Your search keyword '"Barbetti, Fabrizio"' showing total 14 results

1. The expression of four pyridoxal kinase (PDXK) human variants in Drosophila impacts on genome integrity

Author

Mascolo, Elisa, Barile, Anna, Mecarelli, Lorenzo Stufera, Amoroso, Noemi, Merigliano, Chiara, Massimi, Arianna, Saggio, Isabella, Hansen, Torben, Tramonti, Angela, Di Salvo, Martino Luigi, Barbetti, Fabrizio, Contestabile, Roberto, Verni, Fiammetta, Mascolo, Elisa, Barile, Anna, Mecarelli, Lorenzo Stufera, Amoroso, Noemi, Merigliano, Chiara, Massimi, Arianna, Saggio, Isabella, Hansen, Torben, Tramonti, Angela, Di Salvo, Martino Luigi, Barbetti, Fabrizio, Contestabile, Roberto, and Verni, Fiammetta

Published

2019

2. The expression of four pyridoxal kinase (PDXK) human variants in Drosophila impacts on genome integrity

Author

Mascolo, Elisa, Barile, Anna, Mecarelli, Lorenzo Stufera, Amoroso, Noemi, Merigliano, Chiara, Massimi, Arianna, Saggio, Isabella, Hansen, Torben, Tramonti, Angela, Di Salvo, Martino Luigi, Barbetti, Fabrizio, Contestabile, Roberto, Verni, Fiammetta, Mascolo, Elisa, Barile, Anna, Mecarelli, Lorenzo Stufera, Amoroso, Noemi, Merigliano, Chiara, Massimi, Arianna, Saggio, Isabella, Hansen, Torben, Tramonti, Angela, Di Salvo, Martino Luigi, Barbetti, Fabrizio, Contestabile, Roberto, and Verni, Fiammetta

Published

2019

3. Focal congenital hyperinsulinism managed by medical treatment: A diagnostic algorithm based on molecular genetic screening

Author

UCL - SSS/IREC/EDIN - Pôle d'endocrinologie, diabète et nutrition, UCL - (SLuc) Service d'anatomie pathologique, Maiorana, Arianna, Dionisi-Vici, Carlo, Henquin, Jean-Claude, Rahier, Jacques, De Ville De Goyet, Jean, Grimaldi, Chiara, Nichols, Colin G., Faletra, Flavio, Francalanci, Paola, Pizzoferro, Milena, Rufini, Vittoria, Boiani, Arianna, Barbetti, Fabrizio, UCL - SSS/IREC/EDIN - Pôle d'endocrinologie, diabète et nutrition, UCL - (SLuc) Service d'anatomie pathologique, Maiorana, Arianna, Dionisi-Vici, Carlo, Henquin, Jean-Claude, Rahier, Jacques, De Ville De Goyet, Jean, Grimaldi, Chiara, Nichols, Colin G., Faletra, Flavio, Francalanci, Paola, Pizzoferro, Milena, Rufini, Vittoria, Boiani, Arianna, and Barbetti, Fabrizio

Abstract

Objective: Congenital hyperinsulinism (CHI) requires rapid diagnosis and treatment to avoid irreversible neurological sequelae due to hypoglycaemia. Aetiological diagnosis is instrumental in directing the appropriate therapy. Current diagnostic algorithms provide a complete set of diagnostic tools including (i) biochemical assays, (ii) genetic facility and (iii) state-of-the-art imaging. They consider the response to a therapeutic diazoxide trial an early, crucial step before proceeding (or not) to specific genetic testing and eventually imaging, aimed at distinguishing diffuse vs focal CHI. However, interpretation of the diazoxide test is not trivial and can vary between research groups, which may lead to inappropriate decisions. Objective of this report is proposing a new algorithm in which early genetic screening, rather than diazoxide trial, dictates subsequent clinical decisions. Patients, Methods and Results: Two CHI patients weaned from parenteral glucose infusion and glucagon after starting diazoxide. No hypoglycaemia was registered during a 72-h continuous glucose monitoring (CGMS), or hypoglycaemic episodes were present for no longer than 3% of 72-h. Normoglycaemia was obtained by low–medium dose diazoxide combined with frequent carbohydrate feeds for several years. We identified monoallelic, paternally inherited mutations in KATP channel genes, and 18F-DOPA PET-CT revealed a focal lesion that was surgically resected, resulting in complete remission of hypoglycaemia. Conclusions: Although rare, some patients with focal lesions may be responsive to diazoxide. As a consequence, we propose an algorithm that is not based on a ‘formal’ diazoxide response but on genetic testing, in which patients carrying paternally inherited ABCC8 or KCNJ11 mutations should always be subjected to 18F-DOPA PET-CT.

