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Background: Several missense mutations of CACNA1S and SCN4A genes occur in hypokalemic periodic paralysis. These mutations affect arginine residues in the S4 voltage sensors of the channel. Approximately 20% of cases remain genetically undefined. Methods: We undertook direct automated DNA sequencing of the S4 regions of CACNA1S and SCN4A in 83 cases of hypokalemic periodic paralysis. Results: We identified reported CACNA1S mutations in 64 cases. In the remaining 19 cases, mutations in SCN4A or other CACNA1S S4 segments were found in 10, including three novel changes and the first mutations in channel domains I (SCN4A) and III (CACNA1S). Conclusions: All mutations affected arginine residues, consistent with the gating pore cation leak hypothesis of hypokalemic periodic paralysis. Arginine mutations in S4 segments underlie 90% of hypokalemic periodic paralysis cases.

Voltage sensor charge loss accounts for most cases of hypokalemic periodic paralysis / E. Matthews, R. Labrum, M.G. Sweeney, R. Sud, A. Haworth, P.F. Chinnery, G. Meola, S. Schorge, D.M. Kullmann, M.B. Davis, M.G. Hanna. - In: NEUROLOGY. - ISSN 0028-3878. - 72:18(2009), pp. 1544-1547.

Voltage sensor charge loss accounts for most cases of hypokalemic periodic paralysis

G. Meola;
2009

Abstract

Background: Several missense mutations of CACNA1S and SCN4A genes occur in hypokalemic periodic paralysis. These mutations affect arginine residues in the S4 voltage sensors of the channel. Approximately 20% of cases remain genetically undefined. Methods: We undertook direct automated DNA sequencing of the S4 regions of CACNA1S and SCN4A in 83 cases of hypokalemic periodic paralysis. Results: We identified reported CACNA1S mutations in 64 cases. In the remaining 19 cases, mutations in SCN4A or other CACNA1S S4 segments were found in 10, including three novel changes and the first mutations in channel domains I (SCN4A) and III (CACNA1S). Conclusions: All mutations affected arginine residues, consistent with the gating pore cation leak hypothesis of hypokalemic periodic paralysis. Arginine mutations in S4 segments underlie 90% of hypokalemic periodic paralysis cases.
English
Settore MED/26 - Neurologia
Articolo
Sì, ma tipo non specificato
2009
NEUROLOGY
Lippincott
72
18
1544
1547
Periodico con rilevanza internazionale
WOS:000265782600003
2-s2.0-67649397890
19118277
info:eu-repo/semantics/article
Voltage sensor charge loss accounts for most cases of hypokalemic periodic paralysis / E. Matthews, R. Labrum, M.G. Sweeney, R. Sud, A. Haworth, P.F. Chinnery, G. Meola, S. Schorge, D.M. Kullmann, M.B. Davis, M.G. Hanna. - In: NEUROLOGY. - ISSN 0028-3878. - 72:18(2009), pp. 1544-1547.
none
Prodotti della ricerca::01 - Articolo su periodico
11
262
Article (author)
si
E. Matthews, R. Labrum, M.G. Sweeney, R. Sud, A. Haworth, P.F. Chinnery, G. Meola, S. Schorge, D.M. Kullmann, M.B. Davis, M.G. Hanna
01 - Articolo su periodico
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/146445
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