PATHOMECHANISMS IN CHANNELOPATHIES OF SKELETAL MUSCLE AND BRAIN
- 21 July 2006
- journal article
- review article
- Published by Annual Reviews in Annual Review of Neuroscience
- Vol. 29 (1) , 387-415
- https://doi.org/10.1146/annurev.neuro.29.051605.112815
Abstract
Ion channelopathies are a diverse array of human disorders caused by mutations in ion channel genes. This review focuses on the pathogenic mechanisms of channelopathies affecting skeletal muscle and brain arising from mutations of voltage-gated ion channels and fast ligand-gated ion channels expressed at the surface membrane. Derangements in channel function alter the electrical excitability of the cell and thereby increase susceptibility to transient symptomatic attacks including myasthenia, periodic paralysis, myotonic stiffness, seizures, headache, dyskinesia, or episodic ataxia. Although these disorders are rare, they stand out as exemplary cases for which disease pathogenesis can be traced from a point mutation to altered protein function, to altered cellular activity, and to clinical phenotype. The study of these disorders has provided insights on channel structure-function relations, the physiological roles of ion channels, and rational approaches toward therapeutic intervention for many di...Keywords
This publication has 95 references indexed in Scilit:
- Muscle channelopathies and critical points in functional and genetic studiesJournal of Clinical Investigation, 2005
- Calcium-sensitive potassium channelopathy in human epilepsy and paroxysmal movement disorderNature Genetics, 2005
- A Novel Hyperekplexia-causing Mutation in the Pre-transmembrane Segment 1 of the Human Glycine Receptor α1 Subunit Reduces Membrane Expression and Impairs Gating by AgonistsPublished by Elsevier ,2004
- Sleuthing molecular targets for neurological diseases at the neuromuscular junctionNature Reviews Neuroscience, 2003
- De Novo Mutations in the Sodium-Channel Gene SCN1A Cause Severe Myoclonic Epilepsy of InfancyAmerican Journal of Human Genetics, 2001
- Calcium currents and transients of native and heterologously expressed mutant skeletal muscle DHP receptor α1 subunits (R528H)FEBS Letters, 1998
- Autosomal dominant cerebellar ataxia (SCA6) associated with small polyglutamine expansions in the α1A-voltage-dependent calcium channelNature Genetics, 1997
- An aspartic acid residue important for voltage-dependent gating of human muscle chloride channelsNeuron, 1995
- A calcium channel mutation causing hypokalemic periodic paralysisHuman Molecular Genetics, 1994
- Benign familial neonatal convulsions linked to genetic markers on chromosome 20Nature, 1989