Published

2014

4. Intrafamilial Variability of Early-Onset Diabetes due to an INS Mutation

Author

Fredheim, Siri, Svensson, Jannet, Pørksen, Sven, Hansen, Lars, Hansen, Torben, Pedersen, Oluf Borbye, Mortensen, Henrik Bindesbøl, Barbetti, Fabrizio, Nielsen, Lotte Brøndum, Fredheim, Siri, Svensson, Jannet, Pørksen, Sven, Hansen, Lars, Hansen, Torben, Pedersen, Oluf Borbye, Mortensen, Henrik Bindesbøl, Barbetti, Fabrizio, and Nielsen, Lotte Brøndum

Abstract

Aim. The objective of this study was to describe the clinical characteristics of two siblings and their father carrying a C95Y mutation in the insulin (INS) gene. Methods/Results. A Danish patient, his sister, and his father were identified to carry the C95Y mutation in the preproinsulin molecule causing permanent neonatal diabetes. All three were diagnosed before 29 weeks of age, were born at term with near-normal birth weight, and were negative for GAD, ICA, IA-2, and IAA autoantibodies. The daily insulin requirement the first six months after diagnosis was <0.5 U kg(-1) day(-1) for both children. The father, insulin treated for over 40 years, has bilateral preproliferative retinopathy. Conclusions. These three cases further confirm the essential features of diabetes caused by INS mutations with proteotoxic effect. We conclude that patients with similar features must be investigated for mutations of INS gene.

Published

2011

5. Intrafamilial Variability of Early-Onset Diabetes due to an INS Mutation

Author

Fredheim, Siri, Svensson, Jannet, Pørksen, Sven, Hansen, Lars, Hansen, Torben, Pedersen, Oluf Borbye, Mortensen, Henrik Bindesbøl, Barbetti, Fabrizio, Nielsen, Lotte Brøndum, Fredheim, Siri, Svensson, Jannet, Pørksen, Sven, Hansen, Lars, Hansen, Torben, Pedersen, Oluf Borbye, Mortensen, Henrik Bindesbøl, Barbetti, Fabrizio, and Nielsen, Lotte Brøndum

Abstract

Aim. The objective of this study was to describe the clinical characteristics of two siblings and their father carrying a C95Y mutation in the insulin (INS) gene. Methods/Results. A Danish patient, his sister, and his father were identified to carry the C95Y mutation in the preproinsulin molecule causing permanent neonatal diabetes. All three were diagnosed before 29 weeks of age, were born at term with near-normal birth weight, and were negative for GAD, ICA, IA-2, and IAA autoantibodies. The daily insulin requirement the first six months after diagnosis was <0.5 U kg(-1) day(-1) for both children. The father, insulin treated for over 40 years, has bilateral preproliferative retinopathy. Conclusions. These three cases further confirm the essential features of diabetes caused by INS mutations with proteotoxic effect. We conclude that patients with similar features must be investigated for mutations of INS gene.

Published

2011

6. Intrafamilial Variability of Early-Onset Diabetes due to an INS Mutation

Author

Fredheim, Siri, Svensson, Jannet, Pørksen, Sven, Hansen, Lars, Hansen, Torben, Pedersen, Oluf Borbye, Mortensen, Henrik Bindesbøl, Barbetti, Fabrizio, Nielsen, Lotte Brøndum, Fredheim, Siri, Svensson, Jannet, Pørksen, Sven, Hansen, Lars, Hansen, Torben, Pedersen, Oluf Borbye, Mortensen, Henrik Bindesbøl, Barbetti, Fabrizio, and Nielsen, Lotte Brøndum

Abstract

Aim. The objective of this study was to describe the clinical characteristics of two siblings and their father carrying a C95Y mutation in the insulin (INS) gene. Methods/Results. A Danish patient, his sister, and his father were identified to carry the C95Y mutation in the preproinsulin molecule causing permanent neonatal diabetes. All three were diagnosed before 29 weeks of age, were born at term with near-normal birth weight, and were negative for GAD, ICA, IA-2, and IAA autoantibodies. The daily insulin requirement the first six months after diagnosis was <0.5 U kg(-1) day(-1) for both children. The father, insulin treated for over 40 years, has bilateral preproliferative retinopathy. Conclusions. These three cases further confirm the essential features of diabetes caused by INS mutations with proteotoxic effect. We conclude that patients with similar features must be investigated for mutations of INS gene.

