The genetic abnormality in myotonic muscular dystrophy, multiple CTG repeat
s lie upstream of a gene that encodes a novel protein kinase, myotonic dyst
rophy protein kinase (DMPK). Phospholemman (PLM), a major membrane substrat
e for phosphorylation by protein kinases A and C, induces Cl currents (I-Cl
(PLM)) when expressed in Xenopus oocytes. To test the idea that PLM is a su
bstrate for DMPK, we measured in vitro phosphorylation of purified PLM by D
MPK. To assess the functional effects of PLM phosphorylation we compared I-
Cl(PLM) in Xenopus oocytes expressing PLM alone to currents in oocytes co-e
xpressing DMPK; and examined the effect of DMPK on oocyte membrane PLM expr
ession. We found that PLM is indeed a good substrate for DMPK in vitro. Co-
expression of DMPK with PLM in oocytes resulted in a reduction in ICl(PLM)
.This was most likely a specific effect of phosphorylation of PLM by DMPK,
as the effect was not present in oocytes expressing a phos(-) PLM mutant in
which all potential phosphorylation had been disabled by Ser --> Ala subst
itution. The biophysical characteristics of I-Cl(PLM) were not changed by D
MPK or by the phos(-) mutation. Co-expression of DMPK reduced the expressio
n of PLM in oocyte membranes, suggesting a possible mechanism for the obser
ved reduction in I-Cl(PLM) amplitude. These data show that PLM is a substra
te for phosphorylation by DMPK and provide functional evidence for modulati
on of PLM function by phosphorylation.