PMID: 9664036Jul 17, 1998Paper

Antisense oligonucleotides against 'cardiac' and 'skeletal' DHP-receptors reveal a dual role for the 'skeletal' isoform in EC coupling of skeletal muscle cells in primary culture

Journal of Cell Science
L BulteauC Cognard

Abstract

Two dihydropyridine receptor mRNA isoforms (cardiac and skeletal) are expressed in rat skeletal muscle cells in primary culture. The progressive changes in excitation-contraction coupling mode from dual mode ('skeletal' and 'cardiac') to predominant 'skeletal' one during in vitro myogenesis are thought to be linked to the developmental changes in the relative expression of the two types of molecular entity previously observed in this preparation. In order to test this hypothesis, myotube cultures (5- to 7-day-old) were treated with antisense phosphorothioated oligodeoxynucleotides against cardiac or skeletal alpha1 subunit of L-type calcium channel. The oligodeoxynucleotide uptake by cells was checked by means of imaging of fluorescent oligodeoxynucleotide derivatives within the cells. Optimum concentration used (10 microM in the extracellular medium) and incubation time (70 hours) were empirically determined. Antisense directed against the cardiac type led to a 54% decrease in the averaged L-type calcium current peak density at -10 mV. The same type of experiment was performed with antisense against the skeletal isoform and led to a same order of inhibition (46%). This result clearly shows that the two isoforms can work as a c...Continue Reading

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