Oxostephanine, Thalmiculine, and Thaliphyline—Three Isoquinoleine Alkaloids That Inhibit L-Type Voltage-Gated Ca2+ Channels

Jacinthe Frangieh, Claire Legendre, D. Bréard, P. Richomme, D. Henrion, Z. Fajloun, C. Mattei, A. Le Ray, C. Legros
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Abstract

The isoquinoline alkaloids (IAs) represent a large and diverse subfamily of phytochemicals in terms of structures and pharmacological activities, including ion channel inhibition. Several IAs, such as liriodenine (an oxoaporphine) and curine (a bisbenzylisoquinoline (BBIQ), inhibit the L-type voltage-gated Ca2+ channels (LTCC). In this study, we aimed to search for new blockers of LTCC, which are therapeutic targets in neurological and cardiovascular diseases. We set up a screening assay using the rat pituitary GH3b6 cell line, which expresses two LTCC isoforms, Cav1.2 and Cav1.3. Both LTCC subtypes can be indirectly activated by KCl concentration elevation or directly by the dihydropyridine (DHP), BAY K8644, leading to an increase in the intracellular Ca2+ concentration ([Ca2+]i). These Ca2+ responses were completely blocked by the selective LTCC DHP inhibitor, nifedipine. Thereby, 16 selected IAs were tested for their ability to inhibit KCl and BAY K8644-induced Ca2+ responses. We then identified three new potent LTCC blockers, namely, oxostephanine, thaliphyline, and thalmiculine. They inhibited LTCC with IC50 values in the micromolar range through interaction to a binding site different to that of dihydropyridines. The two subfamilies of IAs, oxoaporphine with oxostephanine, and BBIQs with both thalyphilline and thalmiculine, constitute interesting pharmacophores for the development of future therapeutic leads for neurological and cardiovascular diseases.
氧化stephine, Thalmiculine和thalaliphyline - three异喹啉生物碱抑制l型电压门控Ca2+通道
异喹啉生物碱(IAs)在结构和药理活性方面代表了一个庞大而多样的植物化学亚家族,包括离子通道抑制。liriodenine(一种oxoaporphine)和curine(一种bisbenzylisoquinoline (BBIQ))等几种IAs可抑制l型电压门控Ca2+通道(LTCC)。在这项研究中,我们旨在寻找新的LTCC阻滞剂,作为神经和心血管疾病的治疗靶点。我们使用大鼠垂体GH3b6细胞系建立了筛选实验,该细胞系表达两种LTCC亚型Cav1.2和Cav1.3。两种LTCC亚型均可被KCl浓度升高间接激活或直接被二氢吡啶(DHP) BAY K8644激活,导致细胞内Ca2+浓度升高([Ca2+]i)。这些Ca2+反应被选择性LTCC DHP抑制剂硝苯地平完全阻断。因此,我们测试了16个选定的IAs对KCl和BAY k8644诱导的Ca2+反应的抑制能力。然后,我们确定了三种新的有效的LTCC阻滞剂,即氧stephine, thaliphyline和thalmiculine。它们通过与不同于二氢吡啶的结合位点相互作用抑制LTCC, IC50值在微摩尔范围内。IAs的两个亚家族,oxoaporphine与oxostephine,以及bbiq与thalyphiline和thalmiculine,构成了未来神经和心血管疾病治疗线索开发的有趣药效团。
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