Literature DB >> 23427324

Bumetanide prevents transient decreases in muscle force in murine hypokalemic periodic paralysis.

Fenfen Wu1, Wentao Mi, Stephen C Cannon.   

Abstract

OBJECTIVE: To test the hypothesis that inhibition of the Na-K-2Cl transporter with bumetanide will reduce the susceptibility to decreases in muscle force in a mouse model of hypokalemic periodic paralysis (HypoPP).
METHODS: In vitro contraction tests were performed on soleus muscle isolated from mice with knock-in missense mutations that result in HypoPP (sodium channel NaV1.4-R669H) or hyperkalemic periodic paralysis (HyperPP; sodium channel NaV1.4-M1592V).
RESULTS: Bumetanide prevented the development of weakness in 2 mM K(+) and also restored force during an established attack of HypoPP. Stimulation of the Na-K-2Cl transporter via induction of hyperosmolality exacerbated the weakness seen in low K(+) and was also prevented by bumetanide. Bumetanide was more efficacious than acetazolamide for preventing weakness in low K(+) conditions. Decreases in force in HyperPP muscle exposed to 10 mM K(+) were not prevented by treatment with bumetanide.
CONCLUSIONS: The Na-K-2Cl inhibitor bumetanide was highly effective in preventing attacks of weakness in the NaV1.4-R669H mouse model of HypoPP and should be considered for management of patients with HypoPP due to sodium channel mutations. Dehydration may aggravate HypoPP by stimulating the Na-K-2Cl transporter.

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Year:  2013        PMID: 23427324      PMCID: PMC3662304          DOI: 10.1212/WNL.0b013e3182886a0e

Source DB:  PubMed          Journal:  Neurology        ISSN: 0028-3878            Impact factor:   9.910


  23 in total

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Review 2.  The primary periodic paralyses: diagnosis, pathogenesis and treatment.

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Journal:  Brain       Date:  2005-09-29       Impact factor: 13.501

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Authors:  Stanislav Sokolov; Todd Scheuer; William A Catterall
Journal:  Nature       Date:  2007-03-01       Impact factor: 49.962

4.  The influence of bumetanide on the membrane potential of mouse skeletal muscle cells in isotonic and hypertonic media.

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6.  A Na+ channel mutation linked to hypokalemic periodic paralysis exposes a proton-selective gating pore.

Authors:  Arie F Struyk; Stephen C Cannon
Journal:  J Gen Physiol       Date:  2007-07       Impact factor: 4.086

7.  A calcium channel mutation causing hypokalemic periodic paralysis.

Authors:  K Jurkat-Rott; F Lehmann-Horn; A Elbaz; R Heine; R G Gregg; K Hogan; P A Powers; P Lapie; J E Vale-Santos; J Weissenbach
Journal:  Hum Mol Genet       Date:  1994-08       Impact factor: 6.150

8.  Targeted mutation of mouse skeletal muscle sodium channel produces myotonia and potassium-sensitive weakness.

Authors:  Lawrence J Hayward; Joanna S Kim; Ming-Yang Lee; Hongru Zhou; Ji W Kim; Kumudini Misra; Mohammad Salajegheh; Fen-fen Wu; Chie Matsuda; Valerie Reid; Didier Cros; Eric P Hoffman; Jean-Marc Renaud; Stephen C Cannon; Robert H Brown
Journal:  J Clin Invest       Date:  2008-04       Impact factor: 14.808

9.  Paradoxical depolarization of BA2+- treated muscle exposed to low extracellular K+: insights into resting potential abnormalities in hypokalemic paralysis.

Authors:  Arie F Struyk; Stephen C Cannon
Journal:  Muscle Nerve       Date:  2008-03       Impact factor: 3.217

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

Authors:  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
Journal:  Neurology       Date:  2008-12-31       Impact factor: 9.910
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  14 in total

Review 1.  Sodium Channelopathies of Skeletal Muscle.

Authors:  Stephen C Cannon
Journal:  Handb Exp Pharmacol       Date:  2018

Review 2.  Channelopathies of skeletal muscle excitability.

Authors:  Stephen C Cannon
Journal:  Compr Physiol       Date:  2015-04       Impact factor: 9.090

Review 3.  Treatment Updates for Neuromuscular Channelopathies.

Authors:  Nantaporn Jitpimolmard; Emma Matthews; Doreen Fialho
Journal:  Curr Treat Options Neurol       Date:  2020-08-22       Impact factor: 3.598

4.  Elevation of extracellular osmolarity improves signs of myotonia congenita in vitro: a preclinical animal study.

Authors:  Kerstin Hoppe; Sunisa Chaiklieng; Frank Lehmann-Horn; Karin Jurkat-Rott; Scott Wearing; Werner Klingler
Journal:  J Physiol       Date:  2018-11-20       Impact factor: 5.182

5.  Beneficial effects of bumetanide in a CaV1.1-R528H mouse model of hypokalaemic periodic paralysis.

Authors:  Fenfen Wu; Wentao Mi; Stephen C Cannon
Journal:  Brain       Date:  2013-10-18       Impact factor: 13.501

Review 6.  Muscle channelopathies: the nondystrophic myotonias and periodic paralyses.

Authors:  Jeffrey M Statland; Richard J Barohn
Journal:  Continuum (Minneap Minn)       Date:  2013-12

7.  Targeted Therapies for Skeletal Muscle Ion Channelopathies: Systematic Review and Steps Towards Precision Medicine.

Authors:  Jean-François Desaphy; Concetta Altamura; Savine Vicart; Bertrand Fontaine
Journal:  J Neuromuscul Dis       Date:  2021

Review 8.  Review of the Diagnosis and Treatment of Periodic Paralysis.

Authors:  Jeffrey M Statland; Bertrand Fontaine; Michael G Hanna; Nicholas E Johnson; John T Kissel; Valeria A Sansone; Perry B Shieh; Rabi N Tawil; Jaya Trivedi; Stephen C Cannon; Robert C Griggs
Journal:  Muscle Nerve       Date:  2017-11-29       Impact factor: 3.217

9.  Recovery from acidosis is a robust trigger for loss of force in murine hypokalemic periodic paralysis.

Authors:  Wentao Mi; Fenfen Wu; Marbella Quinonez; Marino DiFranco; Stephen C Cannon
Journal:  J Gen Physiol       Date:  2019-02-07       Impact factor: 4.086

Review 10.  Genetic neurological channelopathies: molecular genetics and clinical phenotypes.

Authors:  J Spillane; D M Kullmann; M G Hanna
Journal:  J Neurol Neurosurg Psychiatry       Date:  2015-11-11       Impact factor: 10.154
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