通过高通量虚拟筛选寻找新型SGLT2抑制剂。

Abhijit Debnath, Shalini Sharma, Rupa Mazumder, Avijit Mazumder, Rajesh Singh, Ankit Kumar, Arpita Dua, Priya Singhal, Arvind Kumar, Gurvinder Singh
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摘要

背景:2型糖尿病约占所有糖尿病报告类型的90%。胰岛素抵抗是糖尿病的特征。这种情况常见于45岁及以上的患者;然而,有一种新的模式是,年轻人群接受诊断主要归因于与生活方式相关的变量,包括肥胖、久坐行为和不良的饮食选择。SGLT2酶对胰岛素信号通路发挥负调控作用,导致胰岛素抵抗的发生和随后的血糖水平升高。葡萄糖稳态的维持依赖于胰岛素信号通路的正常运作,而胰岛素信号通路的破坏可能导致2型糖尿病的发生。目的:本研究旨在探讨SGLT2的作用。这种酶干扰胰岛素信号通路,并确定潜在的SGLT2抑制剂作为2型糖尿病的治疗方法。方法:我们筛选Maybridge HitDiscover数据库,以确定有效的命中,然后是药物相似性、合成可及性、疼痛警报、毒性评估、ADME评估和共识分子对接。结果:筛选过程中鉴定出三个分子,它们具有显著的结合亲和力、良好的药物样特性、有效的ADME和最小的毒性。结论:所鉴定的分子可以通过抑制SGLT2有效地治疗T2DM,为未来的治疗策略提供了一条有希望的途径。
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In Search of Novel SGLT2 Inhibitors by High-throughput Virtual Screening.

Background: Type 2 diabetes mellitus constitutes approximately 90% of all reported forms of diabetes mellitus. Insulin resistance characterizes this manifestation of diabetes. The prevalence of this condition is commonly observed in patients aged 45 and above; however, there is an emerging pattern of younger cohorts receiving diagnoses primarily attributed to lifestyle-related variables, including obesity, sedentary behavior, and poor dietary choices. The enzyme SGLT2 exerts a negative regulatory effect on insulin signaling pathways, resulting in the development of insulin resistance and subsequent elevation of blood glucose levels. The maintenance of glucose homeostasis relies on the proper functioning of insulin signaling pathways, while disruptions in insulin signaling can contribute to the development of type 2 diabetes.

Objective: Our study aimed to identify novel SGLT2 inhibitors by high-throughput virtual Screening.

Methods: We screened the May bridge Hit Discover database to identify potent hits followed by druglikeness, synthetic accessibility, PAINS alert, toxicity estimation, ADME assessment, and consensus molecular docking.

Results: The screening process led to the identification of three molecules that demonstrated significant binding affinity, favorable drug-like properties, effective ADME, and minimal toxicity.

Conclusion: The identified molecules could manage T2DM effectively by inhibiting SGLT2, providing a promising avenue for future therapeutic strategies.

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