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BJA: British Journal of Anaesthesia
Year: 2010  |  Volume: 104  |  Issue: 5  |  Page No.: 606 - 612

Translocation of protein kinase C isoforms is involved in propofol-induced endothelial nitric oxide synthase activation

L Wang, B Wu, Y Sun, T Xu, X Zhang, M Zhou and W. Jiang    

Abstract: Background

Previous studies have indicated that protein kinase C (PKC) may enhance endothelial nitric oxide synthase (eNOS) activation, although the detailed mechanism(s) remains unclear. In this study, we investigated the roles of PKC isoforms in regulating propofol-induced eNOS activation in human umbilical vein endothelial cells (HUVECs).

Methods

We applied western blot (WB) analysis to investigate the effects of propofol on Ser1177 phosphorylation-dependent eNOS activation in HUVECs. Nitrite (NO2) accumulation was measured using the Griess assay. The phosphatidylinositol 3-kinase/Akt (PI3K/Akt) pathway was examined by WB assay. Propofol-induced translocation of individual PKC isoforms in subcellular fractions in HUVECs was analysed using WB assay.

Results

In HUVECs, protocol treatment (1–100 µM) for 10 min induced a concentration-dependent increase in phosphorylation of eNOS at Ser1177. The NO production was also increased accordingly. PKC inhibitors, bisindolylmaleimide I (0.1–1 µM), and staurosporine (20 and 100 nM), effectively blocked propofol-induced eNOS activation and NO production. Further analyses in fractionated endothelial lysate showed that short-term propofol treatment (50 µM) led to translocation of PKC-, PKC-, PKC-, PKC-, and PKC- from cytosolic to membrane fractions, which could also be inhibited by both PKC inhibitors. These data revealed that the differential redistribution of these isozymes is indispensable for propofol-induced eNOS activation. In addition, Akt was not phosphorylated in response to propofol at Ser473 or Thr308.

Conclusions

Propofol induces the Ser1177 phosphorylation-dependent eNOS activation through the drug-stimulated translocation of PKC isoforms to distinct intracellular sites in HUVECs, which is independent of PI3K/Akt-independent pathway.

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