Cardiac inotropic effects of beta adrenergic agonists occur mainly through an increase in L-type (class C) calcium channel activity. This response has been attributed to phosphorylation of the L-type Ca channel, or a closely associated protein, by the cAMP-dependent protein kinase A (PKA). Among the three subunits forming the cardiac L-type Ca channel (alpha 1, beta and alpha 2-delta), biochemical studies have revealed that two subunits, alpha 1 and beta, are phosphorylated in vitro by protein kinase A, the alpha 1 subunit being the primary target. However, attempts to reconstitute the cAMP-dependent regulation of the expressed class C Ca channel, either in Xenopus oocytes or in cell lines, have provided contradictory results. We were unable to detect cAMP-dependent modulation of class C alpha 1 subunit Ca channels expressed in Xenopus oocytes, even when coinjected with auxiliary subunits beta and alpha 2-delta. Nevertheless, activity of Ca channels recorded from cardiac-mRNA injected oocytes was potentiated by injection of cAMP or PKA, even when expression of the beta subunit was suppressed using antisense oligonucleotide. Taken together, these results indicate that cAMP-dependent regulation does not exclusively involve the alpha 1 and the beta subunits of the Ca channel and suggest that unidentified protein(s), expressed in cardiac tissue, are most likely necessary.