Animal Sciences Commons^™

Postnatal Nutrient Repartitioning Due To Adaptive Developmental Programming, Robert J. Posont, Dustin T. Yates

Department of Animal Science: Faculty Publications

The consequences of prenatal stress on lifelong metabolic function and health was first proposed by David Barker and Nicholas Hales with the publication of their Thrifty Phenotype Hypothesis in the early 1990s.1,2 Subsequent studies in humans and animals have further demonstrated that stress-induced adaptive fetal programming leads to tissue-specific changes in metabolic function and growth capacity.3,4 Developmental adaptations to the intrauterine nutrient restriction that accompanies most maternofetal stressors target regulatory pathways for nutrient utilization in non-essential tissues such as skeletal muscle.4-6 This aids intrauterine survival by re-appropriating nutrients to support neural, cardiac, and endocrine tissue function but reduces metabolic efficiency …

Real Supermodels Wear Wool: Summarizing The Impact Of The Pregnant Sheep As An Animal Model For Adaptive Fetal Programming, Kristin A. Beede, Sean W. Limesand, Jessica L. Petersen, Dustin T. Yates

Department of Animal Science: Faculty Publications

• Intrauterine growth restriction (IUGR) continues to be a global epidemic that is associated with high early-life mortality rates and greater risk for developing metabolic disorders that lower length and quality of life in affected individuals.

• Fetal programming of muscle growth and metabolic function associated with IUGR is often comparable among nonlitter bearing mammalian species, which allows much of the information learned in domestic animal models to be applicable to humans (and other animals).

• Recent studies in sheep models of IUGR have begun to uncover the molecular mechanisms linking adaptive fetal programming and metabolic dysfunction.

• Targets of …