Replacement by Homologous Recombination of the minK Gene With lacZ Reveals Restriction of minK Expression to the Mouse Cardiac Conduction System

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Circulation Research. 1999;84:146-152

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(Circulation Research. 1999;84:146-152.)
© 1999 American Heart Association, Inc.

Original Contribution

Replacement by Homologous Recombination of the minK Gene With lacZ Reveals Restriction of minK Expression to the Mouse Cardiac Conduction System

Sabina Kupershmidt, Tao Yang, Mark E. Anderson, Andy Wessels, Kevin D. Niswender, Mark A. Magnuson, Dan M. Roden

From the Departments of Medicine (S.K., T.Y., M.E.A., M.A.M., D.M.R.), Pharmacology (S.K., T.Y., M.E.A., D.M.R.), and Molecular Physiology & Biophysics (K.D.N., M.A.M.), Vanderbilt University School of Medicine, Nashville, Tenn, and Department of Cell Biology and Anatomy (A.W.), Medical University of South Carolina, SC.

Correspondence to Dan M. Roden, MD, Division of Clinical Pharmacology, Vanderbilt University School of Medicine, Medical Research Building I, 532C, Nashville, TN 37232-6602. E-mail dan.roden{at}mcmail.vanderbilt.edu

Abstract—The minK gene encodes a 129-amino acid peptidethe expression of which modulates function of cardiac delayedrectifier currents (I_Kr and I_Ks), and mutations in minK arenow recognized as one cause of the congenital long-QT syndrome.We have generated minK-deficient mice in which the bacteriallacZ gene has been substituted for the minK coding region suchthat ß-galactosidase expression is controlled by endogenousminK regulatory elements. In cardiac myocytes isolated fromwild-type neonatal mice, I_Ks is rarely recorded, while I_Kr iscommon. In minK (–/–) myocytes, I_Ks is absent and I_Kris significantly reduced and its deactivation slowed; theseresults further support a role for minK in modulating both I_Ks andI_Kr. Despite these changes, ECGs in (+/+) and (–/–)animals are no different at adult and at neonatal stages. ECGresponses to isoproterenol are also similar in the 2 groups.ß-Galactosidase staining in postnatal minK (–/–)hearts is highly restricted, to the sinus-node region, caudal atrialseptum, and proximal conducting system. Moreover, as early as embryonalday 11, segmentally restricted ß-galactosidase expression isobserved in the portions of the sinoatrial and atrioventricularjunctions that are thought to give rise to the conducting system,thereby implicating minK expression as an early event in conductionsystem development. More generally, the restricted nature ofminK expression in the mouse heart suggests species-specificroles of this gene product in mediating the electrophysiologicalproperties of the heart.

Key Words: K⁺ current • conducting system • development • delayed rectifier

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				H.-S. Cho, M. Takano, and A. Noma The electrophysiological properties of spontaneously beating pacemaker cells isolated from mouse sinoatrial node J. Physiol., July 1, 2003; 550(1): 169 - 180. [Abstract] [Full Text] [PDF]

				M. Arad, I. P. Moskowitz, V. V. Patel, F. Ahmad, A. R. Perez-Atayde, D. B. Sawyer, M. Walter, G. H. Li, P. G. Burgon, C. T. Maguire, et al. Transgenic Mice Overexpressing Mutant PRKAG2 Define the Cause of Wolff-Parkinson-White Syndrome in Glycogen Storage Cardiomyopathy Circulation, June 10, 2003; 107(22): 2850 - 2856. [Abstract] [Full Text] [PDF]

				C. Altomare, B. Terragni, C. Brioschi, R. Milanesi, C. Pagliuca, C. Viscomi, A. Moroni, M. Baruscotti, and D. DiFrancesco Heteromeric HCN1-HCN4 channels: a comparison with native pacemaker channels from the rabbit sinoatrial node J. Physiol., June 1, 2003; 549(2): 347 - 359. [Abstract] [Full Text] [PDF]

				C. I. Berul Electrophysiological phenotyping in genetically engineered mice Physiol Genomics, May 13, 2003; 13(3): 207 - 216. [Abstract] [Full Text] [PDF]

				C. R. Bezzina, M. B. Rook, W.A. Groenewegen, L. J. Herfst, A. C. van der Wal, J. Lam, H. J. Jongsma, A. A.M. Wilde, and M. M.A.M. Mannens Compound Heterozygosity for Mutations (W156X and R225W) in SCN5A Associated With Severe Cardiac Conduction Disturbances and Degenerative Changes in the Conduction System Circ. Res., February 7, 2003; 92(2): 159 - 168. [Abstract] [Full Text] [PDF]

				S. L. Bouter, S. Demolombe, A. Chambellan, C. Bellocq, F. Aimond, G. Toumaniantz, G. Lande, S. Siavoshian, I. Baro, A. L. Pond, et al. Microarray Analysis Reveals Complex Remodeling of Cardiac Ion Channel Expression With Altered Thyroid Status: Relation to Cellular and Integrated Electrophysiology Circ. Res., February 7, 2003; 92(2): 234 - 242. [Abstract] [Full Text] [PDF]

				J. Zhou, S. Kodirov, M. Murata, P. D. Buckett, J. M. Nerbonne, and G. Koren Regional upregulation of Kv2.1-encoded current, IK,slow2, in Kv1DN mice is abolished by crossbreeding with Kv2DN mice Am J Physiol Heart Circ Physiol, February 1, 2003; 284(2): H491 - H500. [Abstract] [Full Text] [PDF]

				S. Kupershmidt, I. C.-H. Yang, M. Sutherland, K.S. Wells, T. Yang, P. Yang, J. R. Balser, and D. M. Roden Cardiac-enriched LIM domain protein fhl2 is required to generate IKs in a heterologous system Cardiovasc Res, October 1, 2002; 56(1): 93 - 103. [Abstract] [Full Text] [PDF]

				S. Gray, M. W. Feinberg, S. Hull, C. T. Kuo, M. Watanabe, S. Sen-Banerjee, A. DePina, R. Haspel, and M. K. Jain The Kruppel-like Factor KLF15 Regulates the Insulin-sensitive Glucose Transporter GLUT4 J. Biol. Chem., September 6, 2002; 277(37): 34322 - 34328. [Abstract] [Full Text] [PDF]

				S. Danik, C. Cabo, C. Chiello, S. Kang, A. L. Wit, and J. Coromilas Correlation of repolarization of ventricular monophasic action potential with ECG in the murine heart Am J Physiol Heart Circ Physiol, July 1, 2002; 283(1): H372 - H381. [Abstract] [Full Text] [PDF]