Abstract
Background & Objective: The large conductance, calcium- and voltage-activated potassium channels (BK) are widely distributed channel proteins which exist in virtually every cell type of mammals and function to influence membrane excitability and Ca2+ signaling. BK channels can be activated by the increase of the intracellular Ca2+ concentration, a consequence of neuronal excitation, and then terminate the action potential with the outward K+ flux. Moreover, after-hyperpolarization induced by BK channels closes Cav channels and thus precludes excessive Ca2+ influx. Considering this negative feedback effect, BK channel seemly acts to decrease membrane excitability in order to prevent hyperexcitation which is a typical characteristic of epilepsy. Therefore, one may reasonably suppose that membrane excitability would increase when the BK channel activity decreases. However, the membrane excitability displays elevation when the function of BK channel is under either upregulated or down-regulated status. Factors altering the activity of BK channels, such as gene mutations, polymorphism, channel openers or blockers that lead to loss- or gain-of-function, have all been linked to epilepsy onset.
Conclusion: The aim of this review is to summarize existing knowledge and recent findings on the molecular properties, signaling complex and channel dysfunction of the BK channels with a particular attention to the possible relevance to the pathophysiology of epilepsy.
Keywords: Potassium channel, BK channel, epilepsy, large conductance, calcium, voltage-activated.
CNS & Neurological Disorders - Drug Targets
Title:The Large Conductance Calcium- and Voltage-activated Potassium Channel (BK) and Epilepsy
Volume: 17 Issue: 4
Author(s): Kai Zang, Yuwen Zhang, Jie Hu and Yun Wang*
Affiliation:
- Department of Neurology, Institutes of Brain Science, State Key Laboratory for Medical Neurobiology, Zhongshan Hospital, Fudan University, Shanghai 200032,China
Keywords: Potassium channel, BK channel, epilepsy, large conductance, calcium, voltage-activated.
Abstract: Background & Objective: The large conductance, calcium- and voltage-activated potassium channels (BK) are widely distributed channel proteins which exist in virtually every cell type of mammals and function to influence membrane excitability and Ca2+ signaling. BK channels can be activated by the increase of the intracellular Ca2+ concentration, a consequence of neuronal excitation, and then terminate the action potential with the outward K+ flux. Moreover, after-hyperpolarization induced by BK channels closes Cav channels and thus precludes excessive Ca2+ influx. Considering this negative feedback effect, BK channel seemly acts to decrease membrane excitability in order to prevent hyperexcitation which is a typical characteristic of epilepsy. Therefore, one may reasonably suppose that membrane excitability would increase when the BK channel activity decreases. However, the membrane excitability displays elevation when the function of BK channel is under either upregulated or down-regulated status. Factors altering the activity of BK channels, such as gene mutations, polymorphism, channel openers or blockers that lead to loss- or gain-of-function, have all been linked to epilepsy onset.
Conclusion: The aim of this review is to summarize existing knowledge and recent findings on the molecular properties, signaling complex and channel dysfunction of the BK channels with a particular attention to the possible relevance to the pathophysiology of epilepsy.
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Cite this article as:
Zang Kai , Zhang Yuwen , Hu Jie and Wang Yun *, The Large Conductance Calcium- and Voltage-activated Potassium Channel (BK) and Epilepsy, CNS & Neurological Disorders - Drug Targets 2018; 17 (4) . https://dx.doi.org/10.2174/1871527317666180404104055
DOI https://dx.doi.org/10.2174/1871527317666180404104055 |
Print ISSN 1871-5273 |
Publisher Name Bentham Science Publisher |
Online ISSN 1996-3181 |
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