Κυριακή 15 Ιανουαρίου 2017

Late gestational intermittent hypoxia induces metabolic and epigenetic changes in male adult offspring mice

Abstract

Pregnancy, particularly late gestation, has been associated with a relatively high prevalence of obstructive sleep apnea (OSA). Intermittent hypoxia (IH), a hallmark of OSA, could impose significant long-term effects on somatic growth, energy homeostasis, and metabolic function in offspring. We hypothesized that IH during late pregnancy (LG-IH) may increase the propensity for metabolic dysregulation and obesity in adult offspring via epigenetic modifications. Time-pregnant female C57BL/6 mice were exposed to LG-IH or room air (LG-RA) during days 13–18 of gestation. At 24 weeks, blood samples were collected from offspring mice for lipid profiles and insulin resistance (HOMA-IR), indirect calorimetry was performed, and visceral white adipose tissues (VWAT) were assessed for inflammatory cells as well as for differentially methylated gene regions (DMR) using MeDIP-Chip. Body weight, food intake, adiposity index, fasting insulin, triglycerides, and cholesterol levels were all significantly higher in LG-IH male but not female offspring. LG-IH also altered metabolic expenditure and locomotor activities in male offspring, and increased number of pro-inflammatory macrophages emerged in VWAT along with 1520 DMRs (< 0.0001), associated with 693 genes. Pathway analyses showed that genes affected by LG-IH were mainly associated with molecular processes related to metabolic regulation and inflammation. LG-IH induces metabolic dysfunction as reflected by increased body weight and adiposity index in adult male offspring that is paralleled by epigenomic alterations and inflammation in VWAT. Thus, perturbations to fetal environment by OSA during pregnancy can therefore have long-term detrimental effects to the fetus, and lead to persistent metabolic dysfunction in adulthood.

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