Sakurai Taku, Davenport Richard, Stafford Stuart, Grosse Johannes, Ogawa Kazumasa, Cameron Jennifer, Parton Laura, Sykes Andy, Mack Stephen, Bousba Sarah, Parmar Alka, Harrison David, Dickson Louise, Leveridge Mathew, Matsui Junji, Barnes Matt
Biomolecular Research Laboratories, Pharmaceutical Research Division, Takeda Pharmaceutical Company Limited, 26-1, Muraoka-higashi 2-chome, Fujisawa, Kanagawa 251-8555, Japan.
Takeda Cambridge, 418 Cambridge Science Park, CB4 OPA Cambridge, GB, United Kingdom.
Eur J Pharmacol. 2014 Mar 15;727:1-7. doi: 10.1016/j.ejphar.2014.01.029. Epub 2014 Jan 30.
GPR81, which exhibits a high degree of homology with GPR109a, has been recently identified as a lactate receptor. Similar to GPR109a, the activation of GPR81 by lactate suppresses lipolysis, suggesting that GPR81 may be a potential drug target for treating dyslipidemia. In addition, the fact that GPR81 is expressed only in adipocytes, whereas GPR109a is expressed in various tissues and cells, including Langerhans cells, which are considered responsible for flushing, indicates that targeting GPR81 could lead to the development of antidyslipidemia agents with a reduced risk of this side effect. However, the pharmacological role of GPR81 remains largely unclear, mainly because of the lack of potent and selective surrogate GPR81 agonists suitable for in vivo studies. In the present study, we showed that lactate-induced suppression of lipolysis in explants of white adipose tissue (WAT) depends on the presence of GPR81. We also performed high-throughput screening (HTS) and identified four novel chemical clusters as GPR81 agonists. Chemical optimization of aminothiazole derivatives led to the discovery of a lead compound with improved potency. The compound inhibited lipolysis in differentiated 3T3-L1 adipocytes. Finally, intraperitoneal administration of this compound suppressed lipolysis in mice at doses that did not cause cutaneous flushing. This is the first description of a 50nM GPR81 selective agonist with in vivo efficacy, without the side effect, i.e., flushing. These results suggest that GPR81 is an attractive drug target for treating dyslipidemia without the risk of flushing.
GPR81与GPR109a具有高度同源性,最近被鉴定为乳酸受体。与GPR109a类似,乳酸激活GPR81可抑制脂肪分解,这表明GPR81可能是治疗血脂异常的潜在药物靶点。此外,GPR81仅在脂肪细胞中表达,而GPR109a在包括朗格汉斯细胞在内的各种组织和细胞中表达,朗格汉斯细胞被认为与潮红有关,这表明靶向GPR81可能会开发出具有降低这种副作用风险的抗血脂异常药物。然而,GPR81的药理作用在很大程度上仍不清楚,主要是因为缺乏适合体内研究的强效和选择性GPR81替代激动剂。在本研究中,我们表明乳酸诱导的白色脂肪组织(WAT)外植体脂肪分解抑制取决于GPR81的存在。我们还进行了高通量筛选(HTS),并鉴定出四个新的化学簇作为GPR81激动剂。氨基噻唑衍生物的化学优化导致发现了一种活性提高的先导化合物。该化合物抑制分化的3T3-L1脂肪细胞中的脂肪分解。最后,腹腔注射该化合物可在不引起皮肤潮红的剂量下抑制小鼠的脂肪分解。这是首次描述一种具有体内疗效且无潮红副作用的50nM GPR81选择性激动剂。这些结果表明,GPR81是治疗血脂异常且无潮红风险的有吸引力的药物靶点。