Published

2011

7. Further evidence that mutations in INS can be a rare cause of Maturity-Onset Diabetes of the Young (MODY)

Author

Boesgaard, Trine W, Pruhova, Stepanka, Andersson, Ehm A, Cinek, Ondrej, Obermannova, Barbora, Lauenborg, Jeannet, Damm, Peter, Bergholdt, Regine, Pociot, Flemming, Pisinger, Charlotta, Barbetti, Fabrizio, Lebl, Jan, Pedersen, Oluf, Hansen, Torben, Boesgaard, Trine W, Pruhova, Stepanka, Andersson, Ehm A, Cinek, Ondrej, Obermannova, Barbora, Lauenborg, Jeannet, Damm, Peter, Bergholdt, Regine, Pociot, Flemming, Pisinger, Charlotta, Barbetti, Fabrizio, Lebl, Jan, Pedersen, Oluf, and Hansen, Torben

Abstract

Insulin gene (INS) mutations have recently been described as a common cause of permanent neonatal diabetes (PNDM) and a rare cause of diabetes diagnosed in childhood or adulthood.

Published

2010

8. Further evidence that mutations in INS can be a rare cause of Maturity-Onset Diabetes of the Young (MODY)

Author

Boesgaard, Trine W, Pruhova, Stepanka, Andersson, Ehm A, Cinek, Ondrej, Obermannova, Barbora, Lauenborg, Jeannet, Damm, Peter, Bergholdt, Regine, Pociot, Flemming, Pisinger, Charlotta, Barbetti, Fabrizio, Lebl, Jan, Pedersen, Oluf, Hansen, Torben, Boesgaard, Trine W, Pruhova, Stepanka, Andersson, Ehm A, Cinek, Ondrej, Obermannova, Barbora, Lauenborg, Jeannet, Damm, Peter, Bergholdt, Regine, Pociot, Flemming, Pisinger, Charlotta, Barbetti, Fabrizio, Lebl, Jan, Pedersen, Oluf, and Hansen, Torben

Abstract

Insulin gene (INS) mutations have recently been described as a common cause of permanent neonatal diabetes (PNDM) and a rare cause of diabetes diagnosed in childhood or adulthood.

Published

2010

9. Opposite clinical phenotypes of glucokinase disease: Description of a novel activating mutation and contiguous inactivating mutations in human glucokinase (GCK) gene

Author

Barbetti, Fabrizio, Cobo-Vuilleumier, Nadia, Toni, Sonia, Dionisi-Vici, Carlo, Ciampalini, Paolo, Massa, Ornella, Rodriguez-Bada, Pablo, Colombo, Carlo, Lenzi, Lorenzo, García-Gimeno, María Adelaida, Bermúdez-Silva, Francisco Javier, Rodriguez de Fonseca, Fernando, Banin, Patrizia, Aledo, Juan C., Baixeras, Elena, Sanz, Pascual, Cuesta-Muñoz, Antonio L., Barbetti, Fabrizio, Cobo-Vuilleumier, Nadia, Toni, Sonia, Dionisi-Vici, Carlo, Ciampalini, Paolo, Massa, Ornella, Rodriguez-Bada, Pablo, Colombo, Carlo, Lenzi, Lorenzo, García-Gimeno, María Adelaida, Bermúdez-Silva, Francisco Javier, Rodriguez de Fonseca, Fernando, Banin, Patrizia, Aledo, Juan C., Baixeras, Elena, Sanz, Pascual, and Cuesta-Muñoz, Antonio L.

Abstract

Glucokinase is essential for glucose-stimulated insulin release from the pancreatic beta-cell, serving as glucose sensor in humans. Inactivating or activating mutations of glucokinase lead to different forms of glucokinase disease, i.e. GCK-monogenic diabetes of youth, permanent neonatal diabetes (inactivating mutations), and congenital hyperinsulinism, respectively. Here we present a novel glucokinase gene (GCK)-activating mutation (p.E442K) found in an infant with neonatal hypoglycemia (1.5 mmol/liter) and in two other family members suffering from recurrent hypoglycemic episodes in their childhood and adult life. In contrast to the severe clinical presentation in the index case, functional studies showed only a slight activation of the protein (relative activity index of 3.3). We also report on functional studies of two inactivating mutations of the GCK (p.E440G and p.S441W), contiguous to the activating one, that lead to monogenic diabetes of youth. Interestingly, adult family members carrying the GCK pE440G mutation show an unusually heterogeneous and progressive diabetic phenotype, a feature not typical of GCK-monogenic diabetes of youth. In summary, we identified a novel activating GCK mutation that although being associated with severe neonatal hypoglycemia is characterized by the mildest activation of the glucokinase enzyme of all previously reported

