A Ubiquitous Splice Variant and a Common Polymorphism Affect Heterologous Expression of Recombinant Human SCN5A Heart Sodium Channels

doi:10.1161/01.RES.0000096652.14509.96

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Circulation Research. 2003;93:821-828
Published online before print September 18, 2003, doi: 10.1161/01.RES.0000096652.14509.96

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A Ubiquitous Splice Variant and a Common Polymorphism Affect Heterologous Expression of Recombinant Human SCN5A Heart Sodium Channels

Jonathan C. Makielski^*, Bin Ye^*, Carmen R. Valdivia, Matthew D. Pagel, Jielin Pu, David J. Tester, Michael J. Ackerman

From the Departments of Medicine and Physiology (J.C.M., B.Y., C.R.V., M.D.P., J.P.), University of Wisconsin, Madison, Wis; and the Departments of Internal Medicine, Pediatrics, and Molecular Pharmacology (D.J.T., M.J.A.), Mayo Clinic, Rochester, Minn.

Correspondence to Jonathan C. Makielski, MD, Department of Medicine, University of Wisconsin, 600 Highland Ave H6/349, Madison, WI 53792. E-mail jcm{at}medicine.wisc.edu

Amino acid sequence variations in SCN5A are known to affectfunction of wild-type channels and also those with coexistingmutations; therefore, it is important to know the exact sequenceand function of channels most commonly present in human myocardium.SCN5A was analyzed in control panels of human alleles, demonstratingthat the existing clones (hH1, hH1a, hH1b) each contained arare variant and thus none represented the common sequence.Confirming prior work, the H558R polymorphism was present in ${approx}$ 30% of subjects. Quantitative mRNA analysis from human heartsshowed that a shorter 2015 amino acid splice variant lackingglutamine at position 1077 (Q1077del) made up 65% of the transcriptin every heart examined. Age, sex, race, or structural heartdisease did not affect this proportion of Q1077del. Estimatedpopulation frequencies for the four common variants were 25%SCN5A, 10% [H558R], 45% [Q1077del], and 20% [H558R;Q1077del],where the reference sequence SCN5A is GenBank AC137587. Whenexpressed in HEK-293 cells, these common variants had a morepositive mid-point of the voltage dependence of inactivationthan the standard clone hH1. Also, channels containing Q1077expressed smaller currents. When H558R was present with Q1077([H558R]), current expression was profoundly reduced despitenormal trafficking to the cell surface. Thus, four variant sequencesfor SCN5A are commonly present in human myocardium and theyexhibit functional differences among themselves and with theprevious standard clone. These results have implications forthe choice of background sequence for experiments with heterologousexpression systems, and possibly implications for electrophysiologicalfunction in vivo.

Key Words: ion channels • gene expression • splice variants • sodium current • trafficking

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