Università degli Studi di Trieste, Dipartimento di Scienze Chimiche e Farmaceutiche, Italy.
Expert Opin Ther Pat. 2012 Apr;22(4):369-90. doi: 10.1517/13543776.2012.669375. Epub 2012 Mar 22.
Adenosine exerts its effects by interacting with G-protein coupled receptors (GPCR) namely A(1), A(2A), A(2B) and A(3), respectively. These are involved in several diseases, for example and most importantly, Parkinson's disease, ischemia and inflammation. There is high interest in the development of potent and selective ligands for these adenosine receptor (AR) subtypes, primarily for their therapeutic potential but also as pharmacological tools in receptor studies.
This paper concentrates on reviewing the therapeutic potential of A(2) and A(3) ARs, which represent the most interesting subtypes of recent years. A general description of each receptor is reported with novel agonist and antagonist structures, patented in 2008 - 2011. PubMed and Free Patents Online databases were principally used to collect all the material.
In the past years, by modulating A(2) and A(3)ARs, several new possible therapeutic applications were discovered. For this reason, research concerning AR ligands is still of great interest. In particular, few potent and selective A(2B) agonists and antagonists are actually reported and a clear SAR (structure-activity relationship) profile lacks for this AR subtype. At the A(3)AR, allosteric modulation may prevent problems related to the high difference between rat and human orthosteric sites and simplify the preclinical studies on A(3)AR.
腺苷通过与 G 蛋白偶联受体(GPCR)相互作用发挥作用,分别为 A(1)、A(2A)、A(2B) 和 A(3)。这些受体参与多种疾病,例如,最重要的是帕金森病、缺血和炎症。人们对这些腺苷受体(AR)亚型的高效和选择性配体的开发非常感兴趣,主要是因为它们的治疗潜力,也作为受体研究中的药理学工具。
本文主要集中讨论 A(2)和 A(3)AR 的治疗潜力,这是近年来最有趣的亚型。报告了每个受体的一般描述,以及 2008-2011 年专利的新型激动剂和拮抗剂结构。主要使用 PubMed 和 Free Patents Online 数据库收集所有材料。
在过去的几年中,通过调节 A(2)和 A(3)AR,发现了几种新的可能的治疗应用。因此,有关 AR 配体的研究仍然非常重要。特别是,实际上仅报道了少数强效和选择性的 A(2B)激动剂和拮抗剂,并且这种 AR 亚型缺乏明确的 SAR(构效关系)概况。在 A(3)AR 上,变构调节可能会防止与大鼠和人类正位部位之间的巨大差异相关的问题,并简化 A(3)AR 的临床前研究。
