A Brief View of Molecular Modeling Approaches to P2 Receptors

Receptors P1 and P2 as Targets for Drug Therapy in Humans Pub Date : 2019-07-30 DOI:10.5772/INTECHOPEN.86862

A. P. Alberto, L. Santos, R. Ferreira, D. N. M. Ferreira, L. A. Alves

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引用次数: 1

Abstract

Purinergic receptors are a class of receptors distributed into two groups, P1 and P2. P1 receptors are activated by nucleosides, like adenosine, while nucleotides active P2 receptors. In turn, P2 receptors comprise two families, metabotropic P2Y and ionotropic P2X. P2Y receptors consist in eight members, namely, P2Y1, P2Y2, P2Y4, P2Y6, P2Y11, P2Y12, P2Y13, and P2Y14, described in mammals, while P2X includes seven members, numbered P2X1 to P2X7. These receptors have been described as expressed in practically all cells studied to date. In this context, P2 receptors are suggested as participating in certain diseases. The general approach applied in the discovery of new drugs is expensive and lengthy. Alternatively, in the last 20 years, molecular modeling has emerged as an exciting tool for the design of new drugs, in less time and at low costs. These tools allow for in silico testing of thousands of molecules against a target protein, as well as toxicity, absorption, distribution, metabolism, and constant affinity predictions of a given interaction. Thus, molecular modeling algorithms emerge as an increasingly important tool for the design of drugs targeting purinergic receptors as therapeutic targets of many diseases, including cancer, pain, inflammation, cardiovascular, and endocrine conditions.

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P2受体分子模拟方法综述

嘌呤能受体是一类分布在P1和P2两组的受体。P1受体被核苷激活，如腺苷，而核苷酸激活P2受体。反过来，P2受体包括两个家族，代谢性P2Y和离子性P2X。P2Y受体在哺乳动物中有8个成员，分别为P2Y1、P2Y2、P2Y4、P2Y6、P2Y11、P2Y12、P2Y13和P2Y14，而P2X包括7个成员，编号为P2X1至P2X7。到目前为止，这些受体在几乎所有的细胞中都有表达。在这种情况下，P2受体被认为参与了某些疾病。一般用于发现新药的方法既昂贵又耗时。另外，在过去的20年里，分子建模已经成为一种令人兴奋的新药物设计工具，在更短的时间和更低的成本。这些工具允许在计算机上测试针对目标蛋白的数千个分子，以及毒性、吸收、分布、代谢和给定相互作用的持续亲和力预测。因此，分子建模算法成为设计靶向嘌呤能受体的药物的一个越来越重要的工具，嘌呤能受体是许多疾病的治疗靶点，包括癌症、疼痛、炎症、心血管和内分泌疾病。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Receptors P1 and P2 as Targets for Drug Therapy in Humans

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