Host cell membrane microdomains and fungal infection

IF 2.6 2区生物学 Q3 CELL BIOLOGY

Cellular Microbiology Pub Date : 2021-08-14 DOI:10.1111/cmi.13385

Taiane N. Souza, Alessandro F. Valdez, Juliana Rizzo, Daniel Zamith-Miranda, Allan Jefferson Guimarães, Joshua D. Nosanchuk, Leonardo Nimrichter

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引用次数: 3

Abstract

Lipid microdomains or lipid rafts are dynamic and tightly ordered regions of the plasma membrane. In mammalian cells, they are enriched in cholesterol, glycosphingolipids, Glycosylphosphatidylinositol-anchored and signalling-related proteins. Several studies have suggested that mammalian pattern recognition receptors are concentrated or recruited to lipid domains during host-pathogen association to enhance the effectiveness of host effector processes. However, pathogens have also evolved strategies to exploit these domains to invade cells and survive. In fungal organisms, a complex cell wall network usually mediates the first contact with the host cells. This cell wall may contain virulence factors that interfere with the host membrane microdomains dynamics, potentially impacting the infection outcome. Indeed, the microdomain disruption can dampen fungus-host cell adhesion, phagocytosis and cellular immune responses. Here, we provide an overview of regulatory strategies employed by pathogenic fungi to engage with and potentially subvert the lipid microdomains of host cells.

Take Away

Lipid microdomains are ordered regions of the plasma membrane enriched in cholesterol, glycosphingolipids (GSL), GPI-anchored and signalling-related proteins.
Pathogen recognition by host immune cells can involve lipid microdomain participation. During this process, these domains can coalesce in larger complexes recruiting receptors and signalling proteins, significantly increasing their signalling abilities.
The antifungal innate immune response is mediated by the engagement of pathogen-associated molecular patterns to pattern recognition receptors (PRRs) at the plasma membrane of innate immune cells. Lipid microdomains can concentrate or recruit PRRs during host cell-fungi association through a multi-interactive mechanism. This association can enhance the effectiveness of host effector processes. However, virulence factors at the fungal cell surface and extracellular vesicles can re-assembly these domains, compromising the downstream signalling and favouring the disease development.
Lipid microdomains are therefore very attractive targets for novel drugs to combat fungal infections.

Abstract Image

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宿主细胞膜微结构域与真菌感染。

脂质微结构域或脂筏是质膜的动态且紧密有序的区域。在哺乳动物细胞中，它们富含胆固醇、鞘糖脂、糖基磷脂酰肌醇锚定蛋白和信号相关蛋白。几项研究表明，哺乳动物模式识别受体在宿主-病原体结合过程中被集中或募集到脂质结构域，以增强宿主效应过程的有效性。然而，病原体也进化出了利用这些结构域入侵细胞并存活的策略。在真菌生物中，复杂的细胞壁网络通常介导与宿主细胞的第一次接触。该细胞壁可能含有干扰宿主膜微结构域动力学的毒力因子，可能影响感染结果。事实上，微结构域的破坏可以抑制真菌宿主细胞的粘附、吞噬作用和细胞免疫反应。在这里，我们概述了病原真菌参与并可能破坏宿主细胞脂质微结构域的调控策略。注意：脂质微结构域是质膜上富含胆固醇、鞘糖脂（GSL）、GPI锚定和信号相关蛋白的有序区域。宿主免疫细胞识别病原体可能涉及脂质微结构域的参与。在这个过程中，这些结构域可以结合成更大的复合物，招募受体和信号蛋白，显著提高它们的信号能力。抗真菌先天免疫反应是通过病原体相关分子模式与先天免疫细胞质膜上的模式识别受体（PRR）的结合介导的。脂质微结构域可以通过多种相互作用机制在宿主细胞-真菌结合过程中集中或募集PRRs。这种关联可以增强宿主效应器过程的有效性。然而，真菌细胞表面和细胞外小泡的毒力因子可以重新组装这些结构域，损害下游信号传导，有利于疾病发展。因此，脂质微结构域是对抗真菌感染的新药的非常有吸引力的靶点。

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来源期刊

Cellular Microbiology 生物-微生物学

CiteScore

9.70

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Cellular Microbiology aims to publish outstanding contributions to the understanding of interactions between microbes, prokaryotes and eukaryotes, and their host in the context of pathogenic or mutualistic relationships, including co-infections and microbiota. We welcome studies on single cells, animals and plants, and encourage the use of model hosts and organoid cultures. Submission on cell and molecular biological aspects of microbes, such as their intracellular organization or the establishment and maintenance of their architecture in relation to virulence and pathogenicity are also encouraged. Contributions must provide mechanistic insights supported by quantitative data obtained through imaging, cellular, biochemical, structural or genetic approaches.