Seeking genes responsible for developmental origins of health and disease from the fetal mouse liver following maternal food restriction [Expression]
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ABSTRACT: Non-optimal fetal environments resulting in low birth weight have epidemiologically been associated with adult diseases. In animal models, maternal undernutrition has successfully demonstrated increased risks for adult diseases. In the present study, we treated pregnant mice with 50% food restriction (FR), and performed global gene expression and promotor DNA methylation profiling on the fetal livers. Considering that effects of food restriction is opposite between before and after birth, we further searched genes which are regulated oppositely against adult calorie restriction and commonly against aging. Searched genes were included in groups related to the immune system, obesity and heart disease. Among these genes, trib1 has already been demonstrated to contribute to an increased risk of cardiovascular disease. The present result suggests that trib1 is a target of DOHaD. In addition, lepr was also dow-regulaed by maternal FR, suggested a potential role of this gene in induction of obesity. Promotor DNA methylation profiling as well as gene expression profiling revealed glucocorticoid target genes were regulated by maternal FR, supported previous reports suggesting important role of glucocorticoid in DOHaD.
ORGANISM(S): Mus musculus
PROVIDER: GSE49964 | GEO | 2013/08/20
SECONDARY ACCESSION(S): PRJNA215709
REPOSITORIES: GEO
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