Ascorbate prevents placental oxidative stress and enhances birth weight in hypoxic pregnancy in rats

H. G. Richter; E. J. Camm; B. N. Modi; F. Naeem; C. M. Cross; T. Cindrova-Davies; O. Spasic-Boskovic; C. Dunster; I. S. Mudway; F. J. Kelly; G. J. Burton; L. Poston; D. A. Giussani

doi:10.1113/jphysiol.2011.226340

Ascorbate prevents placental oxidative stress and enhances birth weight in hypoxic pregnancy in rats

H. G. Richter, E. J. Camm, B. N. Modi, F. Naeem, C. M. Cross, T. Cindrova-Davies, O. Spasic-Boskovic, C. Dunster, I. S. Mudway, F. J. Kelly, G. J. Burton, L. Poston, D. A. Giussani

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Abstract

This study isolated the effects of maternal hypoxia independent of changes in maternal nutrition on maternal circulatory and placental molecular indices of oxidative stress and determined whether maternal antioxidant treatment conferred protection. Pregnant rats were subjected to normoxic pregnancy or 13% O-2 chronic hypoxia for most of gestation with and without maternal treatment with vitamin C in the drinking water. Maternal hypoxia with and without vitamin C did not affect maternal food or water intake and led to a significant increase in maternal and fetal haematocrit. At gestational day 20, maternal plasma urate and L-cysteine concentrations, and placental levels of 4-hydroxynonenal and heat shock protein 70 were increased while placental heat shock protein 90 levels were decreased in hypoxic pregnancy. The induction of maternal circulatory and placental molecular indices of oxidative stress in hypoxic pregnancies was prevented by maternal treatment with vitamin C. Maternal hypoxia during pregnancy with or without vitamin C increased placental weight, but not total or compartmental volumes. Maternal treatment with vitamin C increased birth weight in both hypoxic and normoxic pregnancies. The data show that maternal hypoxia independent of maternal undernutrition promotes maternal and placental indices of oxidative stress, effects that can be prevented by maternal treatment with vitamin C in hypoxic pregnancy. While vitamin C may not be the ideal candidate of choice for therapy in pregnant women, and taking into consideration differences in ascorbic acid metabolism between rats and humans, the data do underlie that antioxidant treatment may provide a useful intervention to improve placental function and protect fetal growth in pregnancy complicated by fetal hypoxia.

Original language	English
Pages (from-to)	1377-1387
Number of pages	11
Journal	The Journal of Physiology
Volume	590
Issue number	6
Early online date	30 Jan 2012
DOIs	https://doi.org/10.1113/jphysiol.2011.226340
Publication status	Published - 15 Mar 2012

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10.1113/jphysiol.2011.226340

MRC-HPA Centre for Environment and Health
Kelly, F. (Primary Investigator) & Elliot, P. (Co-Investigator)
MRC Medical Research Council
1/09/2008 → 31/05/2019
Project: Research

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Richter, H. G., Camm, E. J., Modi, B. N., Naeem, F., Cross, C. M., Cindrova-Davies, T., Spasic-Boskovic, O., Dunster, C., Mudway, I. S., Kelly, F. J., Burton, G. J., Poston, L., & Giussani, D. A. (2012). Ascorbate prevents placental oxidative stress and enhances birth weight in hypoxic pregnancy in rats. The Journal of Physiology, 590(6), 1377-1387. https://doi.org/10.1113/jphysiol.2011.226340

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title = "Ascorbate prevents placental oxidative stress and enhances birth weight in hypoxic pregnancy in rats",

abstract = "This study isolated the effects of maternal hypoxia independent of changes in maternal nutrition on maternal circulatory and placental molecular indices of oxidative stress and determined whether maternal antioxidant treatment conferred protection. Pregnant rats were subjected to normoxic pregnancy or 13% O-2 chronic hypoxia for most of gestation with and without maternal treatment with vitamin C in the drinking water. Maternal hypoxia with and without vitamin C did not affect maternal food or water intake and led to a significant increase in maternal and fetal haematocrit. At gestational day 20, maternal plasma urate and L-cysteine concentrations, and placental levels of 4-hydroxynonenal and heat shock protein 70 were increased while placental heat shock protein 90 levels were decreased in hypoxic pregnancy. The induction of maternal circulatory and placental molecular indices of oxidative stress in hypoxic pregnancies was prevented by maternal treatment with vitamin C. Maternal hypoxia during pregnancy with or without vitamin C increased placental weight, but not total or compartmental volumes. Maternal treatment with vitamin C increased birth weight in both hypoxic and normoxic pregnancies. The data show that maternal hypoxia independent of maternal undernutrition promotes maternal and placental indices of oxidative stress, effects that can be prevented by maternal treatment with vitamin C in hypoxic pregnancy. While vitamin C may not be the ideal candidate of choice for therapy in pregnant women, and taking into consideration differences in ascorbic acid metabolism between rats and humans, the data do underlie that antioxidant treatment may provide a useful intervention to improve placental function and protect fetal growth in pregnancy complicated by fetal hypoxia.",

author = "Richter, {H. G.} and Camm, {E. J.} and Modi, {B. N.} and F. Naeem and Cross, {C. M.} and T. Cindrova-Davies and O. Spasic-Boskovic and C. Dunster and Mudway, {I. S.} and Kelly, {F. J.} and Burton, {G. J.} and L. Poston and Giussani, {D. A.}",

