor white, presumably due to the larger amount of cell wall proteins they contained. On the other hand, HEVs also contained many cytoplasmic proteins related to protein metabolism and intracellular protein transport and the endosomal sorting complexes required for transport (ESCRT) pathway related to exosome biogenesis, pointing to an intracellular origin of HEVs. Interestingly, an active 20S proteasome complex was secreted exclusively in HEVs. Moreover, HEVs contained a greater number of virulence-related proteins. As for their immunogenic role, both types of EV presented immune reactivity with human sera from patients suffering invasive candidiasis; however, under our conditions, only HEVs showed a cytotoxic effect on human macrophages and could elicit the release of tumor necrosis factor alpha (TNF-α) by these macrophages. This first analysis of HEVs of C. albicans has shown clear differences between them and the YEVs of C. albicans, showing their relevance and possible use in the discovery of new diagnostic markers and treatment targets against C. albicans infections. The data obtained point to different mechanisms of biogenesis of YEVs and HEVs, as well as different involvements in cell biology and host interaction. YEVs played a more relevant role in cell wall maintenance, while HEVs were more closely related to virulence, as they had greater effects on human immune cells. Importantly, an active 20S proteosome complex was described as a fungal-EV cargo. A deeper study of its role and those of many other proteins exclusively detected in HEVs and involved in different relevant biological processes of this fungus could open up interesting new areas of research in the battle against C. albicans.
白色念珠菌是主要的致死性真菌感染的病原体,主要发生在免疫功能低下的宿主中。细胞外囊泡(EVs)已被描述为微生物与其宿主相互作用的关键因素。由于酵母到菌丝的转变是侵袭性念珠菌病(IC)的一个重要毒力特征,我们已经研究了白色念珠菌菌丝细胞(HEVs)分泌的 EVs 的特征,并将其与酵母 EVs(YEVs)进行了比较。YEVs 包含更大的 EV 群体,具有主要的细胞壁蛋白,而 HEVs 通常较小,并且具有更高的蛋白质多样性。YEVs 能够恢复细胞壁突变体对Calcofluor White 的敏感性,推测是由于它们包含更多的细胞壁蛋白。另一方面,HEVs 还包含许多与蛋白质代谢和细胞内蛋白质运输有关的细胞质蛋白,以及与外泌体生物发生有关的内体分选复合物必需的运输(ESCRT)途径,这表明 HEVs 具有细胞内起源。有趣的是,一个活跃的 20S 蛋白酶体复合物仅在 HEVs 中分泌。此外,HEVs 还包含更多的与毒力相关的蛋白质。至于它们的免疫作用,这两种类型的 EV 都与侵袭性念珠菌病患者的人血清发生免疫反应;然而,在我们的条件下,只有 HEVs 对人巨噬细胞表现出细胞毒性作用,并能诱导这些巨噬细胞释放肿瘤坏死因子-α(TNF-α)。这项对白色念珠菌 HEVs 的首次分析表明,它们与白色念珠菌的 YEVs 之间存在明显差异,表明它们在发现新的诊断标志物和治疗白色念珠菌感染的靶点方面具有相关性和潜在用途。所获得的数据表明 YEVs 和 HEVs 的生物发生机制不同,以及在细胞生物学和宿主相互作用中的参与程度不同。YEVs 在细胞壁维持中发挥更重要的作用,而 HEVs 与毒力的关系更为密切,因为它们对人免疫细胞的影响更大。重要的是,一个活跃的 20S 蛋白酶体复合物被描述为真菌-EV 货物。对其作用及其在该真菌的不同相关生物学过程中仅在 HEVs 中检测到并参与的许多其他蛋白质的深入研究,可以为对抗白色念珠菌开辟新的研究领域。
