An Insulin-Like Growth Factor-I Receptor Defect Associated with Short Stature and Impaired Carbohydrate Homeostasis in an Italian Pedigree

Mutations in the insulin-like growth factor-I (IGF-I) receptor (IGF1R) have been associated with prenatal and postnatal growth retardation. However, little is known about potential effects of mutations in the IGF1R on carbohydrate homeostasis. Methods: We investigated clinical, endocrine and metabolic parameters in four family members carrying a novel IGF1R mutation (p.Tyr387X): an 18-year-old male (index case), his sister and two paternal aunts. Results: All family members showed a variable degree of impairment in prenatal growth, with birth weight standard deviation scores (SDS) between –1.65 and –2.37 and birth length SDS between –1.78 and –3.08. Their postnatal growth was also impaired, with height SDS between –1.75 and –4.86. The index case presented high IGF-I levels during childhood and adolescence and delayed bone age. The index case and his two paternal aunts had impaired glucose tolerance (IGT) associated with a variable degree of alterations in insulin sensitivity and secretion. In contrast, the index case’s sister, who had had IGT during pregnancy, showed normal glucose metabolism but reduced insulin sensitivity. Conclusion: This is the first study showing an association between a novel IGF1R mutation and a variable degree of alterations in prenatal and postnatal growth and in carbohydrate metabolism

Plasma from pre-pubertal obese children impairs insulin stimulated Nitric Oxide (NO) bioavailability in endothelial cells: Role of ER stress.

Childhood obesity is commonly associated with early signs of endothelial dysfunction, characterized by impairment of insulin signaling and vascular Nitric Oxide (NO) availability. However, the underlying mechanisms remain to be established. Hence, we tested the hypothesis that endothelial insulin-stimulated NO production and availability was impaired and related to Endoplasmic Reticulum (ER) in human umbilical vein endothelial cells (HUVECs) cultured with plasma obtained from pre-pubertal obese (OB) children. OB children (N = 28, age: 8.8 ± 2.2; BMI z-score: 2.15 ± 0.39) showed impaired fasting glucose, insulin and HOMA-IR than normal weight children (CTRL; N = 28, age: 8.8 ± 1.7; BMI z-score: 0.17 ± 0.96). The in vitro experiments showed that OB-plasma significantly impaired endothelial insulin-stimulated NO production and bioavailability compared to CTRL-plasma. In parallel, in HUVECs OB-plasma increased GRP78 and activated PERK, eIF2α, IkBα and ATF6 (all ER stress markers). Moreover, OB-plasma increased NF-κB activation and its nuclear translocation. Notably, all these effects proved to be significantly restored by using PBA and TUDCA, known ER stress inhibitors. Our study demonstrate for the first time that plasma from obese children is able to induce in vitro endothelial insulin resistance, which is characterized by reduced insulin-stimulated NO production and bioavailability, endothelial ER stress and increased NF-κB activation

A registry for Dravet syndrome: The Italian experience

Objectives: We describe the Residras registry, dedicated to Dravet syndrome (DS) and to other phenotypes related to SCN1A mutations, as a paradigm of registry for rare and complex epilepsies. Our primary objectives are to present the tools and framework of the integrative platform, the main characteristics emerging from the patient cohort included in the registry, with emphasis on demographic, clinical outcome, and mortality. / Methods: Standardized data of enrolled pediatric and adult patients were collected in 24 Italian expert centers and regularly updated at least on a yearly basis. Patients were prospectively enrolled, at registry starting, but historical retrospective data were also included. / Results: At present, 281 individuals with DS and a confirmed SCN1A mutation are included. Most patients have data available on epilepsy (n = 263) and their overall neurological condition (n = 255), based on at least one follow-up update. Median age at first clinical assessment was 2 years (IQR 0–9) while at last follow-up was 11 years (IQR 5–18.5). During the 7-year activity of the registry, five patients died resulting in a mortality rate of 1.84 per 1000-person-years. When analyzing clinical changes over the first 5-year follow-up, we observed a significant difference in cognitive function (P < 0.001), an increased prevalence of behavioral disorders including attention deficit (P < 0.001), a significant worsening of language (P = 0.001), and intellectual disability (P < 0.001). / Significance: The Residras registry represents a large collection of standardized national data for the DS population. The registry platform relies on a shareable and interoperable framework, which promotes multicenter high-quality data collection. In the future, such integrated platform may represent an invaluable asset for easing access to cohorts of patients that may benefit from clinical trials with emerging novel therapies, for drug safety monitoring, and for delineating natural history. Its framework makes it improvable based on growing experience with its use and easily adaptable to other rare and complex epilepsy syndromes

