2017
DOI: 10.14814/phy2.13455
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Transport-associated pathway responses in ovine fetal membranes to changes in amniotic fluid dynamics

Abstract: Current evidence suggests that amniotic fluid volume (AFV) is actively regulated by vesicular transport of amniotic fluid outward across the amnion and into the underlying fetal vasculature in the placenta. Our objective was to determine whether gene expression profiles of potential stimulators, inhibitors, and mediators of vesicular transport are altered in response to changes in intramembranous absorption (IMA) rate. Samples of ovine amnion and chorion were obtained from fetal sheep with normal, experimental… Show more

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Cited by 7 publications
(8 citation statements)
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“…Even though basal IMARs of 700 -1,000 ml/day were unexpectedly high in the improved fetal sheep model when IMAR was directly determined (9,22,24,(31)(32)(33)83), infusion of lactated Ringer solution into the AF greatly increased IMAR (24, 83), consistent with several earlier studies showing increased IMAR in response to either intra-amniotic fluid infusions or fetal polyuria induced by intravascular fluid infusions (13,35,(42)(43)(44). We had long suspected that the increased IMARs during fetal infusions were due to either dilution of a substance in the AF that was inhibiting IMA absorption or entry into the AF of a stimulator of IMA in response to the infusions.…”
Section: Discovery Of Stimulatory and Inhibitory Factors For Intramembranous Absorptionmentioning
confidence: 98%
See 1 more Smart Citation
“…Even though basal IMARs of 700 -1,000 ml/day were unexpectedly high in the improved fetal sheep model when IMAR was directly determined (9,22,24,(31)(32)(33)83), infusion of lactated Ringer solution into the AF greatly increased IMAR (24, 83), consistent with several earlier studies showing increased IMAR in response to either intra-amniotic fluid infusions or fetal polyuria induced by intravascular fluid infusions (13,35,(42)(43)(44). We had long suspected that the increased IMARs during fetal infusions were due to either dilution of a substance in the AF that was inhibiting IMA absorption or entry into the AF of a stimulator of IMA in response to the infusions.…”
Section: Discovery Of Stimulatory and Inhibitory Factors For Intramembranous Absorptionmentioning
confidence: 98%
“…This led to our speculation that VEGF may play a primary role in regulating IMAR (28). However, recent studies found that amnion VEGF mRNA levels are also elevated when IMAR is experimentally reduced (33), suggesting that VEGF may not be a major regulator of IMAR.…”
Section: Induced Molecular Changes Within Amnionmentioning
confidence: 99%
“…Three families of VEGF proteins and their corresponding receptors have been characterized and the main receptors involved in the first steps of signal transduction cascades comprise different tyrosine kinases receptors, such as VEGFR-1, VEGFR-2, and VEGFR-3 [ 42 ]. Across species, some VEGF family members and receptors are found in placentomes, uterus tissues, and oviduct, and in different species including humans, mice, rats, cattle, sheep, pigs, and rabbits [ 43 , 44 , 45 , 46 , 47 , 48 , 49 , 50 ]. The in vivo administration of VEGF to goats and sheep stimulates follicular growth and increases the number of preovulatory follicles [ 51 ].…”
Section: Growth Factors and Early Developmentmentioning
confidence: 99%
“…In animal studies, the effect of fetal urinary prostaglandin E 2 on IM transport was explored but results did not support such a role (Cheung, Beardall, Anderson, & Brace, 2014). Conversely, AQP1 appeared to play a positive role in regulating the rate of IM transport (Cheung, Anderson, & Brace, 2016) while the growth and permeability factor vascular endothelial growth factor (VEGF) may mediate amniotic fluid transport across the amnion (Cheung, Anderson, & Brace, 2017). Recently, we reported that IM transport across the amnion is a multifactorial regulatory process that involves cellular transport pathways and signaling modulators.…”
Section: Introductionmentioning
confidence: 99%