Published

2009

10. Seven mutations in the human insulin gene linked to permanent neonatal/infancy-onset diabetes mellitus

Author

Colombo, Carlo, Porzio, Ottavia, Liu, Ming, Massa, Ornella, Vasta, Mario, Salardi, Silvana, Beccaria, Luciano, Monciotti, Carla, Toni, Sonia, Pedersen, Oluf, Hansen, Torben, Federici, Luca, Pesavento, Roberta, Cadario, Francesco, Federici, Giorgio, Ghirri, Paolo, Arvan, Peter, Iafusco, Dario, Barbetti, Fabrizio, Colombo, Carlo, Porzio, Ottavia, Liu, Ming, Massa, Ornella, Vasta, Mario, Salardi, Silvana, Beccaria, Luciano, Monciotti, Carla, Toni, Sonia, Pedersen, Oluf, Hansen, Torben, Federici, Luca, Pesavento, Roberta, Cadario, Francesco, Federici, Giorgio, Ghirri, Paolo, Arvan, Peter, Iafusco, Dario, and Barbetti, Fabrizio

Abstract

Udgivelsesdato: 2008-Jun, Permanent neonatal diabetes mellitus (PNDM) is a rare disorder usually presenting within 6 months of birth. Although several genes have been linked to this disorder, in almost half the cases documented in Italy, the genetic cause remains unknown. Because the Akita mouse bearing a mutation in the Ins2 gene exhibits PNDM associated with pancreatic beta cell apoptosis, we sequenced the human insulin gene in PNDM subjects with unidentified mutations. We discovered 7 heterozygous mutations in 10 unrelated probands. In 8 of these patients, insulin secretion was detectable at diabetes onset, but rapidly declined over time. When these mutant proinsulins were expressed in HEK293 cells, we observed defects in insulin protein folding and secretion. In these experiments, expression of the mutant proinsulins was also associated with increased Grp78 protein expression and XBP1 mRNA splicing, 2 markers of endoplasmic reticulum stress, and with increased apoptosis. Similarly transfected INS-1E insulinoma cells had diminished viability compared with those expressing WT proinsulin. In conclusion, we find that mutations in the insulin gene that promote proinsulin misfolding may cause PNDM.

Published

2008

11. Seven mutations in the human insulin gene linked to permanent neonatal/infancy-onset diabetes mellitus

Author

Colombo, Carlo, Porzio, Ottavia, Liu, Ming, Massa, Ornella, Vasta, Mario, Salardi, Silvana, Beccaria, Luciano, Monciotti, Carla, Toni, Sonia, Pedersen, Oluf, Hansen, Torben, Federici, Luca, Pesavento, Roberta, Cadario, Francesco, Federici, Giorgio, Ghirri, Paolo, Arvan, Peter, Iafusco, Dario, Barbetti, Fabrizio, Colombo, Carlo, Porzio, Ottavia, Liu, Ming, Massa, Ornella, Vasta, Mario, Salardi, Silvana, Beccaria, Luciano, Monciotti, Carla, Toni, Sonia, Pedersen, Oluf, Hansen, Torben, Federici, Luca, Pesavento, Roberta, Cadario, Francesco, Federici, Giorgio, Ghirri, Paolo, Arvan, Peter, Iafusco, Dario, and Barbetti, Fabrizio

Abstract

Udgivelsesdato: 2008-Jun, Permanent neonatal diabetes mellitus (PNDM) is a rare disorder usually presenting within 6 months of birth. Although several genes have been linked to this disorder, in almost half the cases documented in Italy, the genetic cause remains unknown. Because the Akita mouse bearing a mutation in the Ins2 gene exhibits PNDM associated with pancreatic beta cell apoptosis, we sequenced the human insulin gene in PNDM subjects with unidentified mutations. We discovered 7 heterozygous mutations in 10 unrelated probands. In 8 of these patients, insulin secretion was detectable at diabetes onset, but rapidly declined over time. When these mutant proinsulins were expressed in HEK293 cells, we observed defects in insulin protein folding and secretion. In these experiments, expression of the mutant proinsulins was also associated with increased Grp78 protein expression and XBP1 mRNA splicing, 2 markers of endoplasmic reticulum stress, and with increased apoptosis. Similarly transfected INS-1E insulinoma cells had diminished viability compared with those expressing WT proinsulin. In conclusion, we find that mutations in the insulin gene that promote proinsulin misfolding may cause PNDM.

