T-type Ca2+ channels as therapeutic targets in the nervous system

Authors
Shin, Hee-SupCheong, Eun-JiChoi, SoonwookLee, JungryunNa, Heung Sik
Issue Date
2008-02
Publisher
ELSEVIER SCI LTD
Citation
CURRENT OPINION IN PHARMACOLOGY, v.8, no.1, pp.33 - 41
Abstract
Low-voltage-activated calcium channels, also known as T-type calcium channels, are widely expressed in various types of neurons. In contrast to high-voltage-activated calcium channels which can be activated by a strong depolarization of membrane potential, T-type channels can be activated by a weak depolarization near the resting membrane potential once deinactivated by hyperpolarization, and therefore can regulate the excitability and electroresponsiveness of neurons under physiological conditions near resting states. Recently, the molecular diversity and functional multiplicity of T-type channels have been demonstrated through molecular genetic studies coupled with physiological and behavioral analysis. Understanding the functional consequences of modulation of each subtype of these channels in vivo could point to the right direction for developing therapeutic tools for relevant diseases.
Keywords
CHILDHOOD ABSENCE EPILEPSY; LESS-THAN-1 HZ OSCILLATION; ROOT GANGLION NEURONS; CALCIUM-CHANNELS; THALAMIC NEURONS; MICE LACKING; SENSORY NEURONS; DORSAL-ROOT; RELAY NEURONS; SEIZURES; CHILDHOOD ABSENCE EPILEPSY; LESS-THAN-1 HZ OSCILLATION; ROOT GANGLION NEURONS; CALCIUM-CHANNELS; THALAMIC NEURONS; MICE LACKING; SENSORY NEURONS; DORSAL-ROOT; RELAY NEURONS; SEIZURES
ISSN
1471-4892
URI
https://pubs.kist.re.kr/handle/201004/133794
DOI
10.1016/j.coph.2007.12.003
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KIST Article > 2008
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