Sheffield Hallam University, Biomedical Research Centre, Faculty of Health and Wellbeing, City Campus, Howard Street, Sheffield S1 1WB, UK.
Bioorg Med Chem. 2013 Jul 15;21(14):4186-91. doi: 10.1016/j.bmc.2013.05.003. Epub 2013 May 14.
Large conductance calcium activated potassium channels (BKCa) are fundamental in the control of cellular excitability. Thus, compounds that activate BKCa channels could provide potential therapies in the treatment of pathologies of the cardiovascular and central nervous system. A series of novel N-arylbenzamide compounds, and the reference compound NS1619, were evaluated for BKCa channel opener properties in Human Embryonic Kidney (HEK293) cells expressing the human BKCa channel α-subunit alone or α+β1-subunit complex. Channel activity was determined using a non-radioactive Rb(+) efflux assay to construct concentration effect curves for each compound. All N-arylbenzamide compounds and NS1619 evoked significant (p <0.05) concentration related increases in Rb(+) efflux both in cells expressing α-subunit alone or α+β1-subunits. Co-expression of the β1-subunit modified the Rb(+) efflux responses, relative to that obtained in cells expressing the α-subunit alone, for most of the N-arylbenzamide compounds, in contrast to NS1619. The EC40 values of NS1619, BKMe1 and BKOEt1 were not significantly affected by the co-expression of the BKCa channel α+β1-subunits. In contrast, 5 other N-arylbenzamides (BKPr2, BKPr3, BKPr4, BKH1 and BKVV) showed a significant (p <0.05) 2- to 10-fold increase in EC40 values when tested on the BKCa α+β1-subunit expressing cells compared to BKCa α-subunit expressing cells. Further, the Emax values for BKPr4, BKVV and BKH1 were lower in the BKCa channel α+β1-subunit expressing cells. In conclusion, the N-arylbenzamides studied, like NS1619, were able to activate BKCa channels formed of the α-subunit only. The co-expression of the β1-subunit, however, modified the ability of certain compounds to active the channel leading to differentiated pharmacodynamic profiles.
大电导钙激活钾通道(BKCa)在控制细胞兴奋性方面起着重要作用。因此,激活 BKCa 通道的化合物可能为心血管和中枢神经系统疾病的治疗提供潜在的治疗方法。一系列新型 N-芳基苯甲酰胺化合物和参考化合物 NS1619 被评估为在单独表达人 BKCa 通道 α 亚基或 α+β1 亚基复合物的人胚肾(HEK293)细胞中作为 BKCa 通道开放剂的特性。使用非放射性 Rb(+)外排测定法来构建每个化合物的浓度效应曲线来确定通道活性。所有 N-芳基苯甲酰胺化合物和 NS1619 都引起了 Rb(+)外排的显著(p <0.05)浓度相关增加,无论是在单独表达 α 亚基的细胞中还是在表达 α+β1 亚基的细胞中。与单独表达 α 亚基的细胞相比,β1 亚基的共表达修饰了大多数 N-芳基苯甲酰胺化合物的 Rb(+)外排反应,而 NS1619 则不然。NS1619、BKMe1 和 BKOEt1 的 EC40 值不受 BKCa 通道 α+β1 亚基共表达的显著影响。相比之下,在测试 BKCaα+β1 亚基表达细胞时,5 种其他 N-芳基苯甲酰胺(BKPr2、BKPr3、BKPr4、BKH1 和 BKVV)的 EC40 值显示出 2-10 倍的显著(p <0.05)增加与仅表达 BKCa 通道 α 亚基的细胞相比。此外,在表达 BKCa 通道的 α+β1 亚基的细胞中,BKPr4、BKVV 和 BKH1 的 Emax 值较低。总之,所研究的 N-芳基苯甲酰胺类化合物,如 NS1619,能够激活仅由 α 亚基组成的 BKCa 通道。然而,β1 亚基的共表达修饰了某些化合物激活通道的能力,导致了不同的药效学特征。
