Chronic hypoxia differentially modulates the response of fetal ovine middle cerebral arteries to endothelin‐1 (853.2)

To better understand how hypoxia‐induced vascular remodeling alters intracellular responses to ET‐1, we hypothesized that chronic hypoxia alters ET‐1 induced phenotypic transformation in arterial smooth muscle cells within the fetal cerebrovasculature. Endothelium denuded middle cerebral arteries (MCA) harvested from term fetuses of pregnant adult sheep kept at sea level or 3820m for 110 days were serum starved for 24h, then cultured 24h with ET‐1 and various kinase inhibitors. Fetal normoxic (FN) MCAs incubated with ET‐1 exhibited decreased colocalization between MLCK and α‐actin compared to control (starved), suggesting a shift of smooth muscle cells (SMCs) from a contractile to a more synthetic phenotype. This appeared to be mediated by multiple intracellular pathways, with PKC playing the largest role in normoxic arteries. Chronic hypoxia attenuated the ET‐1 induced decrease in MLCK and α‐actin colocalization, decreased the effects of PKC inhibitors, but increased the apparent effects of the CaMK‐dependent pathway, on colocalization. Given that plasma levels of ET‐1 were unaltered by chronic hypoxia, these results suggest that chronic hypoxia shifts the coupling of ET‐1 from PKC to CaMK to alter gene expression and thereby influence vascular remodeling. Grant Funding Source : Supported by National Institutes of Health Grants HD‐31266, HL‐64867, and NS‐076945