Ruth Cornock scite author profile

Ruth Cornock

3Publications

29Citation Statements Received

127Citation Statements Given

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University of Nottingham

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The effect of feeding a low iron diet prior to and during gestation on fetal and maternal iron homeostasis in two strains of rat

Cornock

Gambling

Langley‐Evans

et al. 2013

Reprod Biol Endocrinol

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BackgroundIron deficiency anaemia during pregnancy is a global problem, with short and long term consequences for maternal and child health. Animal models have demonstrated that the developing fetus is vulnerable to maternal iron restriction, impacting on postnatal metabolic and blood pressure regulation. Whilst long-term outcomes are similar across different models, the commonality in mechanistic events across models is unknown. This study examined the impact of iron deficiency on maternal and fetal iron homeostasis in two strains of rat.MethodsWistar (n=20) and Rowett Hooded Lister (RHL, n=19) rats were fed a control or low iron diet for 4 weeks prior to and during pregnancy. Tissues were collected at day 21 of gestation for analysis of iron content and mRNA/protein expression of regulatory proteins and transporters.ResultsA reduction in maternal liver iron content in response to the low iron diet was associated with upregulation of transferrin receptor expression and a reduction in hepcidin expression in the liver of both strains, which would be expected to promote increased iron absorption across the gut and increased turnover of iron in the liver. Placental expression of transferrin and DMT1+IRE were also upregulated, indicating adaptive responses to ensure availability of iron to the fetus. There were considerable differences in hepatic maternal and fetal iron content between strains. The higher quantity of iron present in livers from Wistar rats was not explained by differences in expression of intestinal iron transporters, and may instead reflect greater materno-fetal transfer in RHL rats as indicated by increased expression of placental iron transporters in this strain.ConclusionsOur findings demonstrate substantial differences in iron homeostasis between two strains of rat during pregnancy, with variable impact of iron deficiency on the fetus. Whilst common developmental processes and pathways have been observed across different models of nutrient restriction during pregnancy, this study demonstrates differences in maternal adaptation which may impact on the trajectory of the programmed response.

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The impact of maternal protein restriction during rat pregnancy upon renal expression of angiotensin receptors and vasopressin-related aquaporins

Cornock

Langley‐Evans

Mobasheri

et al. 2010

Reprod Biol Endocrinol

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BackgroundMaternal protein restriction during rat pregnancy is known to impact upon fetal development, growth and risk of disease in later life. It is of interest to understand how protein undernutrition influences the normal maternal adaptation to pregnancy. Here we investigated the mechanisms regulating renal haemodynamics and plasma volume during pregnancy, in the context of both normal and reduced plasma volume expansion. The study focused on expression of renal angiotensin receptors (ATR) and vasopressin-related aquaporins (AQP), hypothesising that an alteration in the balance of these proteins would be associated with pregnancy per se and with compromised plasma volume expansion in rats fed a low-protein diet.MethodsFemale Wistar rats were mated and fed a control (18% casein) or low-protein (9% casein) diet during pregnancy. Animals were anaesthetised on days 5, 10, 15 and 20 of gestation (n = 8/group/time-point) for determination of plasma volume using Evans Blue dye, prior to euthanasia and collection of tissues. Expression of the ATR subtypes and AQP2, 3 and 4 were assessed in maternal kidneys by PCR and western blotting. 24 non-pregnant Wistar rats underwent the same procedure at defined points of the oestrous cycle.ResultsAs expected, pregnancy was associated with an increase in blood volume and haemodilution impacted upon red blood cell counts and haemoglobin concentrations. Expression of angiotensin II receptors and aquaporins 2, 3 and 4 was stable across all stages of the oestrus cycle. Interesting patterns of intra-renal protein expression were observed in response to pregnancy, including a significant down-regulation of AQP2. In contrast to previous literature and despite an apparent delay in blood volume expansion in low-protein fed rats, blood volume did not differ significantly between groups of pregnant animals. However, a significant down-regulation of AT2R protein expression was observed in low-protein fed animals alongside a decrease in creatinine clearance.ConclusionRegulatory systems involved in the pregnancy-induced plasma volume expansion are susceptible to the effects of maternal protein restriction.

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The effect of a low-protein diet on physiological adaptations to pregnancy

2008

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Research has shown that maternal nutrient restriction can impair the physiological adaptations to pregnancy (1) , including a reduction in blood and plasma volume expansion in pregnant rats consuming a low-protein diet (2). The expansion of blood volume during pregnancy is vital to placental development and ensures an adequate nutrient supply to the fetus (3). The present study aimed to investigate the mechanisms by which maternal diet interacts with blood volume control during pregnancy, using a low-protein rat model. Sixty-four virgin female Wistar rats were mated and assigned to a control (180 g casein/kg; n 32) or low-protein (90 g casein/kg; n 32) diet during pregnancy. Animals were terminally anaesthetised on days 5, 10, 15 and 20 of gestation (eight per group at each time-point), following 24 h urine collection for determination of creatinine clearance (a proxy measure of glomerular filtration rate). A cannula was inserted into the left iliac vein of each animal, through which an initial blood sample was taken before administration of 0.3 ml Evans blue dye (0.5 mg/ml). After 5 min a final blood sample was taken and blood volume estimated by calculating the dilution of the dye (4). Organs were collected, weighed and stored at-80 C for future analysis.

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Ruth Cornock

The effect of feeding a low iron diet prior to and during gestation on fetal and maternal iron homeostasis in two strains of rat

The impact of maternal protein restriction during rat pregnancy upon renal expression of angiotensin receptors and vasopressin-related aquaporins

The effect of a low-protein diet on physiological adaptations to pregnancy

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