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Abstract
Amino acids and polyamines are essential for placental and
fetal growth, but little is known about their availability
in the conceptus in response to maternal undernutrition.
We hypothesized that maternal nutrient restriction reduces
concentrations of amino acids and polyamines in the ovine
conceptus. This hypothesis was tested in
nutrient-restricted (NR) ewes between Days 28 and 78
(Experiment 1) and between Days 28 and 135 (Experiment 2)
of gestation. In both Experiments, ewes were assigned
randomly on Day 28 of gestation to a control group fed
100% of National Research Council (NRC) nutrient
requirements and to a NR group fed 50% of NRC
requirements. Every 7 days beginning on Day 28 of
gestation, ewes were weighed and rations adjusted for
changes in body weight. On Day 78 of gestation, blood
samples were obtained from the uterine artery and
umbilical vein for analysis. In Eexperiment 2, NR ewes on
Day 78 of gestation either continued to be fed 50% of NRC
requirements or were realimented to 100% of NRC
requirements until Day 135. Fetal weight was reduced in
NR ewes at both Day 78 (32%) and Day 135 (15%) compared to
controls. Nutritional restriction markedly reduced (P <
0.05) concentrations of total 
-amino acids
(particularly
serine, arginine-family amino acids, and branched-chain
amino acids) and polyamines in maternal and fetal plasma
and in fetal allantoic and amniotic fluids at both mid-
and late gestation. Realimentation of NR ewes increased
(P < 0.05) concentrations of total -amino acids and
polyamines in all the measured compartments, and prevented
intrauterine growth retardation. These novel findings
demonstrate that 50% global nutrient restriction decreases
concentrations of amino acids and polyamines in the ovine
conceptus that could adversely impact key fetal functions.
The results have important implications for understanding
the mechanisms responsible for both intrauterine growth
retardation and developmental origins of adult disease.
Key words:
Pregnancy
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