Fetal metabolic programming and epigenetic modifications: a systems biology approach.

SOOKOIAN S; FERNADEZ GIANNOTTI T; BURGUEÑO A,; PIROLA CJ

PEDIATRIC RESEARCH

INT PEDIATRIC RESEARCH FOUNDATION, INC

Lugar: The Woodlands, Texas; Año: 2013 p. 1 - 12

0031-3998

A growing body of evidence supports the notion that epigenetic changes, such as DNA methylation and histone modifications, both involving chromatin remodeling, contribute to fetal metabolic programming. We use a combination of gene-protein enrichment analysis resources, along with functional annotations and protein interaction networks for an integrative approach to understand the mechanisms underlying fetal metabolic programming. Systems biology approaches suggested that fetal adaptation to an impaired nutritional environment presumes profound changes in gene expression that involve regulation of tissue-specific patterns of methylated cytosine residues, modulation of the histone acetylation-deacetylation switch, cell differentiation and stem cell pluripotency. Hypothalamus and liver seem to be differently involved. In addition, new putative explanations emerged about the question of whether in utero overnutrition modulates fetal metabolic programming in the same fashion as that of a maternal environment of undernutrition, suggesting that the mechanisms behind these two fetal nutritional imbalances are different. In conclusion, intrauterine growth restriction is most likely to be associated with the induction of persistent changes in tissue structure and functionality. Conversely, a maternal obesogenic environment is most probably associated with metabolic reprogramming of glucose and lipid metabolism, and future risk of metabolic syndrome, fatty liver and insulin resistance.Pediatric Research (2013); doi:10.1038/pr.2013.2.