Uncloaking the viral glycocalyx: How do viruses exploit glycoimmune checkpoints?

2区 医学 Q1 Medicine Advances in Virus Research Pub Date : 2024-01-01 Epub Date: 2024-04-08 DOI:10.1016/bs.aivir.2024.03.001
Anthony J Domma, Lauren A Henderson, Jeffery A Nurdin, Jeremy P Kamil
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Abstract

The surfaces of cells and enveloped viruses alike are coated in carbohydrates that play multifarious roles in infection and immunity. Organisms across all kingdoms of life make use of a diverse set of monosaccharide subunits, glycosidic linkages, and branching patterns to encode information within glycans. Accordingly, sugar-patterning enzymes and glycan binding proteins play integral roles in cell and organismal biology, ranging from glycoprotein quality control within the endoplasmic reticulum to lymphocyte migration, coagulation, inflammation, and tissue homeostasis. Unsurprisingly, genes involved in generating and recognizing oligosaccharide patterns are playgrounds for evolutionary conflicts that abound in cross-species interactions, exemplified by the myriad plant lectins that function as toxins. In vertebrates, glycans bearing acidic nine-carbon sugars called sialic acids are key regulators of immune responses. Various bacterial and fungal pathogens adorn their cells in sialic acids that either mimic their hosts' or are stolen from them. Yet, how viruses commandeer host sugar-patterning enzymes to thwart immune responses remains poorly studied. Here, we review examples of viruses that interact with sialic acid-binding immunoglobulin-like lectins (Siglecs), a family of immune cell receptors that regulate toll-like receptor signaling and govern glycoimmune checkpoints, while highlighting knowledge gaps that merit investigation. Efforts to illuminate how viruses leverage glycan-dependent checkpoints may translate into new clinical treatments that uncloak viral antigens and infected cell surfaces by removing or masking immunosuppressive sialoglycans, or by inhibiting viral gene products that induce their biosynthesis. Such approaches may hold the potential to unleash the immune system to clear long intractable chronic viral infections.

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揭开病毒糖萼的神秘面纱:病毒如何利用糖免疫检查点?
细胞和包膜病毒的表面都涂有碳水化合物,它们在感染和免疫中发挥着多种作用。所有生物界的生物都利用各种单糖亚基、糖苷键和分支模式来编码聚糖中的信息。因此,糖型酶和糖结合蛋白在细胞和生物体生物学中发挥着不可或缺的作用,从内质网中的糖蛋白质量控制到淋巴细胞迁移、凝血、炎症和组织稳态。不足为奇的是,参与产生和识别寡糖模式的基因是跨物种相互作用中进化冲突的场所,无数具有毒素功能的植物凝集素就是一个例子。在脊椎动物中,含有酸性九碳糖的聚糖(称为硅铝酸)是免疫反应的关键调节因子。各种细菌和真菌病原体会用仿造宿主的或从宿主那里偷来的硅酸来装饰它们的细胞。然而,病毒如何征用宿主的糖型酶来挫败免疫反应的研究仍然很少。在这里,我们回顾了病毒与唾液酸结合免疫球蛋白样凝集素(Siglecs)相互作用的例子,Siglecs 是免疫细胞受体的一个家族,能调节收费样受体信号传导并控制糖免疫检查点,同时强调了值得研究的知识空白。阐明病毒如何利用糖依赖性检查点的工作可能会转化为新的临床治疗方法,通过去除或掩盖免疫抑制性硅藻糖,或抑制诱导其生物合成的病毒基因产物,从而揭开病毒抗原和受感染细胞表面的神秘面纱。这种方法有可能释放免疫系统,清除长期难治的慢性病毒感染。
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CiteScore
7.10
自引率
0.00%
发文量
7
审稿时长
>12 weeks
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