MODULATION OF CARDIAC SODIUM-CHANNEL ISOFORM BY CYCLIC-AMP-DEPENDENT PROTEIN-KINASE DOES NOT DEPEND ON PHOSPHORYLATION OF SERINE-1504 IN THE CYTOSOLIC LOOP INTERCONNECTING TRANSMEMBRANE DOMAIN-III AND DOMAIN-IV
B. Frohnwieser et al., MODULATION OF CARDIAC SODIUM-CHANNEL ISOFORM BY CYCLIC-AMP-DEPENDENT PROTEIN-KINASE DOES NOT DEPEND ON PHOSPHORYLATION OF SERINE-1504 IN THE CYTOSOLIC LOOP INTERCONNECTING TRANSMEMBRANE DOMAIN-III AND DOMAIN-IV, Pflugers Archiv, 430(5), 1995, pp. 751-753
Both the neuronal IIA as well as the cardiac SkM2 isoform of the pore
forming alpha-subunit of voltage dependent sodium channels are modulat
ed by Protein Kinase A. While alpha(IIA) becomes attenuated upon PKA s
timulation, alpha(SkM2) becomes upregulated. PKC dependent phosphoryla
tion of a serine, located in the highly conserved cytoplasmatic region
between the third and the fourth transmembraneous domain has been fou
nd to be a prerequisite for PKA modulation of the alpha(IIA) isoform.
We used site-directed mutagenesis, expression in Xenopus laevis oocyte
s and the two-electrode voltage clamp technique to test, whether phosp
horylation of the corresponding serine in alpha(SkM2) is required for
the PKA modulation of also the cardiac isoform. The results clearly in
dicate that serine 1504 does not play a significant role in the PKA mo
dulation of the cardiac sodium channel isoform, further underlining th
e differential modulation of the two isoforms by identical signal tran
sduction cascades.