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Project

Maternale obesitas en "fetal programming": de gevolgen voor de voortplantingsfysiologie van de nakomelingen.

A disturbed maternal metabolism like in obesity or type II diabetes has clearly been associated with disappointing fertility. We extensively showed that such metabolic disorders have direct effects on the micro-environment of the growing and maturing oocyte, ultimately leading to reduced oocyte and embryo quality. Obesity is a global health threatening problem and recent studies indicated that maternal obesity may result in significant health issues in the offspring. More in depth mechanistic research clearly pointed out the importance of uterine programming in early pregnancy. It is not known however whether the metabolic status of obesity as such and/or potential direct effects of the typical fat rich western type diet are responsible for these observations. Based on the epidemiological relevance of obesity and hypercholesterolemia we hypothesize that obesity or an obesogenic diet of the mother around conception or during the entire pregnancy will alter the micro-environment of the growing embryo and fetus. This will change uterine programming ultimately leading to compromised offspring's health and reproductive physiology. To systematically investigate this hypothesis, we will feed female LDLR knock-out mice (LDLR-/-) an obesogenic diet A) several weeks before conception resulting in maternal obesity at conception or B) solely around conception or C) throughout the entire pregnancy. The offspring will be cross-fostered upon birth and will be used to study the general health of the offspring, the ovarian follicular reserve and the process of folliculo- and oogenesis, the offspring's pre-implantation embryo physiology and gene expression pattern and the receptivity of the offspring's uterus to support full pregnancy resulting in healthy offspring. By using this strategic experimental model we will be able to find the most sensitive window during pregnancy for uterine programming of reproduction, and it allows us to study the effects on every specific step on reproductive functioning. We believe that this project proposal may significantly contribute to the concept of "Developmental Origin of Health and Fertility" by further spreading the knowledge that epigenetic effects of maternal metabolism and diet may jeopardize health but also fertility in the offspring.
Date:1 Oct 2018 →  30 Sep 2022
Keywords:EPIGENETICS, METABOLIC HEALTH, POSTNATAL HEALTH
Disciplines:Animal biology, General biology, Genetics, Gynaecology and obstetrics, Molecular and cell biology, Morphological sciences, Veterinary medicine