Erythrocyte membrane abnormalities in human myotonic dystrophy.

Membrane-bound enzyme activities and cardiac glycoside binding were determined in red blood cell membrane preparations from patients with myotonic dystrophy and in age matched controls. Na+-K+-activated ATPase activity was significantly increased in myotonic patients. [3H]Ouabain binding to erythrocyte membranes was also significantly increased in myotonic dystrophy patients. The Mg2+-ATPase (ouabain-insensitive) was, however, unchanged. The K+-stimulated paranitrophenyl phosphatase (KPNPPase) activity was markedly enhanced in myotonic patients as compared to controls. The kinetic analysis showed a marked change in Vmax of Na+-K+ ATPase with respect to the activation by Na+, K+ and ATP. However, the Km values were the same in control as well as in myotonic groups. The increased erythrocyte membrane Na+-K+-ATPase activity, KPNPPase and [3H]ouabain binding in myotonic patients supports the hypothesis that generalized membrane abnormality may be involved in pathogenesis of the human myotonic dystrophy.