Abstract

Oxidative stress from placental ischemia/reperfusion and hypoxia/reoxygenation (H/R) in preeclampsia is accompanied by Na+-K+ pump inhibition and S-glutathionylation of its β1 subunit (GSS-β1), a modification that inhibits the pump. β3-adrenergic receptor (β3-AR) agonists can reverse GSS-β1. We examined effects of the agonist CL316,243 on GSS-β1 and sources of H/R-induced oxidative stress in immortalized first trimester human trophoblast (HTR-8/SVneo) and freshly isolated placental explants from normal term pregnancies. H/R increased GSS-β1 and, reflecting compromised α1/β1 subunit interaction, it reduced α1/β1 pump subunit co-immunoprecipitation. H/R increased p47phox/p22phox NADPH oxidase subunit co-immunoprecipitation reflecting membrane translocation of cytosolic p47phox that is needed to activate NADPH oxidase. Fluorescence of O2•--sensitive dihydroethidium increased in parallel. H/R increased S-glutathionylation of endothelial nitric oxide synthase (GSS-eNOS) that uncouples NO synthesis towards synthesis of O2•- and reduced trophoblast migration. Oxidative stress induced by tumor necrosis factor α (TNF-α) increased soluble fms-like tyrosine kinase receptor 1 (sFlt-1) trophoblast release, a marker of preeclampsia, and reduced trophoblast integration into endothelial cellular networks. CL316,243 eliminated H/R-induced GSS-β1 and decreases of α1/β1 subunit coimmunoprecipitation, eliminated NADPH oxidase activation and increases in GSS-eNOS, restored trophoblast migration, eliminated increased sFlt-1 release and restored trophoblast integration in endothelial cell networks. H/R induced GSS-β1, α1/β1 subunit co-immunoprecipitation and NADPH oxidase activation of placental explants reflected effects of H/R for trophoblasts and CL316,243 eliminated these changes. We conclude a β3-AR agonist counters key pathophysiological features of preeclampsia in vitro. β3 agonists already in human use for another purpose are potential candidates for re-purposing to treat preeclampsia.

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