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(Circulation Research. 1997;81:526-532.)
© 1997 American Heart Association, Inc.

Articles

Alternatively Spliced IS6 Segments of the _1C Gene Determine the Tissue-Specific Dihydropyridine Sensitivity of Cardiac and Vascular Smooth Muscle L-Type Ca²⁺ Channels

Andrea Welling, Andreas Ludwig, Stephanie Zimmer, Norbert Klugbauer, Veit Flockerzi, , Franz Hofmann

From the Institut für Pharmakologie und Toxikologie der Technischen Universität München (Germany) (A.W., A.L., N.K., F.H.), and the Institut für Pharmakologie (S.Z., V.F.), Universität des Saarlandes, Homburg/Saar, Germany.

Correspondence to A. Ludwig, Institut für Pharmakologie und Toxikologie der Technischen Universität München, Biedersteiner Straße 29, 80802 München, Germany. E-mail ludwig{at}ipt.med.tu-muenchen.de

Abstract Dihydropyridines (DHPs) block the vascular smooth muscle L-type Ca²⁺ channel at lower concentrations than the cardiac Ca²⁺ channel, although their ₁ subunit, which binds the DHPs, is derived from the same gene. This _1C gene gives rise to several splice variants, among which the _1C-b variant is affected by lower concentrations of nisoldipine than the _1C-a variant. Functional expression of chimeras of _1C-a and _1C-b subunits demonstrated that the transmembrane segment IS6 is responsible for the different dihydropyridine sensitivity. Northern blot analysis showed that transcripts coding for the IS6 segment of the _1C-a subunit were expressed in heart but not in aorta, whereas the IS6 segment of the _1C-b subunit was expressed predominantly in vascular smooth muscle. In situ hybridization of rat heart sections confirmed this expression pattern of IS6 _1C-a and IS6 _1C-b in ventricular and smooth muscle myocytes, respectively. These results suggest that the different dihydropyridine sensitivities of cardiac and vascular L-type Ca²⁺ channels are caused at least partially by the tissue-specific expression of alternatively spliced IS6 segments of the _1C gene.

Key Words: Ca²⁺ antagonist • L-type Ca²⁺ channel • chimeric channel • heart muscle • vascular smooth muscle

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