Association of FTO Polymorphisms with Early Age of Obesity in Obese Italian Subjects

Obesity is recognized as a major health problem worldwide. Genetic factors play a major role in obesity, and genomewide association studies have provided evidence that several common variants within the fat mass- and obesity-associated (FTO) gene are significantly associated with obesity. Very limited data is available on FTO in the Italian population. Aims of our study are to investigate: (1) the association of FTO gene SNPs rs9939609 and rs9930506 with body mass index (BMI) and obesity-related parameters in a large cohort (n = 752) of Italian obese subjects; (2) the association between the two FTO SNPs and age of onset of obesity. Our results demonstrate a strong association between FTO SNPs rs9939609 (P < 0.043) and rs9930506 (P < 0.029) with BMI in the Italian population. FTO rs9930506 was significantly associated with higher BMI in a G allele dose-dependent manner (BMI + 1.4 kg/m2 per G allele). We also observed that the association with BMI of the two FTO variants varied with age, with the carriers of the risk alleles developing an increase in body weight earlier in life. In conclusion, our study further demonstrates a role of the genetic variability in FTO on BMI in a large Italian population

Association of FTO Polymorphisms with Early Age of Obesity in Obese Italian Subjects

Obesity is recognized as a major health problem worldwide. Genetic factors play a major role in obesity, and genomewide association studies have provided evidence that several common variants within the fat mass-and obesity-associated (FTO) gene are significantly associated with obesity. Very limited data is available on FTO in the Italian population. Aims of our study are to investigate: (1) the association of FTO gene SNPs rs9939609 and rs9930506 with body mass index (BMI) and obesity-related parameters in a large cohort (n = 752) of Italian obese subjects; (2) the association between the two FTO SNPs and age of onset of obesity. Our results demonstrate a strong association between FTO SNPs rs9939609 (P &lt; 0.043) and rs9930506 (P &lt; 0.029) with BMI in the Italian population. FTO rs9930506 was significantly associated with higher BMI in a G allele dose-dependent manner (BMI + 1.4 kg/m 2 per G allele). We also observed that the association with BMI of the two FTO variants varied with age, with the carriers of the risk alleles developing an increase in body weight earlier in life. In conclusion, our study further demonstrates a role of the genetic variability in FTO on BMI in a large Italian population

Una congettura di Fröberg

In questa tesi presentiamo una famosa congettura di Algebra Commutativa, enunciata da Ralf Fröberg nel 1985, nel contesto della teoria delle serie di Hilbert di quozienti omogenei dell'anello dei polinomi. Introduciamo, dapprima, la sua formulazione originale e dimostriamo poi l'equivalenza con l'enunciato con cui è più comunemente nota. Vediamo, in seguito, gli enunciati equivalenti formulati da Pardue e come, grazie ad essi, si possa dimostrare il legame tra la Congettura di Fröberg e un'altra congettura, dovuta a Moreno-Socías

Etude des cellules exprimantes Musashi1 et de la fonction de Musashi1 dans la physiopathologie intestinale de la souris

