ESPE Abstracts

Introduction: Thyroid hormones regulate body composition and metabolism, and are among the key drivers of body growth and maturation. In children, associations of cardio-metabolic measures with the circulating prohormone thyroxine (T4) have been extensively studied, but not with active triiodothyronine (T3). In apparently healthy children, we studied whether circulating free T3 (fT3) [and its ratio with free T4 (fT3/fT4)] associates with cardio-metabolic measu...

Background and aims: Studies in adults and experimental animals suggest an inverse and bidirectional relationship between cognitive abilities and obesity. Clinical studies on cognition and obesity in children are scarce and methodologically heterogeneous. Indeed, various factors related to obesity including diet, physical activity, socioeconomic status and maternal obesity can affect neuropsychological development. We aimed to study the cognitive function in s...

Introduction and objectives: Imprinted genes have been broadly related to prenatal growth regulation. PEG10 is a maternally imprinted gene involved in cellular proliferation that is mainly expressed in the placenta and in some adult tissues. In mice, mutations in this gene have been related to growth restriction of both the embryo and the placenta. Nevertheless, its role in postnatal growth has not yet been established. We aimed to study prospectively the rela...

Background and Objectives: Offspring born to obese mothers are at an increased risk of chronic disease including type 2 diabetes (T2D), obesity, hypertension, cardiovascular disease (CVD), non-alcoholic fatty liver disease (NAFLD) and chronic kidney disease (CKD). This metabolic programming is produced, in part, by epigenetic changes such us DNA methylation. We postulated that obesity exposure impacts the offspring's methylome and used an epigenomic approa...

Background: Accelerated catch-up growth following intrauterine growth restriction increases the risk of developing visceral adiposity and metabolic syndrome. Animal models of growth restriction during gestation have been developed as a powerful tool to provide insight into the underlying molecular mechanisms thereof.Objective: To analyze the patterns of gene expression in the retroperitoneal adipose tissue of rats with i...

Background: The C19MC locus microRNA gene cluster is imprinted in the placenta. Imprinted genes control prenatal development and placental functions, and are epigenetically regulated. The factors that affect the DNA methylation status of C19MC regulatory region are unknown, as is the impact of this differential methylation on the offspring’s body size.Objectives: To study in humans 1) the association of placental C19MC DNA...

Background and Aim: IRS1 (Insulin Receptor Substrate 1) is involved in the insulin signalling pathway and abnormalities thereof have been related to metabolic disorders and obesity. In obese subjects, insulin resistance has been associated with changes in IRS1 expression in peripheral in blood. Sex-based differences in cardiovascular disease are well established. Previous results from our group disclosed the association between IRS1 placental methylation with ...

Introduction and aims: MEST (Mesoderm-specific transcript), a candidate gene for Silver-Russell syndrome, is a paternally expressed imprinted gene that positively regulates foetal growth. MEST has also been shown to promote adipose tissue expansion in conditions of positive energy balance. In this context, our objective was to study the possible relationship between placental MEST gene expression and postnatal growth and obesity para...

Introduction: Klotho is an anti-aging protein that reduces adiposity and increases caloric expenditure, among others. Although associations between secreted α-Klotho levels and obesity have been described, its relationship with central obesity and visceral fat accumulation during childhood is poorly understood. Our objective was to study the longitudinal associations between serum α-Klotho concentrations and obesity parameters in apparently healthy...

Introduction: The CCDC3 gene encodes for a protein expressed in endothelial cells and adipose tissue. Insulin increases its expression and, in turn, CCDC3 positively regulates adipogenesis and lipid accumulation. CCDC3 expression is increased in visceral adipose tissue from subjects with obesity. Gestational obesity can modify the metabolic programming in the offspring through epigenetic mechanisms. However, it is unknown whether the...