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Richter, HG, Camm, EJ, Modi, BN, Naeem, F, Cross, CM, Cindrova-Davies, T, Spasic-Boskovic, O, Dunster, C , Mudway, IS , Kelly, FJ, Burton, GJ, Poston, L & Giussani, DA 2012, 'Ascorbate prevents placental oxidative stress and enhances birth weight in hypoxic pregnancy in rats', The Journal of Physiology, vol. 590, no. 6, pp. 1377-1387. https://doi.org/10.1113/jphysiol.2011.226340

TY - JOUR

T1 - Ascorbate prevents placental oxidative stress and enhances birth weight in hypoxic pregnancy in rats

AU - Richter, H. G.

AU - Camm, E. J.

AU - Modi, B. N.

AU - Naeem, F.

AU - Cross, C. M.

AU - Cindrova-Davies, T.

AU - Spasic-Boskovic, O.

AU - Dunster, C.

AU - Mudway, I. S.

AU - Kelly, F. J.

AU - Burton, G. J.

AU - Poston, L.

AU - Giussani, D. A.

PY - 2012/3/15

Y1 - 2012/3/15

N2 - This study isolated the effects of maternal hypoxia independent of changes in maternal nutrition on maternal circulatory and placental molecular indices of oxidative stress and determined whether maternal antioxidant treatment conferred protection. Pregnant rats were subjected to normoxic pregnancy or 13% O-2 chronic hypoxia for most of gestation with and without maternal treatment with vitamin C in the drinking water. Maternal hypoxia with and without vitamin C did not affect maternal food or water intake and led to a significant increase in maternal and fetal haematocrit. At gestational day 20, maternal plasma urate and L-cysteine concentrations, and placental levels of 4-hydroxynonenal and heat shock protein 70 were increased while placental heat shock protein 90 levels were decreased in hypoxic pregnancy. The induction of maternal circulatory and placental molecular indices of oxidative stress in hypoxic pregnancies was prevented by maternal treatment with vitamin C. Maternal hypoxia during pregnancy with or without vitamin C increased placental weight, but not total or compartmental volumes. Maternal treatment with vitamin C increased birth weight in both hypoxic and normoxic pregnancies. The data show that maternal hypoxia independent of maternal undernutrition promotes maternal and placental indices of oxidative stress, effects that can be prevented by maternal treatment with vitamin C in hypoxic pregnancy. While vitamin C may not be the ideal candidate of choice for therapy in pregnant women, and taking into consideration differences in ascorbic acid metabolism between rats and humans, the data do underlie that antioxidant treatment may provide a useful intervention to improve placental function and protect fetal growth in pregnancy complicated by fetal hypoxia.

AB - This study isolated the effects of maternal hypoxia independent of changes in maternal nutrition on maternal circulatory and placental molecular indices of oxidative stress and determined whether maternal antioxidant treatment conferred protection. Pregnant rats were subjected to normoxic pregnancy or 13% O-2 chronic hypoxia for most of gestation with and without maternal treatment with vitamin C in the drinking water. Maternal hypoxia with and without vitamin C did not affect maternal food or water intake and led to a significant increase in maternal and fetal haematocrit. At gestational day 20, maternal plasma urate and L-cysteine concentrations, and placental levels of 4-hydroxynonenal and heat shock protein 70 were increased while placental heat shock protein 90 levels were decreased in hypoxic pregnancy. The induction of maternal circulatory and placental molecular indices of oxidative stress in hypoxic pregnancies was prevented by maternal treatment with vitamin C. Maternal hypoxia during pregnancy with or without vitamin C increased placental weight, but not total or compartmental volumes. Maternal treatment with vitamin C increased birth weight in both hypoxic and normoxic pregnancies. The data show that maternal hypoxia independent of maternal undernutrition promotes maternal and placental indices of oxidative stress, effects that can be prevented by maternal treatment with vitamin C in hypoxic pregnancy. While vitamin C may not be the ideal candidate of choice for therapy in pregnant women, and taking into consideration differences in ascorbic acid metabolism between rats and humans, the data do underlie that antioxidant treatment may provide a useful intervention to improve placental function and protect fetal growth in pregnancy complicated by fetal hypoxia.

U2 - 10.1113/jphysiol.2011.226340

DO - 10.1113/jphysiol.2011.226340

M3 - Article

SN - 1469-7793

VL - 590

SP - 1377

EP - 1387

JO - The Journal of Physiology

JF - The Journal of Physiology

IS - 6

ER -

Ascorbate prevents placental oxidative stress and enhances birth weight in hypoxic pregnancy in rats

Abstract

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