Recept Channels 1994 Jan 01;24:339-50.

Beta-adrenergic modulation of currents produced by rat cardiac Na+ channels expressed in Xenopus laevis oocytes.

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In Xenopus oocytes coexpressing beta 2-adrenergic receptors and the rat cardiac alpha SkM2 Na+ channel, superfusion with 10 microM isoproterenol led to modest (approximately 30%) increases in peak Na+ inward current. Intracellular injection of cAMP and of protein kinase A (PKA) catalytic subunit reproduced this increase, showing that the second messenger pathway involves PKA dependent phosphorylation. Coexpression of the Na+ channel beta 1 subunit had no influence on the modulation. The modulation had little or no effect upon Na+ current waveforms, steady-state activation, steady-state activation, steady-state inactivation, or recovery from both fast and slow inactivation; but maximum Na+ conductance was increased. Mutation of the five major consensus PKA phosphorylation sites on alpha SkM2 did not abolish the observed effect. In parallel experiments, beta-adrenergic stimulation of the neuronal alpha IIA Na+ channel subunit led to an attenuation of Na+ current. It is concluded that (i) the alpha SkM2 subunit might be directly phosphorylated by PKA, but at serine/threonine residue(s) in a cryptic phosphorylation site(s); or that (ii) the modulation might also be mediated by phosphorylation of another, as yet unknown protein(s). The divergent modulation of neuronal and cardiac Na+ channel alpha-subunits suggests that differential physiological modulation by identical second messenger pathways is the evolutionary basis for the isoform diversity within this protein family.

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Genes referenced: camp