Shear stress regulation of endothelial NOS in fetal pulmonary arterial endothelial cells involves PKC

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Shear stress regulation of endothelial NOS in fetal pulmonary arterial endothelial cells involves PKC

Stephen Wedgwood¹, Janine M. Bekker², and Stephen M. Black¹^,³

Departments of ¹ Pediatrics and ³ Molecular Pharmacology, Northwestern University Medical School, Chicago, Illinois 60611-3008; and ² Department of Pediatrics, University of California, San Francisco, California 94143-0106

We have shown that increased pulmonary blood flow at birth increases the activity and expression of endothelial nitric oxide(NO) synthase (eNOS). However, the signal transduction pathwayregulating this process is unclear. Because protein kinase C (PKC)has been shown to be activated in response to shear stress, weundertook a study to examine its role in mediating shear stresseffects on eNOS. Initial experiments demonstrated that PKC activityincreased in response to shear stress. NO production in responseto shear stress was found to be biphasic, with an increase inNO release up to 1 h, a plateau phase until 4 h, and another increasebetween 4 and 8 h. PKC inhibition reduced the initial rise inNO release by 50% and the second increase by 70%. eNOS mRNA andprotein levels were also increased in response to shear stress,whereas PKC inhibition prevented this increase. The stimulationof PKC activity with phorbol ester increased eNOS gene expressionwithout increasing NO release. These results suggest that PKCmay play different roles in shear stress-mediated release of NOand increased eNOS geneexpression.

signal transduction; gene regulation; pulmonary blood flow; nitric oxide synthase; protein kinase C

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