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  • Title: Differences in isoproterenol stimulation of Ca2+ current of rat ventricular myocytes in neonatal compared to adult.
    Author: Katsube Y, Yokoshiki H, Nguyen L, Sperelakis N.
    Journal: Eur J Pharmacol; 1996 Dec 19; 317(2-3):391-400. PubMed ID: 8997626.
    Abstract:
    The developmental changes in the isoproterenol stimulation of the L-type calcium current (ICa(L)) were studied in freshly isolated neonatal (3-5-day-old) and adult (2-3-month-old) rat ventricular myocytes using whole-cell voltage clamp (at room temperature). ICa(L) was measured as the peak inward current at a test potential of +10 mV (or +20 mV) by applying a 300 ms pulse from a holding potential of -40 mV. The pipette solution was Cs(+)-rich and Ca(2+)-free. The external solution was Na(+)-free and K(+)-free. Isoproterenol stimulated ICa(L) in a dose-dependent manner. The concentrations of isoproterenol for half-maximal effect were 6.8 nM in neonatal and 13.3 nM in adult. The maximal stimulation of ICa(L) was 147 +/- 14% in neonatal and 97 +/- 7% in adult. The steady-state inactivation curves were not affected by isoproterenol, whereas the steady-state activation curve was shifted to the left in both neonatal and adult. Forskolin (10 microM) increased ICa(L) by 105 +/- 10% in neonatal and 90 +/- 12% in adult. After stimulating ICa(L) by forskolin, the addition of isoproterenol produced a further increase of ICa(L) by 99 +/- 27% in neonatal, but only by 19 +/- 3% in adult. The presence of an inhibitor of cAMP-dependent protein kinase in the pipette did not affect this marked difference between neonatal (87 +/- 23%) and adult (11 +/- 8%). We conclude that, in rat ventricular myocytes, (1) stimulation of ICa(L) by the beta-adrenoceptor agonist, isoproterenol, is already fully developed in the neonatal stage and actually decreases during development; (2) there is evidence for a cAMP-independent stimulation of Ca2+ channels by isoproterenol, and this is greater in neonatal than in adult. We believe that the cAMP-independent pathway is the direct pathway mediated by Gs alpha protein.
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