ESPE Abstracts

Background: Prenatal growth restraint associates with increased oxidative stress – as judged by mitochondrial dysfunction – in pregnancies complicated by preeclampsia or diabetes, but it is uncertain whether this is also the case in uncomplicated pregnancies.Objective and hypotheses: To assess the link between fetal growth restraint and placental mitochondrial dysfunction, as reflected by changes in mitochondrial DNA content and superoxide dism...

Background: Infantile obesity is nowadays a pandemic disease and needs a paediatrician interventional attitude. Since 1990 until 2010 it has trebled and the World Health Organization recommends prevention ‘as soon as possible’ even during the first year of life. A Spanish study (Aladino 2011) stimated the prevalence of overweight in boys as a 26.3% and in girls a 25.9% and the prevalence of obesity as a 22% and a 16.2% respectively. Our aim was to set up a new score ...

Introduction: Maternal caloric restriction during gestation leads to offspring’s metabolic programming through epigenetic changes, which increase the risk of developing cardiovascular diseases in adulthood.Objectives: To study in a swine animal model: i) DNA methylation changes associated with caloric restriction during gestation in the adipose tissue of the offspring; and ii) the reversibility of these changes by metformin treatment.<p class="a...

Background: Early catch-up growth, between birth and age two years, in infants born small-for-gestational-age (SGA) is a risk factor for the development of cardiometabolic diseases in adulthood. The basis and mechanisms underpinning catch-up growth in SGA newborns are unknown.Objectives: We aimed to investigate the catch-up predictive ability of cord blood miRNAs in SGA infants.Methods: MicroRNA PCR Human Panels were used to study ...

Background: The placenta plays a key role in regulating fatty acid (FA) transport from maternal to fetal circulation. An unfavourable FA profile in the placenta, reflecting an inadequate nutritional status during pregnancy, may cause changes in placental DNA methylation and negatively affect fetal growth and metabolic health of the offspring.Objectives: We aimed to study the association of an unfavourable placental FA profile with placental DNA methylati...

Background: DLK1 or PREF1 is an imprinted gene highly expressed from the paternal allele in embryonic tissues and placenta. It has been recently implicated in adipose tissue expansion and diabetes development. The human rs1802710 polymorphism (SNP) in DLK1 gene has been associated with early-onset extreme obesity but its role determining growth is unknown.Objective and hypotheses: To study the preferential paternal transmission...

Background: The phenotypic effects of single nucleotide polymorphisms (SNPs) may depend on their parental origin. PLAGL1 is an imprinted gene expressed from the paternal allele in placenta that is associated with fetal growth, transient neonatal diabetes mellitus and postnatal growth disorders. The mechanisms whereby PLAG1 regulates fetal growth are, however, unknown.Objective and hypotheses: To study if the preferential paternal transm...

Background: Human placenta exhibits a specific miRNA expression pattern. Some of these miRNAs are dysregulated in pregnancy disorders like preeclampsia and intrauterine growth restriction (IUGR), and are potential biomarkers for these pathologies. No studies have been performed in maternal obesity.Objective and hypotheses: (1) Define the placental miRNA profile in pregnant women with: a) pre-pregnancy (preOB) or gestational obesity (gestOB), b) gestation...

Background: The human microbiota has emerged as an unexpected modulator of the immune system. The placenta, long thought to be sterile, harbors a unique microbiome and variations in their composition could be related to prevent pregnancy disorders.Objective and hypotheses: To profile the placental microbiota (microorganisms) and microbiome (collection of microbial genomes in an environment) in women with gestational diabetes (GDM) and study their relatio...

Background: CREB-regulated transcription coactivator 3 (CRTC3) is found in adipocytes where it may promote obesity through disruption of catecholamine signaling. CRTC3 knockout mice are resistant to diet-induced obesity.Objective and Hypotheses: The goals of the present study were i) to assess whether CRTC3 is a soluble protein secreted by adipose tissue ii) to explore whether CRTC3 is detectable and quantifiable in the circulation, and iii) to ...