HCN信道
超极化(物理学)
离子通道
神经科学
化学
基因亚型
环核苷酸
环核苷酸门控离子通道
生物物理学
生物
细胞生物学
核苷酸
生物化学
受体
基因
立体化学
核磁共振波谱
作者
Laura Sartiani,Guido Mannaioni,Alessio Masi,Maria Novella Romanelli,Elisabetta Cerbai
出处
期刊:Pharmacological Reviews
[American Society for Pharmacology & Experimental Therapeutics]
日期:2017-09-06
卷期号:69 (4): 354-395
被引量:111
标识
DOI:10.1124/pr.117.014035
摘要
Hyperpolarization-activated, cyclic nucleotide-gated (HCN) channels are important members of the voltage-gated pore loop channels family. They show unique features: they open at hyperpolarizing potential, carry a mixed Na/K current, and are regulated by cyclic nucleotides. Four different isoforms have been cloned (HCN1-4) that can assemble to form homo- or heterotetramers, characterized by different biophysical properties. These proteins are widely distributed throughout the body and involved in different physiologic processes, the most important being the generation of spontaneous electrical activity in the heart and the regulation of synaptic transmission in the brain. Their role in heart rate, neuronal pacemaking, dendritic integration, learning and memory, and visual and pain perceptions has been extensively studied; these channels have been found also in some peripheral tissues, where their functions still need to be fully elucidated. Genetic defects and altered expression of HCN channels are linked to several pathologies, which makes these proteins attractive targets for translational research; at the moment only one drug (ivabradine), which specifically blocks the hyperpolarization-activated current, is clinically available. This review discusses current knowledge about HCN channels, starting from their biophysical properties, origin, and developmental features, to (patho)physiologic role in different tissues and pharmacological modulation, ending with their present and future relevance as drug targets.
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