The regulation of L-type Ca2+ currents in cardiac myocytes of hibernating animals.

The action of isoproterenol and BAY K 8644 on voltage-dependent Ca2+ currents in isolated ground squirrel cardiac myocytes was studied in two (active and hibernating) states of the animal. In cardiac myocytes of active animals the effect of both drugs was shown to depend on the holding potential. At Vh of about -50 mV both isoproterenol and BAY K 8644 increased the Ca2+ current and their action was additive. At Vh of about -20 mV, both drugs inhibited the Ca2+ current. In cardiac myocytes from hibernating animals, isoproterenol increased the Ca2+ current at any holding potentials, while the effect of BAY K 8644 did not differ significantly from its effect on active animals. The combined action of the two drugs caused the inhibition of the Ca2+ current at high holding potentials. In terms of the two-site Ca2+ channel model, this means that one of the two pathways of channel phosphorylation is blocked in hibernating animal cardiac cells, and BAY K 8644 restores this pathway.