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Folate supplementation during pregnancy improves offspring cardiovascular dysfunction Induced by protein restriction

Folate supplementation during pregnancy improves offspring cardiovascular dysfunction Induced by protein restriction
Folate supplementation during pregnancy improves offspring cardiovascular dysfunction Induced by protein restriction
Dietary protein restriction in the rat compromises the maternal cardiovascular adaptations to pregnancy and leads to raised blood pressure and endothelial dysfunction in the offspring. In this study we have hypothesized that dietary folate supplementation of the low-protein diet will improve maternal vascular function and also restore offspring cardiovascular function. Pregnant Wistar rats were fed either a control (18% casein) or protein-restricted (9% casein) diet +/-5 mg/kg folate supplement. Function of isolated maternal uterine artery and small mesenteric arteries from adult male offspring was assessed, systolic blood pressure recorded, and offspring thoracic aorta levels of endothelial nitric oxide (NO) synthase mRNA measured. In the uterine artery of late pregnancy dams, vasodilatation to vascular endothelial growth factor was attenuated in the protein-restricted group but restored with folate supplementation, as was isoprenaline-induced vasodilatation (P<0.05). In male offspring, protein restriction during pregnancy led to raised systolic blood pressure (P<0.01), impaired acetylcholine-induced vasodilatation (P<0.01), and reduced levels of endothelial NO synthase mRNA (P<0.05). Maternal folate supplementation during pregnancy prevented this elevated systolic blood pressure associated with a protein restriction diet. With folate supplementation, endothelium-dependent vasodilatation and endothelial NO synthase mRNA levels were not significantly different from either the control or protein-restricted groups. Maternal folate supplementation of the control diet had no effect on blood pressure or vasodilatation. This study supports the hypothesis that folate status in pregnancy can influence fetal development and, thus, the risks of cardiovascular disease in the next generation. The concept of developmental origins of adult disease focuses predominately on fetal life but must also include a role for maternal cardiovascular function.
acid, adult, animals, newborn, arteries, blood, blood pressure, cardiovascular disease, cardiovascular diseases, diet, protein-restricted, disease, drug effects, endothelium, vascular, etiology, female, fetal, fetal development, folic acid, growth, health, hypothesis, male, nitric oxide, pharmacology, physiopathology, pregnancy, pregnancy complications, cardiovascular, pressure, protein, rats, wistar, research support, non-U.S.Gov't, risk, vasodilation, vitamin b complex
0194-911X
982-987
Torrens, Christopher
15a35713-0651-4249-8227-5901e2cfcd22
Brawley, Lee
acce4d5e-03c8-48da-b391-45fbc1b384b1
Anthony, Frederick W.
28a46159-500c-48fe-8c55-ef57e034cbeb
Dance, Caroline S.
de75285d-5f4a-4bb0-8b0b-820aace2cb36
Dunn, Rebecca
82dfc0ad-0e55-4973-9361-d72b365ce50c
Jackson, Alan A.
c9a12d7c-b4d6-4c92-820e-890a688379ef
Poston, Lucilla
916aced2-462e-445f-9efa-83ed4b7b3a9f
Hanson, Mark A.
1952fad1-abc7-4284-a0bc-a7eb31f70a3f
Torrens, Christopher
15a35713-0651-4249-8227-5901e2cfcd22
Brawley, Lee
acce4d5e-03c8-48da-b391-45fbc1b384b1
Anthony, Frederick W.
28a46159-500c-48fe-8c55-ef57e034cbeb
Dance, Caroline S.
de75285d-5f4a-4bb0-8b0b-820aace2cb36
Dunn, Rebecca
82dfc0ad-0e55-4973-9361-d72b365ce50c
Jackson, Alan A.
c9a12d7c-b4d6-4c92-820e-890a688379ef
Poston, Lucilla
916aced2-462e-445f-9efa-83ed4b7b3a9f
Hanson, Mark A.
1952fad1-abc7-4284-a0bc-a7eb31f70a3f

Torrens, Christopher, Brawley, Lee, Anthony, Frederick W., Dance, Caroline S., Dunn, Rebecca, Jackson, Alan A., Poston, Lucilla and Hanson, Mark A. (2006) Folate supplementation during pregnancy improves offspring cardiovascular dysfunction Induced by protein restriction. Hypertension, 47 (5), 982-987. (doi:10.1161/01.HYP.0000215580.43711.d1).

Record type: Article

Abstract

Dietary protein restriction in the rat compromises the maternal cardiovascular adaptations to pregnancy and leads to raised blood pressure and endothelial dysfunction in the offspring. In this study we have hypothesized that dietary folate supplementation of the low-protein diet will improve maternal vascular function and also restore offspring cardiovascular function. Pregnant Wistar rats were fed either a control (18% casein) or protein-restricted (9% casein) diet +/-5 mg/kg folate supplement. Function of isolated maternal uterine artery and small mesenteric arteries from adult male offspring was assessed, systolic blood pressure recorded, and offspring thoracic aorta levels of endothelial nitric oxide (NO) synthase mRNA measured. In the uterine artery of late pregnancy dams, vasodilatation to vascular endothelial growth factor was attenuated in the protein-restricted group but restored with folate supplementation, as was isoprenaline-induced vasodilatation (P<0.05). In male offspring, protein restriction during pregnancy led to raised systolic blood pressure (P<0.01), impaired acetylcholine-induced vasodilatation (P<0.01), and reduced levels of endothelial NO synthase mRNA (P<0.05). Maternal folate supplementation during pregnancy prevented this elevated systolic blood pressure associated with a protein restriction diet. With folate supplementation, endothelium-dependent vasodilatation and endothelial NO synthase mRNA levels were not significantly different from either the control or protein-restricted groups. Maternal folate supplementation of the control diet had no effect on blood pressure or vasodilatation. This study supports the hypothesis that folate status in pregnancy can influence fetal development and, thus, the risks of cardiovascular disease in the next generation. The concept of developmental origins of adult disease focuses predominately on fetal life but must also include a role for maternal cardiovascular function.

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Published date: May 2006
Related URLs:
Keywords: acid, adult, animals, newborn, arteries, blood, blood pressure, cardiovascular disease, cardiovascular diseases, diet, protein-restricted, disease, drug effects, endothelium, vascular, etiology, female, fetal, fetal development, folic acid, growth, health, hypothesis, male, nitric oxide, pharmacology, physiopathology, pregnancy, pregnancy complications, cardiovascular, pressure, protein, rats, wistar, research support, non-U.S.Gov't, risk, vasodilation, vitamin b complex

Identifiers

Local EPrints ID: 44248
URI: http://eprints.soton.ac.uk/id/eprint/44248
DOI: doi:10.1161/01.HYP.0000215580.43711.d1
ISSN: 0194-911X
PURE UUID: 04a24899-797e-4fbc-8a86-f54c50531b57
ORCID for Mark A. Hanson: ORCID iD orcid.org/0000-0002-6907-613X

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Date deposited: 20 Feb 2007
Last modified: 16 Mar 2024 03:17

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Contributors

Author: Christopher Torrens
Author: Lee Brawley
Author: Frederick W. Anthony
Author: Caroline S. Dance
Author: Rebecca Dunn
Author: Alan A. Jackson
Author: Lucilla Poston
Author: Mark A. Hanson ORCID iD

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