Alterations in dihydropyridine receptors in dystrophin-deficient cardiac muscle

doi:10.1152/ajpheart.00844.2005

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Am J Physiol Heart Circ Physiol 290: H2439-H2445, 2006. First published January 13, 2006; doi:10.1152/ajpheart.00844.2005
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Alterations in dihydropyridine receptors in dystrophin-deficient cardiac muscle

Peter J. Woolf,¹ Sai Lu,¹ Renee Cornford-Nairn,¹ Michael Watson,¹ Xiao-Hui Xiao,¹ Sean M. Holroyd,¹ Lindsay Brown,² and Andrew J. Hoey¹

¹Centre for Biomedical Research, Faculty of Sciences, University of Southern Queensland, Toowoomba; and ²Department of Physiology and Pharmacology, School of Biomedical Sciences, The University of Queensland, Queensland, Australia

Submitted 8 August 2005 ; accepted in final form 11 January 2006

The deficiency of dystrophin, a critical membrane stabilizingprotein, in the mdx mouse causes an elevation in intracellularcalcium in myocytes. One mechanism that could elicit increasesin intracellular calcium is enhanced influx via the L-type calciumchannels. This study investigated the effects of the dihydropyridinesBAY K 8644 and nifedipine and alterations in dihydropyridinereceptors in dystrophin-deficient mdx hearts. A lower forceof contraction and a reduced potency of extracellular calcium(P < 0.05) were evident in mdx left atria. The dihydropyridineagonist BAY K 8644 and antagonist nifedipine had 2.7- and 1.9-foldlower potencies in contracting left atria (P < 0.05). Thiscorresponded with a 2.0-fold reduction in dihydropyridine receptoraffinity evident from radioligand binding studies of mdx ventricularhomogenates (P < 0.05). Increased ventricular dihydropyridinereceptor protein was evident from both radioligand binding studiesand Western blot analysis and was accompanied by increased mRNAlevels (P < 0.05). Patch-clamp studies in isolated ventricularmyocytes showed no change in L-type calcium current densitybut revealed delayed channel inactivation (P < 0.05). Thisstudy indicates that a deficiency of dystrophin leads to changesin dihydropyridine receptors and L-type calcium channel propertiesthat may contribute to enhanced calcium influx. Increased influxis a potential mechanism for the calcium overload observed indystrophin-deficient cardiac muscle.

Duchenne muscular dystrophy; calcium channels; heart

Address for reprint requests and other correspondence: A. Hoey, Centre for Biomedical Research, Faculty of Sciences, Univ. of Southern Queensland, Toowoomba, 4350, Queensland, Australia (e-mail: hoey{at}usq.edu.au)