Published

2008

12. Insights into the structure and regulation of glucokinase from a novel mutation (V62M), which causes maturity-onset diabetes of the young.

Author

UCL - MD/BICL - Département de biochimie et de biologie cellulaire, Gloyn, Anna L, Odili, Stella, Zelent, Dorothy, Buettger, Carol, Castleden, Harriet A J, Steele, Anna M, Stride, Amanda, Shiota, Chyio, Magnuson, Mark A, Lorini, Renata, d'Annunzio, Giuseppe, Stanley, Charles A, Kwagh, Jae, Van Schaftingen, Emile, Veiga da Cunha, Maria, Barbetti, Fabrizio, Dunten, Pete, Han, Yi, Grimsby, Joseph, Taub, Rebecca, Ellard, Sian, Hattersley, Andrew T, Matschinsky, Franz M, UCL - MD/BICL - Département de biochimie et de biologie cellulaire, Gloyn, Anna L, Odili, Stella, Zelent, Dorothy, Buettger, Carol, Castleden, Harriet A J, Steele, Anna M, Stride, Amanda, Shiota, Chyio, Magnuson, Mark A, Lorini, Renata, d'Annunzio, Giuseppe, Stanley, Charles A, Kwagh, Jae, Van Schaftingen, Emile, Veiga da Cunha, Maria, Barbetti, Fabrizio, Dunten, Pete, Han, Yi, Grimsby, Joseph, Taub, Rebecca, Ellard, Sian, Hattersley, Andrew T, and Matschinsky, Franz M

Abstract

Glucokinase (GCK) serves as the pancreatic glucose sensor. Heterozygous inactivating GCK mutations cause hyperglycemia, whereas activating mutations cause hypoglycemia. We studied the GCK V62M mutation identified in two families and co-segregating with hyperglycemia to understand how this mutation resulted in reduced function. Structural modeling locates the mutation close to five naturally occurring activating mutations in the allosteric activator site of the enzyme. Recombinant glutathionyl S-transferase-V62M GCK is paradoxically activated rather than inactivated due to a decreased S0.5 for glucose compared with wild type (4.88 versus 7.55 mM). The recently described pharmacological activator (RO0281675) interacts with GCK at this site. V62M GCK does not respond to RO0281675, nor does it respond to the hepatic glucokinase regulatory protein (GKRP). The enzyme is also thermally unstable, but this lability is apparently less pronounced than in the proven instability mutant E300K. Functional and structural analysis of seven amino acid substitutions at residue Val62 has identified a non-linear relationship between activation by the pharmacological activator and the van der Waals interactions energies. Smaller energies allow a hydrophobic interaction between the activator and glucokinase, whereas larger energies prohibit the ligand from fitting into the binding pocket. We conclude that V62M may cause hyperglycemia by a complex defect of GCK regulation involving instability in combination with loss of control by a putative endogenous activator and/or GKRP. This study illustrates that mutations that cause hyperglycemia are not necessarily kinetically inactivating but may exert their effects by other complex mechanisms. Elucidating such mechanisms leads to a deeper understanding of the GCK glucose sensor and the biochemistry of beta-cells and hepatocytes.

Published

2005

13. Missense mutations in the human insulin promoter factor-1 gene and their relation to maturity-onset diabetes of the young and late-onset type 2 diabetes mellitus in caucasians

Author

Hansen, Lars, Urioste, Sandra, Petersen, Helle V., Jensen, Jan N., Eiberg, Hans Rudolf Lytchoff, Barbetti, Fabrizio, Serup, Palle, Hansen, Torben, Pedersen, Oluf, Hansen, Lars, Urioste, Sandra, Petersen, Helle V., Jensen, Jan N., Eiberg, Hans Rudolf Lytchoff, Barbetti, Fabrizio, Serup, Palle, Hansen, Torben, and Pedersen, Oluf

Published

2000

14. Missense mutations in the human insulin promoter factor-1 gene and their relation to maturity-onset diabetes of the young and late-onset type 2 diabetes mellitus in caucasians

Author

Hansen, Lars, Urioste, Sandra, Petersen, Helle V., Jensen, Jan N., Eiberg, Hans Rudolf Lytchoff, Barbetti, Fabrizio, Serup, Palle, Hansen, Torben, Pedersen, Oluf, Hansen, Lars, Urioste, Sandra, Petersen, Helle V., Jensen, Jan N., Eiberg, Hans Rudolf Lytchoff, Barbetti, Fabrizio, Serup, Palle, Hansen, Torben, and Pedersen, Oluf

Published

2000