Excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.

Excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.

Hypertension is common and contributes, via cardiovascular disease, towards a large proportion of adult deaths in the Western World. High salt intake leads to high blood pressure, even when occurring prior to birth - a mechanism purported to reside in altered kidney development and later function. U...

Full description

Bibliographic Details
Main Authors: Clint Gray, Emad A Al-Dujaili, Alexander J Sparrow, Sheila M Gardiner, Jim Craigon, Simon J M Welham, David S Gardner
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3749995?pdf=render
id doaj-17723dfab42a42598dcf07fae105e07e
record_format Article
spelling doaj-17723dfab42a42598dcf07fae105e07e2020-11-25T02:52:25ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0188e7268210.1371/journal.pone.0072682Excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.Clint GrayEmad A Al-DujailiAlexander J SparrowSheila M GardinerJim CraigonSimon J M WelhamDavid S GardnerHypertension is common and contributes, via cardiovascular disease, towards a large proportion of adult deaths in the Western World. High salt intake leads to high blood pressure, even when occurring prior to birth - a mechanism purported to reside in altered kidney development and later function. Using a combination of in vitro and in vivo approaches we tested whether increased maternal salt intake influences fetal kidney development to render the adult individual more susceptible to salt retention and hypertension. We found that salt-loaded pregnant rat dams were hypernatraemic at day 20 gestation (147±5 vs. 128±5 mmoles/L). Increased extracellular salt impeded murine kidney development in vitro, but had little effect in vivo. Kidneys of the adult offspring had few structural or functional abnormalities, but male and female offspring were hypernatraemic (166±4 vs. 149±2 mmoles/L), with a marked increase in plasma corticosterone (e.g. male offspring; 11.9 [9.3-14.8] vs. 2.8 [2.0-8.3] nmol/L median [IQR]). Furthermore, adult male, but not female, offspring had higher mean arterial blood pressure (effect size, +16 [9-21] mm Hg; mean [95% C.I.]. With no clear indication that the kidneys of salt-exposed offspring retained more sodium per se, we conducted a preliminary investigation of their gastrointestinal electrolyte handling and found increased expression of proximal colon solute carrier family 9 (sodium/hydrogen exchanger), member 3 (SLC9A3) together with altered faecal characteristics and electrolyte handling, relative to control offspring. On the basis of these data we suggest that excess salt exposure, via maternal diet, at a vulnerable period of brain and gut development in the rat neonate lays the foundation for sustained increases in blood pressure later in life. Hence, our evidence further supports the argument that excess dietary salt should be avoided per se, particularly in the range of foods consumed by physiologically immature young.http://europepmc.org/articles/PMC3749995?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Clint Gray
Emad A Al-Dujaili
Alexander J Sparrow
Sheila M Gardiner
Jim Craigon
Simon J M Welham
David S Gardner
spellingShingle Clint Gray
Emad A Al-Dujaili
Alexander J Sparrow
Sheila M Gardiner
Jim Craigon
Simon J M Welham
David S Gardner
Excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.
PLoS ONE
author_facet Clint Gray
Emad A Al-Dujaili
Alexander J Sparrow
Sheila M Gardiner
Jim Craigon
Simon J M Welham
David S Gardner
author_sort Clint Gray
title Excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.
title_short Excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.
title_full Excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.
title_fullStr Excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.
title_full_unstemmed Excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.
title_sort excess maternal salt intake produces sex-specific hypertension in offspring: putative roles for kidney and gastrointestinal sodium handling.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Hypertension is common and contributes, via cardiovascular disease, towards a large proportion of adult deaths in the Western World. High salt intake leads to high blood pressure, even when occurring prior to birth - a mechanism purported to reside in altered kidney development and later function. Using a combination of in vitro and in vivo approaches we tested whether increased maternal salt intake influences fetal kidney development to render the adult individual more susceptible to salt retention and hypertension. We found that salt-loaded pregnant rat dams were hypernatraemic at day 20 gestation (147±5 vs. 128±5 mmoles/L). Increased extracellular salt impeded murine kidney development in vitro, but had little effect in vivo. Kidneys of the adult offspring had few structural or functional abnormalities, but male and female offspring were hypernatraemic (166±4 vs. 149±2 mmoles/L), with a marked increase in plasma corticosterone (e.g. male offspring; 11.9 [9.3-14.8] vs. 2.8 [2.0-8.3] nmol/L median [IQR]). Furthermore, adult male, but not female, offspring had higher mean arterial blood pressure (effect size, +16 [9-21] mm Hg; mean [95% C.I.]. With no clear indication that the kidneys of salt-exposed offspring retained more sodium per se, we conducted a preliminary investigation of their gastrointestinal electrolyte handling and found increased expression of proximal colon solute carrier family 9 (sodium/hydrogen exchanger), member 3 (SLC9A3) together with altered faecal characteristics and electrolyte handling, relative to control offspring. On the basis of these data we suggest that excess salt exposure, via maternal diet, at a vulnerable period of brain and gut development in the rat neonate lays the foundation for sustained increases in blood pressure later in life. Hence, our evidence further supports the argument that excess dietary salt should be avoided per se, particularly in the range of foods consumed by physiologically immature young.
url http://europepmc.org/articles/PMC3749995?pdf=render
work_keys_str_mv AT clintgray excessmaternalsaltintakeproducessexspecifichypertensioninoffspringputativerolesforkidneyandgastrointestinalsodiumhandling
AT emadaaldujaili excessmaternalsaltintakeproducessexspecifichypertensioninoffspringputativerolesforkidneyandgastrointestinalsodiumhandling
AT alexanderjsparrow excessmaternalsaltintakeproducessexspecifichypertensioninoffspringputativerolesforkidneyandgastrointestinalsodiumhandling
AT sheilamgardiner excessmaternalsaltintakeproducessexspecifichypertensioninoffspringputativerolesforkidneyandgastrointestinalsodiumhandling
AT jimcraigon excessmaternalsaltintakeproducessexspecifichypertensioninoffspringputativerolesforkidneyandgastrointestinalsodiumhandling
AT simonjmwelham excessmaternalsaltintakeproducessexspecifichypertensioninoffspringputativerolesforkidneyandgastrointestinalsodiumhandling
AT davidsgardner excessmaternalsaltintakeproducessexspecifichypertensioninoffspringputativerolesforkidneyandgastrointestinalsodiumhandling
_version_ 1724730198649208832

Similar Items