Ohio State Biochemistry Program, College of Medicine, The Ohio State University, Columbus, OH 43210, USA.
Neuropharmacology. 2011 Jul-Aug;61(1-2):112-20. doi: 10.1016/j.neuropharm.2011.03.014. Epub 2011 Mar 21.
Cocaine binds and inhibits dopamine transporter (DAT), norepinephrine transporter (NET) and serotonin transporter. The residues forming cocaine binding sites are unknown. RTI-113, a cocaine analog, is 100× more potent at inhibiting DAT than inhibiting NET. Here we show that removing the hydroxyl group from residue Tyr151 in NET by replacing it with Phe, the corresponding residue in DAT, increased the sensitivity of NET to RTI-113, while the reverse mutation in DAT decreased the sensitivity of DAT to RTI-113. In contrast, RTI-31, another cocaine analog having the same structure as RTI-113 but with the phenyl group at the 2β position replaced by a methyl group, inhibits the transporter mutants equally well whether a hydroxyl group is present at the residue or not. The data suggest that this residue contributes to cocaine binding site and is close to the 2β position of cocaine analogs. These results are consistent with our previously proposed cocaine-DAT binding model where cocaine initially binds to a site that does not overlap with, but is close to, the dopamine-binding site. Computational modeling and molecular docking yielded a binding model that explains the observed changes in RTI-113 inhibition potencies.
可卡因结合并抑制多巴胺转运体(DAT)、去甲肾上腺素转运体(NET)和 5-羟色胺转运体。形成可卡因结合位点的残基尚不清楚。可卡因类似物 RTI-113 抑制 DAT 的效力比抑制 NET 高 100 倍。在这里,我们表明通过用 DAT 中的相应残基苯丙氨酸替换 NET 中残基 Tyr151 的羟基,增加了 NET 对 RTI-113 的敏感性,而 DAT 中的反向突变降低了 DAT 对 RTI-113 的敏感性。相比之下,另一种具有与 RTI-113 相同结构但 2β 位上的苯基被甲基取代的可卡因类似物 RTI-31,无论残基上是否存在羟基,对转运体突变体的抑制作用相同。数据表明该残基有助于可卡因结合位点,并且靠近可卡因类似物的 2β 位置。这些结果与我们之前提出的可卡因-DAT 结合模型一致,其中可卡因最初结合到一个不与多巴胺结合位点重叠但靠近多巴胺结合位点的部位。计算建模和分子对接产生了一个结合模型,该模型解释了观察到的 RTI-113 抑制效力的变化。