An Insulin-Like Growth Factor-I Receptor Defect Associated with Short Stature and Impaired Carbohydrate Homeostasis in an Italian Pedigree

Mutations in the insulin-like growth factor-I (IGF-I) receptor (IGF1R) have been associated with prenatal and postnatal growth retardation. However, little is known about potential effects of mutations in the IGF1R on carbohydrate homeostasis. Methods: We investigated clinical, endocrine and metabolic parameters in four family members carrying a novel IGF1R mutation (p.Tyr387X): an 18-year-old male (index case), his sister and two paternal aunts. Results: All family members showed a variable degree of impairment in prenatal growth, with birth weight standard deviation scores (SDS) between –1.65 and –2.37 and birth length SDS between –1.78 and –3.08. Their postnatal growth was also impaired, with height SDS between –1.75 and –4.86. The index case presented high IGF-I levels during childhood and adolescence and delayed bone age. The index case and his two paternal aunts had impaired glucose tolerance (IGT) associated with a variable degree of alterations in insulin sensitivity and secretion. In contrast, the index case’s sister, who had had IGT during pregnancy, showed normal glucose metabolism but reduced insulin sensitivity. Conclusion: This is the first study showing an association between a novel IGF1R mutation and a variable degree of alterations in prenatal and postnatal growth and in carbohydrate metabolism

An Insulin-Like Growth Factor-I Receptor Defect Associated with Short Stature and Impaired Carbohydrate Homeostasis in an Italian Pedigree

Mutations in the insulin-like growth factor-I (IGF-I) receptor (IGF1R) have been associated with prenatal and postnatal growth retardation. However, little is known about potential effects of mutations in the IGF1R on carbohydrate homeostasis. Methods: We investigated clinical, endocrine and metabolic parameters in four family members carrying a novel IGF1R mutation (p.Tyr387X): an 18-year-old male (index case), his sister and two paternal aunts. Results: All family members showed a variable degree of impairment in prenatal growth, with birth weight standard deviation scores (SDS) between –1.65 and –2.37 and birth length SDS between –1.78 and –3.08. Their postnatal growth was also impaired, with height SDS between –1.75 and –4.86. The index case presented high IGF-I levels during childhood and adolescence and delayed bone age. The index case and his two paternal aunts had impaired glucose tolerance (IGT) associated with a variable degree of alterations in insulin sensitivity and secretion. In contrast, the index case’s sister, who had had IGT during pregnancy, showed normal glucose metabolism but reduced insulin sensitivity. Conclusion: This is the first study showing an association between a novel IGF1R mutation and a variable degree of alterations in prenatal and postnatal growth and in carbohydrate metabolism

Progression of cardio-metabolic risk factors in subjects born small and large for gestational age.

BACKGROUND:Subjects born small (SGA) and large (LGA) for gestational age have an increased risk of cardio-metabolic alterations already during prepuberty. Nevertheless, the progression of their cardio-metabolic profile from childhood to adolescence has not been fully explored. Our aim was to assess potential changes in the cardio-metabolic profile from childhood to adolescence in subjects born SGA and LGA compared to those born appropriate (AGA) for gestational age. METHODS:This longitudinal study included 35 AGA, 24 SGA and 31 LGA subjects evaluated during childhood (mean age (± SD) 8.4 ± 1.4 yr) and then re-assessed during adolescence (mean age 13.3 ± 1.8 yr). BMI, blood pressure, insulin resistance (fasting insulin, HOMA-IR) and lipids were assessed. A cardio-metabolic risk z-score was applied and this consisted in calculating the sum of sex-specific z-scores for BMI, blood pressure, HOMA-IR, triglycerides and triglycerides:high-density lipoprotein cholesterol ratio. RESULTS:Fasting insulin and HOMA-IR were higher in SGA and LGA than AGA subjects both during childhood (all P<0.01) and adolescence (all P<0.01). Similarly, the clustered cardio-metabolic risk score was higher in SGA and LGA than AGA children (both P<0.05), and these differences among groups increased during adolescence (both P<0.05). Of note, a progression of the clustered cardio-metabolic risk score was observed from childhood to adolescence within SGA and within LGA subjects (both P<0.05). CONCLUSIONS:SGA and LGA subjects showed an adverse cardio-metabolic profile during childhood when compared to AGA peers, with a worsening of this profile during adolescence. These findings indicate an overtime progression of insulin resistance and overall estimated cardiovascular risk from childhood to adolescence in SGA and LGA populations