Moravčíková Lucia, Královičová Jana, Lacinová Ľubica
Institute of Molecular Physiology and Genetics, Center of Biosciences, Slovak Academy of Sciences, Bratislava, Slovakia.
Gen Physiol Biophys. 2018 May;37(3):299-307. doi: 10.4149/gpb_2018009. Epub 2018 Mar 28.
SNC80 was designed as a highly selective nonpeptide delta opioid receptor (DOR) agonist. Antidepressant-like and antinociceptive effects of this compound were demonstrated in animal models. Naltrindole was synthetized as a highly selective DOR antagonist. Its antitussive and antinociceptive effects were reported. Observed effects of SNC80 and naltrindole may be accompanied by changes in neuronal excitability including modulation of voltage-dependent ion channels. We investigated possible DOR-independent modulation of neuronal sodium, calcium and potassium currents by both agents. NG108-15 cells lacking expression of DOR protein were used as model of neuronal cells. Cells were differentiated into neuronal phenotype by exposure to dibutyryl cyclic-AMP (dbcAMP). Lack of DORs expression in NG108-15 cells and the presence of DOR expression in brain and neuronal cultures were demonstrated by Western blot analysis. Both SNC80 and naltrindole exerted low to moderate modulatory effects on voltage-dependent ion currents. SNC80 weakly inhibited sodium current, potentiated calcium current, and did not act on potassium channels. Naltrindole inhibited sodium current, did not act on calcium current and inhibited potassium current at a high concentration. Such effects should be taken into account when these compounds are used for investigation of DOR-mediated signaling pathways.
SNC80被设计为一种高选择性非肽类δ阿片受体(DOR)激动剂。该化合物的抗抑郁样和抗伤害感受作用已在动物模型中得到证实。纳曲吲哚被合成作为一种高选择性DOR拮抗剂。其镇咳和抗伤害感受作用已有报道。SNC80和纳曲吲哚的观察到的作用可能伴随着神经元兴奋性的变化,包括对电压依赖性离子通道的调节。我们研究了这两种药物对神经元钠、钙和钾电流可能存在的不依赖DOR的调节作用。缺乏DOR蛋白表达的NG108-15细胞被用作神经元细胞模型。通过暴露于二丁酰环磷腺苷(dbcAMP)将细胞分化为神经元表型。通过蛋白质印迹分析证实了NG108-15细胞中缺乏DOR表达以及脑和神经元培养物中存在DOR表达。SNC80和纳曲吲哚对电压依赖性离子电流均产生低至中等程度的调节作用。SNC80微弱抑制钠电流,增强钙电流,并且对钾通道无作用。纳曲吲哚抑制钠电流,对钙电流无作用,并且在高浓度时抑制钾电流。当这些化合物用于研究DOR介导的信号通路时,应考虑到这些作用。
