Inhibitory Mechanism of the Isoflavone Derivative Genistein in the Human CaV3.3 Channel

染料木素 钙通道 生物物理学 门控 离子通道 酪氨酸激酶 化学 电压依赖性钙通道 药理学 生物 神经科学 细胞生物学 生物化学 信号转导 受体 内分泌学 有机化学
作者
Maricruz Rangel‐Galván,Azahel Rangel,C. Romero-Méndez,Eliud Morales Dávila,María Eugenia Castro,Norma A. Caballero,F.J. Meléndez Bustamante,Brenda L. Sánchez-Gaytán,Ulises Meza,Jose Manuel Perez‐Aguilar
出处
期刊:ACS Chemical Neuroscience [American Chemical Society]
卷期号:12 (4): 651-659 被引量:15
标识
DOI:10.1021/acschemneuro.0c00684
摘要

Regulation of cellular excitability and oscillatory behavior of resting membrane potential in nerve cells are largely mediated by the low-voltage activated T-type calcium channels. This calcium channel family is constituted by three isoforms, namely, CaV3.1, CaV3.2, and CaV3.3, that are largely distributed in the nervous system and other parts of the body. Dysfunction of T-type calcium channels is associated with a wide range of pathophysiologies including epilepsy, neuropathic pain, cardiac problems, and major depressive disorders. Due to their pharmacological relevance, finding molecular agents able to modulate the channel's function may provide therapeutic means to ameliorate their related disorders. Here we used electrophysiological experiments to show that genistein, a canonical tyrosine kinase inhibitor, reduces the activity of the human CaV3.3 channel in a concentration-dependent manner. The inhibitory effect of genistein is independent of tyrosine kinase modulation and does not affect the voltage-dependent gating of the channel. Subsequently, we used computational methods to identify plausible molecular poses for the interaction of genistein and the CaV3.3 channel. Starting from different molecular poses, we carried out all-atom molecular dynamics (MD) simulations to identify the interacting determinants for the CaV3.3/genistein complex formation. Our extensive (microsecond-length) simulations suggest specific binding interactions that seem to stabilize the protein/inhibitor complex. Furthermore, our results from the unbiased MD simulations are in good agreement with the recently solved cryoelectron microscopy structure of the CaV3.1/Z944 complex in terms of both the location of the ligand binding site and the role of several equivalent amino acid residues. Proposed interacting complex loci were subsequently tested and corroborated by electrophysiological experiments using another naturally occurring isoflavone derivative, daidzein. Thus, by using a combination of in vitro and in silico techniques, we have identified interacting determinants relevant to the CaV3.3/genistein complex formation and propose that genistein directly blocks the function of the human CaV3.3 channel as a result of such interaction. Specifically, we proposed that a combination of polar interactions involving the three hydroxyl groups of genistein and an aromatic interaction with the fused rings are the main binding interactions in the complex formation. Our results pave the way for the rational development of improved and novel low-voltage activated T-type calcium channel inhibitors.
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