Cellular and molecular action of the putative GABA-mimetic, gabapentin

被引:0
|
作者
Y. P. Maneuf
M. I. Gonzalez
K. S. Sutton
F.-Z. Chung
R. D. Pinnock
K. Lee
机构
[1] Cambridge Biotechnology Ltd,
[2] PO Box 230,undefined
[3] Cambridge CB2 1XJ (United Kingdom),undefined
[4] Fax + 44 01223 334008,undefined
[5] e-mail: kevin.lee@camb-biotech.com ,undefined
[6] GlaxoSmithKline,undefined
[7] New Frontiers Science Park,undefined
[8] Third Avenue,undefined
[9] Harlow,undefined
[10] Essex CM19 5AW (United Kingdom),undefined
[11] MerckSharpeDohme,undefined
[12] Neuroscience Research Centre,undefined
[13] Terlings Park,undefined
[14] Eastwick Road,undefined
[15] Harlow,undefined
[16] Essex CM20 2QR (United Kingdom),undefined
[17] Pfizer Global Research and Development,undefined
[18] Ann Arbor,undefined
[19] Michigan 48105 (USA),undefined
[20] Dept. of Biological Sciences,undefined
[21] University of Warwick,undefined
[22] Coventry CV4 7AL (United Kingdom),undefined
来源
Cellular and Molecular Life Sciences CMLS | 2003年 / 60卷
关键词
Key words. Gabapentin; voltage-gated calcium channel; epilepsy; pain; mitogen-activated protein kinase.;
D O I
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中图分类号
学科分类号
摘要
Gabapentin was originally designed as an anticonvulsant γ-aminobutyric acid (GABA) mimetic capable of crossing the blood-brain barrier. In the present review we show that although gabapentin is not a GABA mimetic, it has great utility as an add-on therapy for epilepsy and as a first-line treatment for neuropathic pain. We summarise the studies that have been performed which demonstrate that gabapentin appears to interact with a novel binding site expressed at high density within the central nervous system (CNS), namely the α2δ voltage-dependent calcium channel subunit. The review continues by examining the effects of gabapentin on calcium channel function and neurotransmitter release before, in the latter part of the review, summarising the more recently discovered actions of gabapentin in relation to intracellular signalling.
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页码:742 / 750
页数:8
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