beta-cell genes and diabetes: molecular and clinical characterization of mutations in transcription factors.

Frayling, Timothy M.; Evans, Julie; Bulman, Michael P.; Pearson, Ewan R.; Allen, Lisa; Owen, Katharine R.; Bingham, Coralie; Hannemann, Michael; Shepherd, Maggie; Ellard, Sian; Hattersley, Andrew T.

doi:10.2337/diabetes.50.2007.s94

Cited by 248 publications

(211 citation statements)

References 38 publications

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“…The age of presentation was more suggestive of GCK MODY, as other MODY subtypes often present in adolescence and young adulthood; however, this condition did not explain the early retinopathy in his father from whom he inherited the diabetes. The absence of renal cysts and other extrapancreatic features ruled out the possibility of HNF-1a MODY 1112…”

Section: Discussionmentioning

confidence: 99%

Response to oral gliclazide in a pre-pubertal child with hepatic nuclear factor-1 alpha maturity onset diabetes of the young

Habeb

George

Hattersley

2011

Annals of Saudi Medicine

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The term “maturity onset diabetes of the young” (MODY) describes a heterogeneous group of monogenic diabetes of which hepatic nuclear factor-1 alpha (HNF-1α) MODY is the most common. Patients with HNF-1α mutations typically present after puberty, and oral sulfonylureas (SU) have been shown to be effective in adults with this condition. A 7-year-old boy presented with asymptomatic hyperglycemia ranging between 6.2 and 10.1 mmol/L and glycosuria for nearly a year. The child's initial HbA1c was 6.9% and the pancreatic Islet cell autoantibodies were negative. His response to the oral glucose tolerance test (OGTT) showed a large increment of glucose from basal level of 7.7 to 21.1 mmol/L in 120 min. The mild presentation, family history, and negative autoantibodies were suggestive of HNF-1α MODY, which was confirmed by mutation analysis. Initial management with diet alone was not sufficient, but he responded well to 20 mg oral gliclazide once a day with an improvement of HbA1C from 7.2% to 6.5% within 3 months of treatment. The case is an illustration of the clinical utility of molecular genetic tests in the management of childhood diabetes.

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Section: Discussionmentioning

confidence: 99%

Response to oral gliclazide in a pre-pubertal child with hepatic nuclear factor-1 alpha maturity onset diabetes of the young

Habeb

George

Hattersley

2011

Annals of Saudi Medicine

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“…To the Editor: Contrary to currently held views [1], different mutations within the same MODY gene may be associated with differences in phenotype in diabetic as well as non-diabetic carrier subjects. This is illustrated by studies of apolipoproteins in different MODY1 pedigrees with various mutations of the gene encoding hepatocyte nuclear factor 4α (HNF4A).…”

mentioning

confidence: 81%

Phenotypic heterogeneity between different mutations of MODY subtypes and within MODY pedigrees

Fajans

Bell

2006

Diabetologia

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Contrary to currently held views [1], different mutations within the same MODY gene may be associated with differences in phenotype in diabetic as well as non-diabetic carrier subjects. This is illustrated by studies of apolipoproteins in different MODY1 pedigrees with various mutations of the gene encoding hepatocyte nuclear factor 4α (HNF4A). The mean plasma triglyceride concentration was significantly lower in 18 subjects (mean BMI 24.0) of the Michigan RW pedigree with the Q268X mutation (mean 0.80 mmol/l) [2] and in six subjects (mean BMI 24.0) from a Swedish family with the K99fsdelAA mutation (mean 0.64 mmol/l) [3] compared with 1.39 and 1.36 mmol/l, respectively, in control groups matched for BMI. The 18 RW subjects also had significantly lower lipoprotein(a) concentrations (mean 0.31 mmol/l) compared with the 24 control subjects (1.16 mmol/l). However, there were no significant differences in triglyceride or lipoprotein(a) concentrations between carriers and controls in 42 subjects (mean BMI 25.3) from 11 families with a variety of HNF4A mutations in a large European collection [4], although six subjects (mean BMI 25.2) with the R154X mutations in another study had elevated lipoprotein(a) levels [5]. Various other apolipoprotein fractions (AI, AII, CIII, total HDL-cholesterol) have been reported to be significantly lower in subjects with various HNF4A mutations [2,4].Different mutations in the gene encoding glucokinase (GCK/MODY2) have also been associated with differences in apolipoprotein levels. In 15 German MODY2 carriers (A232D mutation, 12 subjects; V154fsdelTG mutation, three subjects) (mean BMI 24.4), the mean triglyceride concentration was 0.84 mmol/l [6]. Two non-carrier subjects of the A232D pedigree had triglyceride levels of 1.17 and 1.25 mmol/l, suggesting that triglyceride levels may be lower in subjects with these two GCK mutations. The triglyceride level (mean 0.84 mmol/l) in the 15 MODY2 carriers is similar to that observed in 18 carriers of the RW/MODY1 pedigree (mean 0.80 mmol/l) [2]. In contrast, the triglyceride concentrations were normal in a very large series of primarily French MODY2 patients (mean BMI 22.0) [7]. We have recently studied a fourgeneration family (G pedigree) with a new GCK mutation, Leu 184 Pro (L184P). This pedigree includes affected individuals in three generations (ages 5-72 years). All are lean (mean BMI 21.3). In these six members, the mean triglyceride concentration was 0.68 mmol/l and the mean lipoprotein(a) concentration was 0.13 mmol/l, values that are lower than those in the RW/MODY1 pedigree. While the number of affected members in these various pedigrees is small, the results highlight the heterogeneity in apolipoprotein phenotypes seen in subjects with various HNF4A and GCK mutations. The variability could be due, at least in part, to different effects of the various mutations in each of these MODY genes on lipoprotein synthesis and metabolism but also to other genetic and environmental factors. Studies of larger numbers of pedigrees may determine if...

