RESUMO
Altered nutrition or intrauterine exposure to various adverse conditions during fetal development or earlier in a mother's life can lead to epigenetic changes in fetal tissues, predisposing those tissues to diseases that manifest when offspring become adults. An example is a maternal obesity associated with gestational diabetes (GDM), where fetal exposure to a hyperglycemic, hyperinsulinemic, and/or hyperlipidemic gestational environment can provoke epigenetic changes that predispose offspring to various diseased conditions later in life. While it is now well established that offspring exposed to GDM have an increased risk of developing obesity, metabolic disorders, and/or cardiovascular disease in adult life, there are limited studies assessing the reproductive health of these offspring. This mini-review discusses the long-term effect of in utero exposure to GDM-associated adverse prenatal environment on the reproductive health of the offspring. Moreover, using evidence from various animal models and human epidemiological studies, this review offers molecular insight and understanding of how epigenetic reprogramming of genes culminates in reproductive dysfunction and the development of subfertility or infertility later in adult life.
Assuntos
Diabetes Gestacional/fisiopatologia , Infertilidade/etiologia , Efeitos Tardios da Exposição Pré-Natal/fisiopatologia , Animais , Diabetes Gestacional/patologia , Feminino , Fertilidade/fisiologia , Humanos , Infertilidade/embriologia , Mães , Gravidez , Efeitos Tardios da Exposição Pré-Natal/etiologia , Útero/patologia , Útero/fisiologiaRESUMO
We developed a novel bath-immersion technology to produce large numbers of infertile fish. As seafood consumption shifts from fishery harvests towards artificially propagated species, optimization of aquaculture practices will be necessary to maximize food production and minimize ecological impact. Farming infertile fish is the most effective genetic-containment strategy to support the development of environmentally-responsible aquaculture. We discovered that a molecular transporter, Vivo, can effectively carry the Morpholino oligomer (MO) across the chorion, enter the embryo and reach target cells. Vivo-conjugated MO against zebrafish deadend (dnd-MO-Vivo) effectively caused primordial germ cell mis-migration and differentiation into somatic cells, which resulted in generation of infertile fish. Optimal conditions were achieved when embryos, immediately after fertilization, were immersed with dnd-MO-Vivo at the initial concentration of either 60 or 40 µM followed by a lower serially diluted concentration. Under these conditions, 100% induced sterility was achieved even when the total immersion time was reduced from 24 to 5 hours. In 8 independent experiments, 736 adults developed from these conditions were all found to be infertile fish that possessed minimally-developed gonads that lacked any gametes. The results demonstrate that dnd-MO-Vivo bath immersion is an effective strategy to produce infertile fish without introducing transgenic modifications.