Separate Sites and Mechanisms for Placental Transport of Calcium, Iron and Glucose in the Equine Placenta

Abstract

The placenta is the only channel for transport of nutrients to the conceptus and the fetal nutrient demands increase exponentially to term. The 9kDa calcium binding protein (calbindin, 9CBP) and the iron binding protein uteroferrin (UF) are proving to be reliable markers for epithelia that mediate active transcellular calcium and iron transport and the glucose transporter proteins (GT1 and GT3) for glucose transport by facilitated diffusion. Light and electron microscope immunocytochemistry have been used on perfusion fixed resin embedded material to establish the distribution of 9CBP, UF, GT1 and GT3 in the equine placenta from 100 days of pregnancy to term (336 days).The equine placenta has two main structural components, flat areolae and microcotyledons. From 100 days of pregnancy to term immunoreactive 9CBP is found only in the cytoplasm of the maternal glands and the areolar trophoblast cells with none in the microcotyledons; whereas GT1 is present exclusively in the microcotyledons on the basolateral plasmalemma of both trophoblast and uterine epithelia with GT3 on the apical microvilli. The glands show neither GT1 nor GT3 expression. The areas of both areolae and microcotyledons increase enormously during gestation but there is no indication of increasing amounts of 9CBP, GT1 or GT3 protein per cell. Glucose transport through the placental cell cytoplasm is by diffusion of the free molecule, but calcium ions in transit must be sequestered in some way since the high calcium fluxes needed to support fetal bone growth in later pregnancy would be deleterious to calcium based homeostasis and cellular control systems. Electron microscope immunocytochemistry shows that 9CBP is uniformly distributed in the cytoplasm and nucleoplasm of the areolar trophoblast cells but excluded from all membrane bounded compartments such as mitochondria, Golgi saccules and pinocytotic transport vesicles. Such apical transport vesicles can be identified immunocytochemically by their content of uteroferrin, a component of the secretion from the uterine glands. It is suggested that transcellular calcium transport is therefore based on facilitated diffusion, not the vesicular method followed by the iron in the UF molecules, with 9CBP providing both transfer and sequestration functions for the transient calcium ions.These results show that the equine placenta has transport systems with restricted regional distribution similar to those recently shown for the ruminant placenta.