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“…Downstream of ERK1/2 there are several factors that bind to the insulin gene promoter to enhance transcription in response to glucose [37]. Pancreatic and duodenal homeobox 1 (PDX1) and beta cell E-box transcriptional activator 2 (BETA2) synergistically activate insulin gene transcription [38]. v-Maf musculoaponeurotic fibrosarcoma oncogene family, protein A (avian) (MAFA) also contributes to glucose responsiveness [39].…”

Section: Discussionmentioning

confidence: 99%

Increased hexosamine biosynthetic pathway flux dedifferentiates INS-1E cells and murine islets by an extracellular signal-regulated kinase (ERK)1/2-mediated signal transmission pathway

et al. 2011

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Aims/hypothesis Beta cell failure is caused by loss of cell mass, mostly by apoptosis, but also by simple dysfunction (decline of glucose-stimulated insulin secretion, downregulation of specific gene expression). Apoptosis and dysfunction are caused, at least in part, by lipoglucotoxicity. The mechanisms implicated are oxidative stress, increase in the hexosamine biosynthetic pathway (HBP) flux and endoplasmic reticulum (ER) stress. Oxidative stress plays a role in glucotoxicity-induced beta cell dedifferentiation, while glucotoxicity-induced ER stress has been mostly linked to beta cell apoptosis. We sought to clarify whether ER stress caused by increased HBP flux participates in a dedifferentiating response of beta cells, in the absence of relevant apoptosis. Methods We used INS-1E cells and murine islets. We analysed the unfolded protein response and the expression profile of beta cells by real-time RT-PCR and western blot. The signal transmission pathway elicited by ER stress was investigated by real-time RT-PCR and immunofluorescence. Results Glucosamine and high glucose induced ER stress, but did not decrease cell viability in INS-1E cells. ER stress caused dedifferentiation of beta cells, as shown by downregulation of beta cell markers and of the transcription factor, pancreatic and duodenal homeobox 1. Glucose-stimulated insulin secretion was inhibited. These effects were prevented by the chemical chaperone, 4-phenyl butyric acid. The extracellular signal-regulated kinase (ERK) signal transmission pathway was implicated, since its inhibition prevented the effects induced by glucosamine and high glucose. Conclusions/interpretation Glucotoxic ER stress dedifferentiates beta cells, in the absence of apoptosis, through a transcriptional response. These effects are mediated by the activation of ERK1/2.

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beta-cell genes and diabetes: molecular and clinical characterization of mutations in transcription factors.

Cited by 248 publications

References 38 publications

Response to oral gliclazide in a pre-pubertal child with hepatic nuclear factor-1 alpha maturity onset diabetes of the young

Response to oral gliclazide in a pre-pubertal child with hepatic nuclear factor-1 alpha maturity onset diabetes of the young

Phenotypic heterogeneity between different mutations of MODY subtypes and within MODY pedigrees

Increased hexosamine biosynthetic pathway flux dedifferentiates INS-1E cells and murine islets by an extracellular signal-regulated kinase (ERK)1/2-mediated signal transmission pathway

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