It has been well documented that fetal programming, caused by changes to the maternal environment during pregnancy, can impact the overall health and growth of the offspring in livestock and non-livestock species alike. These effects are observed in the F1 offspring as well as across subsequent generations; however, the mechanisms by which this occurs are still poorly understood. Epigenetics is one of the many mechanisms that is hypothesized to have a role in fetal programming and may be mediating the observed effects across multiple generations. It has been demonstrated by others that DNA methylation patterns can be altered by an individuals’ diet and that the pancreas is vulnerable to the effects of fetal programming. Therefore, we evaluated the effects of poor maternal nutrition during gestation on the pancreas tissue of lambs. We have demonstrated that maternal under- or overnutrition during gestation alters the DNA methylation patterns of the offspring pancreas tissue with these effects being diet dependent and sex specific. We have also begun evaluating the effects of maternal diet in murine models using whole-genome bisulfite sequencing to compare species differences and determine if there are any changes conserved across species. This will allow us to focus on a smaller number of critical factors in individuals as they age and across multiple generations in livestock species such as sheep and cattle. From these data we will be able to elucidate the role DNA methylation has in mediating the effects of maternal programming in the pancreas tissue.
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