L’épithélium intestinal est une monocouche de cellules qui tapisse la lumière intestinale, constitué d’un compartiment différencié, les villosités dans l’intestin grêle et les plateaux épithéliaux dans le colon, et d’un compartiment prolifératif, les cryptes de Lieberkühn. Ce tissue se renouvelle de façon rapide et continue tout au long de la vie de l’individu, grâce à la présence de cellules souches adultes dans le fond des cryptes. Ces cellules s’autorenouvellent et donnent naissance à des progéniteurs prolifératifs (capables d’engendrer les différents cytotypes épithéliaux) qui se différencient tout en migrant vers le compartiment différencié. Mon travail de these a porté sur l’étude d’une marqueur putatif de ces cellules souches épithéliales intestinales: Musashi1 (Msi1).Dans ce contexte, mon premier axe d’étude s’est focalisé sur l’isolement et la caractérisation des cellules souches épithéliales intestinales chez la souris. Pour cela, nous avons généré des souris transgéniques exprimant la protéine fluorescente GFP sous le contrôle du promoteur de Msi1. Les cellules souches intestinales de ces souris coexpriment donc Msi1 et la GFP. Ce modèle a été validé et nous à permis de isoler les cellules GFP/Msi1 positives dans l’intestin. A l'aide de différentes approches cellulaires et moléculaires, nous avons confirmé leur nature de cellules souches et nous avons apporté des nouvelles données sur la composition de la zone proliférative de l’épithélium intestinal murin.Le second axe de mes travaux de thèse a porté sur l’étude de la fonction de Msi1 dans l'homéostasie de l’épithélium intestinal chez la souris, par son sur-expression tous au long de l’épithélium. Nous avons montré que la sur-expression de cette protéine, qui est un régulateur des voies Wnt et Notch, perturbe l’architecture intestinale, a propriétés pro-prolifératives et un potentiel tumorigènique.The intestinal epithelium is a monolayer of cells surrounding the intestinal lumen. It consists of a differentiated compartment, the villi in the small intestine and a flat surface in the colon, and a proliferative compartment, the crypts of Lieberkühn. This tissue self-renews rapidly and continuously throughout life, due to the presence of adult stem cells in the bottom of the crypts. These cells are capable of self-renewing and give rise to proliferating progenitors (capable of generating all the different epithelial cytotypes) that differentiate and migrate toward the differentiated compartment. My thesis focused on the study of the intestinal epithelial stem cells marker Musashi1 (Msi1).In this context, the first part of my thesis work focused on the isolation and characterization of the intestinal epithelial stem cells that express Msi1 in the mouse. For this, we generated transgenic mice expressing the fluorescent protein GFP under the control of the promoter of Msi1. The intestinal stem cells of these mice co-express Msi1 and GFP. This model has been validated and allowed us to isolate GFP+/Msi-expressing cells in the intestine. By using different cellular and molecular approches, we confirmed their nature of stem cells and provided new data on the composition of the proliferative zone in the murine intestinal epithelium.The second part of my thesis has focused on the study of the function of Msi1 in the intestinal epithelium homeostasis in the mouse, by its over- and ectopic expression all along the epithelium. We have shown that the over-expression of this protein, which is a regulator of the Wnt and Notch pathways, perturbs the intestinal architecture, has pro-proliferative properties and tumorigenic potential

Etude des cellules exprimantes Musashi1 et de la fonction de Musashi1 dans la physiopathologie intestinale de la souris

L épithélium intestinal est une monocouche de cellules qui tapisse la lumière intestinale, constitué d un compartiment différencié, les villosités dans l intestin grêle et les plateaux épithéliaux dans le colon, et d un compartiment prolifératif, les cryptes de Lieberkühn. Ce tissue se renouvelle de façon rapide et continue tout au long de la vie de l individu, grâce à la présence de cellules souches adultes dans le fond des cryptes. Ces cellules s autorenouvellent et donnent naissance à des progéniteurs prolifératifs (capables d engendrer les différents cytotypes épithéliaux) qui se différencient tout en migrant vers le compartiment différencié. Mon travail de these a porté sur l étude d une marqueur putatif de ces cellules souches épithéliales intestinales: Musashi1 (Msi1).Dans ce contexte, mon premier axe d étude s est focalisé sur l isolement et la caractérisation des cellules souches épithéliales intestinales chez la souris. Pour cela, nous avons généré des souris transgéniques exprimant la protéine fluorescente GFP sous le contrôle du promoteur de Msi1. Les cellules souches intestinales de ces souris coexpriment donc Msi1 et la GFP. Ce modèle a été validé et nous à permis de isoler les cellules GFP/Msi1 positives dans l intestin. A l'aide de différentes approches cellulaires et moléculaires, nous avons confirmé leur nature de cellules souches et nous avons apporté des nouvelles données sur la composition de la zone proliférative de l épithélium intestinal murin.Le second axe de mes travaux de thèse a porté sur l étude de la fonction de Msi1 dans l'homéostasie de l épithélium intestinal chez la souris, par son sur-expression tous au long de l épithélium. Nous avons montré que la sur-expression de cette protéine, qui est un régulateur des voies Wnt et Notch, perturbe l architecture intestinale, a propriétés pro-prolifératives et un potentiel tumorigènique.The intestinal epithelium is a monolayer of cells surrounding the intestinal lumen. It consists of a differentiated compartment, the villi in the small intestine and a flat surface in the colon, and a proliferative compartment, the crypts of Lieberkühn. This tissue self-renews rapidly and continuously throughout life, due to the presence of adult stem cells in the bottom of the crypts. These cells are capable of self-renewing and give rise to proliferating progenitors (capable of generating all the different epithelial cytotypes) that differentiate and migrate toward the differentiated compartment. My thesis focused on the study of the intestinal epithelial stem cells marker Musashi1 (Msi1).In this context, the first part of my thesis work focused on the isolation and characterization of the intestinal epithelial stem cells that express Msi1 in the mouse. For this, we generated transgenic mice expressing the fluorescent protein GFP under the control of the promoter of Msi1. The intestinal stem cells of these mice co-express Msi1 and GFP. This model has been validated and allowed us to isolate GFP+/Msi-expressing cells in the intestine. By using different cellular and molecular approches, we confirmed their nature of stem cells and provided new data on the composition of the proliferative zone in the murine intestinal epithelium.The second part of my thesis has focused on the study of the function of Msi1 in the intestinal epithelium homeostasis in the mouse, by its over- and ectopic expression all along the epithelium. We have shown that the over-expression of this protein, which is a regulator of the Wnt and Notch pathways, perturbs the intestinal architecture, has pro-proliferative properties and tumorigenic potential.LYON-ENS Sciences (693872304) / SudocSudocFranceF

