作为潜在药物靶点的真菌病原体中的葡萄糖转运蛋白和传感器机制。

Archana Mohit Navale
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引用次数: 0

摘要

近年来,真菌感染正在成为主要的健康挑战。对现有抗真菌药物耐药性的发展急需关注和采取行动。现有的抗真菌药物种类有限,容易引起不良反应,缺乏有效性等,是目前治疗的主要局限性。因此,迫切需要新的抗真菌药物类别来应对当前的情况。葡萄糖是包括真菌在内的所有生物体的主要能量来源。葡萄糖在毒力、生长、入侵、生物膜形成和抗性发展等过程中作为碳和能量来源发挥着至关重要的作用。葡萄糖转运和传感机制在这些生物体中得到了很好的发展,是维持生存的重要策略。调节这些转运或传感器机制可能是抑制真菌生长的重要策略。此外,人类和真菌葡萄糖转运蛋白之间的结构差异使它们作为药物靶点更具吸引力。关于真菌葡萄糖进入机制的文献有限。这篇综述全面介绍了常见真菌病原体的糖转运机制。
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Glucose Transporter and Sensor Mechanisms in Fungal Pathogens as Potential Drug Targets.

Fungal infections are emerging as major health challenges in recent years. The development of resistance against existing antifungal agents needs urgent attention and action. The limited classes of antifungal drugs available, their tendency to cause adverse effects, lack of effectiveness, etc., are the major limitations of current therapy. Thus, there is a pressing demand for new antifungal drug classes to cope with the present circumstances. Glucose is the key source of energy for all organisms, including fungi. Glucose plays a crucial role as a source of carbon and energy for processes like virulence, growth, invasion, biofilm formation, and resistance development. The glucose transport and sensing mechanisms are well developed in these organisms as an important strategy to sustain survival. Modulating these transport or sensor mechanisms may serve as an important strategy to inhibit fungal growth. Moreover, the structural difference between human and fungal glucose transporters makes them more appealing as drug targets. Limited literature is available for fungal glucose entry mechanisms. This review provides a comprehensive account of sugar transport mechanisms in common fungal pathogens.

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来源期刊
CiteScore
4.80
自引率
9.10%
发文量
55
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