Abstract

OBJECTIVE
Activation of protein kinase C(PKC) may play a certain role in the development of cerebral vasospasm. However, this mechanism still elusive. This study was undertaken to investigate the action of protein kinase C on calcium-dependent K+ channels(KCa) and internal calcium concentration [Ca2+]i in freshly isolated smooth muscle cells.
METHODS
Whole-cell patch clamp and calcium microfluorimetry technique were used for measuring the K Ca and internal calcium concentration.
RESULTS
In patch-clamp studies, depolarization evoked an outward KCa current which is sensitive to caffeine and A23187, and shown to be blocked by TEA(tetraethylammonium) but not by glibenclamide. Activation of protein kinase C by phorbol 12-myristate 13-acetate(PMA:1-100nmol/1) and phorbol 12, 13-dibutyrate(PDB:1-100nmol/1) dose-dependently enhanced KCa current. Subsequent application of TEA(10-30mmol/1) but not glibenclamide(3-6nmol/1), in the presence of phorbol esters, reduced the potassium current activated by phorbol esters. Preincubation with 1-(5-isoquinoline sulphonyl)-2-methylpiperazine(H-7:10nmol/1), a protein kinase C inhibitor, prevented the effect of phorbol esters on KCa. In calcium microfluorimetric studies, PMA(100nmol/1) increased intracellular calcium concentration and this effect of PMA was prevented by pre-incubation of cells with H-7(10nmol/1).
CONCLUSION
These results indicate that activation of PKC increases intracellular calcium concentration and elevation of internal calcium concentration activates KCa in cerebral vascular smooth muscle cells.