Stable adrenomedullin analog mitigates placental ischemia-induced hypertension and fetal growth restriction in rats

Abstract

Objective(s): Preeclampsia is a heterogeneous hypertensive disorder of pregnancy. It affects multiorgans and may lead to fetal growth restriction, organ failure, seizure, and maternal death. Unfortunately, current treatments are ineffective at delaying the progression of preeclampsia even for a few days. Clinicians are often forced to deliver preterm fetus if severe preeclampsia occurred early during pregnancy, leading to premature birth-associated complications. Preeclampsia has been associated with defects at the maternal–fetal interface and maternal vascular dysfunction. Of interest, the adrenomedullin peptide and its cognate receptors, calcitonin receptor-like receptor (CLR)/ receptor activity-modifying protein (RAMP) receptor complexes, have been shown to be important regulators of cardiovascular adaptation and feto-placental development during pregnancy. Although the exact role of adrenomedullin-CLR/RAMP signaling in different feto-maternal compartments during pregnancy and how adrenomedullin expression affects preeclampsia development remains to be clarified, we hypothesized that the sustained activation of CLR/RAMP receptors could be a promising strategy to mitigate placental ischemia-associated vascular dysfunction and fetal growth restriction under preeclampsia-like conditions Methods: To explore this possibility, we have developed a stable adrenomedullin analog, ADE101, and investigated its effects on human lymphatic microvascular endothelial (HLME) cell proliferation, hemodynamics, and pregnancy outcomes in pregnant rats with reduced uteroplacental perfusion pressure (RUPP) induced by clipping of uterine arteries on gestation day 14 Results: The ADE101 analog has a potent effect on CLR/RAMP2 receptor activation, and an enhanced stimulatory effect on HLME cell proliferation compared to wild-type peptides. ADE101 also exhibits a lasting effect on hemodynamics in normal and hypertensive rats. In addition, studies using the RUPP model showed that ADE101 significantly reduces placental ischemia-induced hypertension and fetal growth restriction in a dose-dependent manner. Infusion of ADE101 increased the weight of fetuses and placentas in RUPP animals to 252% and 202% of that of RUPP controls, respectively. Conclusions: These data suggested that long-acting adrenomedullin analog could be useful for quenching hypertension as well as the vascular ischemia-associated organ damages in preeclamptic patients.