Defining suitable reference genes for RT-qPCR analysis on intestinal epithelial cells

The study of the mammalian intestinal epithelium concerns several aspects of cellular and molecular biology. In fact, most of these studies aim to define molecular components or mechanisms related with the control of stemness and the balance between cell proliferation and differentiation in physiopathological conditions. It is worth mentioning that real-time quantitative reverse transcription-polymerase chain reaction (RT-qPCR) approaches are commonly used, but only a few studies are available regarding suitable reference genes to normalize gene expression data. The present study was designed to validate potential reference genes in freshly isolated proliferating or differentiated epithelial cells from the mouse intestine. We also extended our analysis to the IEC6 intestinal epithelial cells, as a promising model to study intestinal physiopathology in vitro. The stability of six potential reference genes (Hprt1, Ppia, Gapdh, Rplp0, Ppib, and Vil1) has been tested both in epithelial cells isolated from the mouse intestine and in the IEC6 cell line. The software programs - geNorm and Normfinder - were used to obtain an estimation of the expression stability of each gene and, by comparing the results, to identify the most suitable genes for RT-qPCR data normalization. These multiple approaches allowed us to select different suitable reference genes for the correct quantification of mRNAs depending on the differentiated or proliferative nature of the cells. © 2013 Springer Science+Business Media New York.SCOPUS: ar.jinfo:eu-repo/semantics/publishe

Oral glucose tolerance test in Italian overweight/obese children and adolescents results in a very high prevalence of impaired fasting glycaemia, but not of diabetes

Diabetes Metab Res Rev. 2009 Sep;25(6):528-34. Oral glucose tolerance test in Italian overweight/obese children and adolescents results in a very high prevalence of impaired fasting glycaemia, but not of diabetes. Cambuli VM, Incani M, Pilia S, Congiu T, Cavallo MG, Cossu E, Sentinelli F, Mariotti S, Loche S, Baroni MG. Source Endocrinology and Metabolism, Department of Medical Sciences, University of Cagliari, Cagliari, Italy. Abstract BACKGROUND: Very few studies on glucose abnormalities in European overweight/obese children and adolescents are available, and scientific evidence on the value of standard oral glucose tolerance test (OGTT) in childhood is lacking. We therefore aimed to establish prevalence and features of impaired fasting glucose (IFG), impaired glucose tolerance (IGT) and type 2 diabetes (T2D) in a large cohort of Italian overweight/obese children and adolescents and to assess the validity of standard OGTT in the paediatric population. METHODS: This is a 1-year observational study conducted on 736 (535 overweight/obese and 201 normal weight) consecutive paediatric patients attending the outpatient clinic of Paediatric Endocrine Unit. Clinical and biochemical parameters were collected for all participants. All overweight/obese subjects underwent OGTT. RESULTS: We observed a high prevalence of IFG (7.66%), more than twice that observed in other European children, but a low prevalence of IGT (3.18%) and T2D (0.18%). IFG was useless to predict IGT, having very low predictive value (7.3%) and sensitivity (17.6%). Compared to normal weight children, overweight/obese subjects showed significant differences in most metabolic and clinical parameters. In the overweight/obese group, having hyperglycaemia was associated to significantly higher blood pressure, homeostasis model assessment for insulin resistance, insulin and triglycerides. CONCLUSIONS: In our children, the prevalence of IFG is higher than that reported in other European cohorts, whereas T2D is rare. IFG appears not useful to detect IGT in childhood. Paediatric diagnostic cut-points, glucose load and timing of sampling need to be further validated to define glucose abnormalities in obese children that, compared with normal weight subjects, already are characterised by a different metabolic phenotype