Muscle channelopathies and critical points in functional and genetic studies
Open Access
- 1 August 2005
- journal article
- review article
- Published by American Society for Clinical Investigation in Journal of Clinical Investigation
- Vol. 115 (8) , 2000-2009
- https://doi.org/10.1172/jci25525
Abstract
Muscle channelopathies are caused by mutations in ion channel genes, by antibodies directed against ion channel proteins, or by changes of cell homeostasis leading to aberrant splicing of ion channel RNA or to disturbances of modification and localization of channel proteins. As ion channels constitute one of the only protein families that allow functional examination on the molecular level, expression studies of putative mutations have become standard in confirming that the mutations cause disease. Functional changes may not necessarily prove disease causality of a putative mutation but could be brought about by a polymorphism instead. These problems are addressed, and a more critical evaluation of the underlying genetic data is proposed.Keywords
This publication has 105 references indexed in Scilit:
- Functional analysis of the R1086H malignant hyperthermia mutation in the DHPR reveals an unexpected influence of the III-IV loop on skeletal muscle EC couplingAmerican Journal of Physiology-Cell Physiology, 2004
- Mechanisms of cold sensitivity of paramyotonia congenita mutation R1448H and overlap syndrome mutation M1360VThe Journal of Physiology, 2003
- Secretion and cell volume regulation by salivary acinar cells from mice lacking expression of the Clcn3 Cl− channel geneThe Journal of Physiology, 2002
- A sodium channel mutation causing epilepsy in man exhibits subtle defects in fast inactivation and activation in vitroThe Journal of Physiology, 2000
- Three New Familial Hemiplegic Migraine Mutants Affect P/Q-type Ca2+ Channel KineticsPublished by Elsevier ,2000
- Calcium currents and transients of native and heterologously expressed mutant skeletal muscle DHP receptor α1 subunits (R528H)FEBS Letters, 1998
- Electrophysiological properties of the hypokalaemic periodic paralysis mutation (R528H) of the skeletal muscle α1S subunit as expressed in mouse L cellsFEBS Letters, 1996
- A calcium channel mutation causing hypokalemic periodic paralysisHuman Molecular Genetics, 1994
- Sodium channel mutations in paramyotonia congenita uncouple inactivation from activationNeuron, 1994
- Adult muscle sodium channel α-subunit is a gene candidate for malignant hyperthermia susceptibilityGenomics, 1992