Sakloth F, Kolanos R, Mosier P D, Bonano J S, Banks M L, Partilla J S, Baumann M H, Negus S S, Glennon R A
Department of Medicinal Chemistry, School of Pharmacy, Virginia Commonwealth University, Richmond, VA, USA.
Br J Pharmacol. 2015 May;172(9):2210-8. doi: 10.1111/bph.13043. Epub 2015 Feb 27.
There is growing concern over the abuse of certain psychostimulant methcathinone (MCAT) analogues. This study extends an initial quantitative structure-activity relationship (QSAR) investigation that demonstrated important steric considerations of seven 4- (or para-)substituted analogues of MCAT. Specifically, the steric character (Taft's steric ES ) of the 4-position substituent affected in vitro potency to induce monoamine release via dopamine and 5-HT transporters (DAT and SERT) and in vivo modulation of intracranial self-stimulation (ICSS). Here, we have assessed the effects of other steric properties of the 4-position substituents.
Definitive steric parameters that more explicitly focus on the volume, width and length of the MCAT 4-position substituents were assessed. In addition, homology models of human DAT and human SERT based upon the crystallized Drosophila DAT were constructed and docking studies were performed, followed by hydropathic interaction (HINT) analysis of the docking results.
The potency of seven MCAT analogues at DAT was negatively correlated with the volume and maximal width of their 4-position substituents, whereas potency at SERT increased as substituent volume and length increased. SERT/DAT selectivity, as well as abuse-related drug effects in the ICSS procedure, also correlated with the same parameters. Docking solutions offered a means of visualizing these findings.
These results suggest that steric aspects of the 4-position substituents of MCAT analogues are key determinants of their action and selectivity, and that the hydrophobic nature of these substituents is involved in their potency at SERT.
某些精神兴奋药甲卡西酮(MCAT)类似物的滥用问题日益受到关注。本研究扩展了最初的定量构效关系(QSAR)研究,该研究表明了MCAT的七种4-(或对位)取代类似物的重要空间因素。具体而言,4-位取代基的空间特征(塔夫脱空间参数ES)影响了通过多巴胺和5-羟色胺转运体(DAT和SERT)诱导单胺释放的体外效力以及对颅内自身刺激(ICSS)的体内调节。在此,我们评估了4-位取代基的其他空间性质的影响。
评估了更明确关注MCAT 4-位取代基的体积、宽度和长度的确定空间参数。此外,基于结晶的果蝇DAT构建了人DAT和人SERT的同源模型并进行了对接研究,随后对对接结果进行了亲水性相互作用(HINT)分析。
七种MCAT类似物对DAT的效力与其4-位取代基的体积和最大宽度呈负相关,而对SERT的效力则随着取代基体积和长度的增加而增加。SERT/DAT选择性以及ICSS程序中与滥用相关的药物效应也与相同参数相关。对接结果提供了一种可视化这些发现的方法。
这些结果表明,MCAT类似物4-位取代基的空间因素是其作用和选择性的关键决定因素,并且这些取代基的疏水性与其对SERT的效力有关。