Molecular Sciences and Candidate Optimization, Bristol-Myers Squibb Company, Wallingford, CT 06492, USA.
Proc Natl Acad Sci U S A. 2013 Jun 25;110(26):10830-5. doi: 10.1073/pnas.1300393110. Epub 2013 Jun 10.
μ-Opioid receptors are among the most studied G protein-coupled receptors because of the therapeutic value of agonists, such as morphine, that are used to treat chronic pain. However, these drugs have significant side effects, such as respiratory suppression, constipation, allodynia, tolerance, and dependence, as well as abuse potential. Efforts to fine tune pain control while alleviating the side effects of drugs, both physiological and psychological, have led to the development of a wide variety of structurally diverse agonist ligands for the μ-opioid receptor, as well as compounds that target κ- and δ-opioid receptors. In recent years, the identification of allosteric ligands for some G protein-coupled receptors has provided breakthroughs in obtaining receptor subtype-selectivity that can reduce the overall side effect profiles of a potential drug. However, positive allosteric modulators (PAMs) can also have the specific advantage of only modulating the activity of the receptor when the orthosteric agonist occupies the receptor, thus maintaining spatial and temporal control of receptor signaling in vivo. This second advantage of allosteric modulators may yield breakthroughs in opioid receptor research and could lead to drugs with improved side-effect profiles or fewer tolerance and dependence issues compared with orthosteric opioid receptor agonists. Here, we describe the discovery and characterization of μ-opioid receptor PAMs and silent allosteric modulators, identified from high-throughput screening using a β-arrestin-recruitment assay.
μ-阿片受体是研究最多的 G 蛋白偶联受体之一,因为激动剂(如吗啡)具有治疗价值,可用于治疗慢性疼痛。然而,这些药物有明显的副作用,如呼吸抑制、便秘、痛觉过敏、耐受性和依赖性,以及滥用的可能性。为了在减轻药物的生理和心理副作用的同时精细地控制疼痛,人们开发了各种各样具有不同结构的 μ-阿片受体激动剂配体,以及针对 κ-和 δ-阿片受体的化合物。近年来,一些 G 蛋白偶联受体的别构配体的鉴定为获得受体亚型选择性提供了突破,从而降低了潜在药物的整体副作用谱。然而,正变构调节剂 (PAMs) 也具有特定的优势,即在变构激动剂占据受体时,仅调节受体的活性,从而维持体内受体信号的时空控制。这种别构调节剂的第二个优势可能会在阿片受体研究中取得突破,并可能导致具有改善的副作用谱或较少的耐受性和依赖性问题的药物,与变构阿片受体激动剂相比。在这里,我们描述了 μ-阿片受体 PAMs 和沉默别构调节剂的发现和特征,这些调节剂是通过使用β-arrestin 募集测定的高通量筛选鉴定出来的。