Alterations in the insulin/IGF signal in placenta and fetal brain as a risk factor for neurodevelopmental disorders: a targeted transcriptomic approach in a mouse model of maternal obesity
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Rossella Ventura | Aggiungi Tutor di riferimento (Professore o Ricercatore afferente allo stesso Dipartimento del Proponente) |
Obesity is a risk factor for non-communicable diseases (e.g. cardiovascular diseases, diabetes, cancer) and its consequences are even worse in pregnant women. Indeed, obesity during pregnancy not only predisposes the mother to a multitude of obstetrical complications, but can also contribute to create a suboptimal intrauterine environment for the fetus, increasing individual vulnerability to disease. Many studies indicate an association between maternal obesity and neurodevelopmental disorders, including autism spectrum disorders, mood disorders and cognitive deficits. However, the mechanisms underlying these long-term negative effects still need to be elucidated. During ontogeny, many biological systems cooperate in order to ensure the proper development of the brain: the occurrence of maternal obesity during sensitive developmental periods could perturb the metabolic homeostasis with harmful consequences for fetal brain. The insulin/insulin-like growth factor (IGF) signaling pathway plays a crucial role in neurodevelopmental processes including neurogenesis, synaptogenesis and neuronal differentiation. Alterations in the functionality of this axis may be responsible for the negative effects of maternal obesity on fetal brain development. Moreover, the insulin/IGF system is expressed in the placenta, modulating the amount of glucose and insulin reaching the fetus, and this is possibly interconnected with the functionality of the insulin/IGF system in fetal brain. This study hypothesizes that maternal obesity might alter the expression of placental genes involved in the insulin/IGF system, negatively affecting the fetal brain. I will assess the gene expression of IGF1, IGF2, IGF binding proteins, insulin receptors and IGF receptors in placenta and fetal brain to verify the role of this system in an animal model of maternal obesity. This study will deliver biomarkers from the placenta as a tool to evaluate risks for neurodevelopmental disorders early following birth.