Cloning and cellular expression of aquaporin 9 in ovine fetal membranes.

Objective: Amniotic fluid (AF) absorption across fetal membranes is essential for AF volume homeostasis, balancing fetal swallowing, urine flow, and lung liquid production. In sheep, AF is absorbed primarily across the amniotic membrane into fetal vasculature situated between the amnion and chorion. Aquaporins (AQPs) are cell membrane proteins that serve as water channels.

Expression of aquaporin 9 in human chorioamniotic membranes and placenta.

Objective: Aquaporin 9 (AQP9) is one of the recently identified water channels that is also permeable to neutral solutes including urea. To investigate the molecular mechanism of intramembranous pathway of amniotic fluid regulation, we sought to determine whether AQP9 is expressed, and the cellular localization of AQP9 expression in human fetal membranes.

Study Design: Fetal membranes from 5 normal term human pregnancies were studied.

Expression of aquaporin 8 and its up-regulation by cyclic adenosine monophosphate in human WISH cells.

Objective: Water absorption across the fetal chorioamniotic membranes is a critical regulatory pathway for amniotic fluid volume homeostasis. Aquaporins are cell membrane proteins that significantly enhance membrane permeability to water by acting as water channels. We recently demonstrated that aquaporin 8 is expressed in human amnion, chorion, and placenta.

Prolonged prenatal hypernatremia alters neuroendocrine and electrolyte homeostasis in neonatal sheep.

Arginine vasopressin (AVP) is a neuroendocrine hormone synthesized in the hypothalamus, and is stored and secreted by the posterior pituitary gland in response to stimuli such as plasma hypertonicity and hypotension. The primary physiologic roles of AVP include plasma osmolality and blood pressure regulation. We have previously demonstrated that chronic prenatal plasma hypertonicity alters the AVP regulatory pathway in newborn lambs.