Department of Biology, Georgia State University, Atlanta, GA 30302-4010, USA.
Biochem Pharmacol. 2013 May 15;85(10):1495-503. doi: 10.1016/j.bcp.2013.02.039. Epub 2013 Mar 13.
Several agonists of the peroxisome proliferator-activated receptors (PPARs) are currently used for the treatment of metabolic disorders including diabetes. We have recently shown that one of them, Rosiglitazone, inhibits the vascular ATP-sensitive K⁺ (K(ATP)) channel and compromises the coronary vasodilation by the β-adrenoceptor agonist. Here, we show evidence for the channel inhibition by various PPAR agonists, information that may be useful for finding new therapeutical agents with less cardiovascular side-effects and more selective K(ATP) channel blockers targeting at the K(ir)6.1 subunit. Structural comparison of these PPAR agonists may shed insight into the critical chemical groups for the channel inhibition. K(ir)6.1/SUR2B channel was expressed in HEK293 cells and studied in whole-cell voltage clamp. The K(ir)6.1/SUR2B channel was strongly inhibited by several PPAR(γ) agonists with potencies similar to, or higher than, that of Rosiglitazone, while other PPAR(γ) agonists barely inhibited the channel. The K(ir)6.1/SUR2B channel was also inhibited by PPAR(α) and PPAR(β/δ) agonists with intermediate potencies. The structure necessary for the channel inhibition appears to include the thiazole linked to an aromatic or furan ring. Additions of side groups such as small aliphatic chain increased the potency for channel inhibition, while additions of aromatic rings reduced it. These results indicate that the PPAR(γ) agonists with weak K(ATP) channel inhibition may be potential candidates as therapeutical agents, and those with strong channel inhibition may be used as selective K(ATP) channel blockers. The structural information of the PPAR agonists may be useful for the development of new therapeutical modalities with less cardiovascular side-effects.
几种过氧化物酶体增殖物激活受体(PPARs)激动剂目前用于治疗包括糖尿病在内的代谢紊乱。我们最近发现,其中一种罗格列酮(Rosiglitazone)抑制血管三磷酸腺苷敏感的钾通道(K(ATP)),并损害β-肾上腺素能受体激动剂引起的冠状动脉舒张。在这里,我们证明了各种 PPAR 激动剂对通道的抑制作用,这些信息对于寻找具有较少心血管副作用和更具选择性的针对 K(ir)6.1 亚基的 K(ATP)通道阻滞剂的新治疗剂可能是有用的。这些 PPAR 激动剂的结构比较可能有助于深入了解对通道抑制起关键作用的化学基团。K(ir)6.1/SUR2B 通道在 HEK293 细胞中表达,并在全细胞电压钳中进行研究。几种 PPAR(γ)激动剂强烈抑制 K(ir)6.1/SUR2B 通道,其效力与罗格列酮相似或更高,而其他 PPAR(γ)激动剂几乎不抑制该通道。PPAR(α)和 PPAR(β/δ)激动剂也以中等效力抑制 K(ir)6.1/SUR2B 通道。对通道抑制起作用的结构似乎包括与芳环或呋喃环相连的噻唑。添加侧链基团(如小脂肪链)会增加对通道抑制的效力,而添加芳环则会降低其效力。这些结果表明,对 K(ATP)通道抑制作用较弱的 PPAR(γ)激动剂可能是潜在的治疗剂候选物,而对通道抑制作用较强的激动剂可能被用作选择性 K(ATP)通道阻滞剂。PPAR 激动剂的结构信息可能有助于开发具有较少心血管副作用的新型治疗方法。