TNF-α-Driven NOX5 Activation Promotes Oxidative Stress and Umbilical Artery Dysfunction in Preeclampsia

BackgroundPreeclampsia (PE) is a hypertensive disorder of pregnancy characterized by systemic inflammation, oxidative stress, and endothelial dysfunction. Although maternal vascular dysfunction is well established in PE, the mechanisms underlying fetal vascular injury remain poorly understood. We investigated whether inflammatory signaling activates NADPH oxidase 5 (NOX5) and contributes to oxidative stress and dysfunction in human umbilical arteries from pregnancies complicated by PE. MethodsUmbilical arteries and serum samples were obtained from normotensive pregnant women (NP) and women with PE. Vascular reactivity, nitric oxide (NO) bioavailability, reactive oxygen species (ROS) generation, cytokine levels, and NOX isoform expression were evaluated in human umbilical arteries and EA.hy926 endothelial cells. Pharmacological inhibition of NOX5, TNF- neutralization, Ca{superscript 2} channel blockade, and siRNA-mediated NOX5 silencing were used to investigate mechanisms. ResultsPE umbilical arteries exhibited increased vasoconstrictor responses, oxidative stress, and NOX5 expression, accompanied by impairment of NO bioavailability. NOX5 inhibition reversed vascular hyperreactivity in PE vessels. Exposure of normotensive umbilical arteries to PE serum reproduced the PE vascular phenotype, characterized by enhanced ROS generation, reduced NO levels, and hypercontractility. In endothelial cells, PE serum induced TNF--dependent Ca{superscript 2} influx, oxidative stress, and reduced NO production. Both pharmacological and genetic inhibition of NOX5 prevented these alterations. ConclusionsPE promotes fetal vascular dysfunction through activation of a TNF-/Ca2+/NOX5 signaling pathway that amplifies oxidative stress and impairs NO bioavailability. These findings identify NOX5 as a previously unrecognized mediator of umbilical artery dysfunction in PE and suggest the TNF-/Ca2+/NOX5 axis as a potential therapeutic target in hypertensive pregnancies.