Continental margin of Western europe: slope progradation and erosion.

Reflection profiling of the continental margin off western Europe shows seaward-dipping continental-slope deposits that have been dissected by submarine canyons west of the English Channel. These records refute previous interpretation of structural benches of older, nearly horizontal strata outcropping on the slope face.

beta-cell genes and diabetes: quantitative and qualitative differences in the pathophysiology of hepatic nuclear factor-1alpha and glucokinase mutations.

Mutations in the beta-cell genes encoding the glycolytic enzyme glucokinase (GCK) and the transcription factor hepatocyte nuclear factor (HNF)-1alpha are the most common causes of maturity-onset diabetes of the young (MODY). Studying patients with mutations in these genes gives insights into the functions of these two critical beta-cell genes in humans. We studied 178 U.K. and French MODY family members, including 45 GCK mutation carriers and 40 HNF-1alpha mutation carriers. Homeostasis model assessment of fasting insulin and glucose showed reduced beta-cell function in both GCK (48% controls, P<0.0001) and HNF-1alpha (42% controls, P<0.0001). Insulin sensitivity was similar to that of control subjects in the GCK subjects (93% controls, P = 0.78) but increased in the HNF-1alpha subjects (134.5% controls, P = 0.005). The GCK patients showed a similar phenotype between and within families with mild lifelong fasting hyperglycemia (fasting plasma glucose [FPG] 5.5-9.2 mmol/l, interquartile [IQ] range 6.6-7.4), which declined slightly with age (0.017 mmol/l per year) and rarely required pharmacological treatment (17% oral hypoglycemic agents, 4% insulin). HNF-1alpha patients showed far greater variation in fasting glucose both between and within families (FPG 4.1-18.5 mmol/l, IQ range 5.45-10.4), with a marked deterioration with age (0.06 mmol/l per year), and 59% of patients required treatment with tablets or insulin. Proinsulin-to-insulin ratios are increased in HNF-1alpha subjects (29.5%) but not in GCK (18.5%) subjects. In an oral glucose tolerance test, the 0- to 120-min glucose increment was small in GCK patients (2.4+/-1.8 mmol/l) but large in HNF-1alpha patients (8.5+/-3.0 mmol/l, P< 0.0001). This comparison shows that the clear clinical differences in these two genetic subgroups of diabetes reflect the quantitative and qualitative differences in beta-cell dysfunction. The defect in GCK is a stable defect of glucose sensing, whereas the HNF-1alpha mutation causes a progressive defect that alters beta-cell insulin secretion directly rather than the sensing of glucose.

Microalbuminuria as a screening tool in cystic fibrosis-related diabetes.

The improving longevity of cystic fibrosis (CF) subjects has resulted in an increased prevalence and duration of cystic fibrosis-related diabetes (CFRD). Microvascular complications were reported in CFRD. Microalbuminuria is well-established as a sensitive indicator of progression to diabetic nephropathy in non-CF diabetes, but confounding factors may make it less sensitive for CF subjects. We performed a cross-sectional study to look for the presence of microalbuminuria in samples from 40 CF subjects (34 without diabetes; CFND) attending the Exeter CF Clinic, compared with 43 nondiabetic, non-CF controls. The albumin-creatinine ratio (ACR) was raised in CF subjects both with (P < 0.001) and without (P < 0.0001) diabetes compared to controls. This reflected an increase in urinary albumin and a reduction in urinary creatinine in CF subjects. In single samples, microalbuminuria was present in 66.7%, 32.4%, and 15.4% of subjects in CFRD, CFND, and control groups. Repeat samples showed that 12% of CFND subjects and 17% of CFRD subjects met the criteria for a diagnosis of persistent microalbuminuria. In conclusion, CF subjects, even when not diabetic, have increased urinary albumin excretion due to chronic infection, and reduced urinary creatinine excretion due to low muscle mass. This results in subjects, who are not developing diabetic nephropathy, meeting the conventional criteria for microalbuminuria. We feel that further studies are required to clarify whether this measure is a useful tool to predict progression to diabetic nephropathy in subjects with CFRD.

Partial and whole gene deletion mutations of the GCK and HNF1A genes in maturity-onset diabetes of the young.

AIMS/HYPOTHESIS: Heterozygous mutations of glucokinase (GCK) and hepatocyte nuclear factor-1 alpha (HNF1A; also known as hepatic transcription factor 1 [TCF1]) genes are the most common cause of MODY. Genomic deletions of the HNF1B (also known as TCF2) gene have recently been shown to account for one third of mutations causing renal cysts and diabetes syndrome. We investigated the prevalence of partial and whole gene deletions in UK patients meeting clinical criteria for GCK or HNF-1alpha/-4alpha MODY and in whom no mutation had been identified by sequence analysis. METHODS: A multiplex ligation-dependent probe amplification (MLPA) assay was developed using synthetic oligonucleotide probes for 30 exons of the GCK, HNF1A and HNF4A genes. RESULTS: Partial or whole gene deletions were identified in 1/29 (3.5%) probands using the GCK MLPA assay and 4/60 (6.7%) of probands using the HNF1A/-4A MLPA assay. Four different deletions were detected: GCK exon 2, HNF1A exon 1, HNF1A exons 2 to 10 and HNF1A exons 1 to 10. An additional Danish pedigree with evidence of linkage to HNF1A had a deletion of exons 2 to 10. Testing other family members confirmed co-segregation of the deletion mutations with diabetes in the pedigrees. CONCLUSIONS/INTERPRETATION: Large deletions encompassing whole exons can cause GCK or HNF-1alpha MODY and will not be detected by sequencing. Gene dosage assays, such as MLPA, are a useful adjunct to sequence analysis when a diagnosis of MODY is strongly suspected.

Heterogeneity in young adult onset diabetes: aetiology alters clinical characteristics.

AIMS: To describe the characteristics of hepatocyte nuclear factor (HNF) 1 alpha mutation carriers diagnosed with diabetes after 25 years and compare them with young-onset Type 2 diabetic patients (YT2D) diagnosed at the same age. SUBJECTS AND METHODS: We studied 44 (21 male, 23 female) patients with HNF-1 alpha mutations diagnosed with diabetes at ages 25-45 years and 44 YT2D subjects matched for sex and age of diagnosis. RESULTS: Median age of onset of diabetes was 35 years in both groups. The HNF-1 alpha group demonstrated: lower body mass index (25.1 vs. 30.7 kg/m2; P < 0.001) and lower fasting triglycerides (1.37 vs. 2.96 mmol/l; P = 0.001) with similar fasting cholesterol level. They had lower glycated haemoglobin A1c (7.3 vs. 8.5%; P = 0.015) despite greater duration of diabetes (24 vs. 16 years; P = 0.02) and less frequent treatment with insulin (21% vs. 55%; P = 0.002). They were less likely to be treated for hypertension (13.3% vs. 56.3%; P = 0.009). Importantly, no difference was observed in reported parental history of diabetes between the two groups (65.9% vs. 63.6%; P = 0.92). Logistic regression showed that triglyceride levels and presence of anti-hypertensive treatment were the most important independent variables. CONCLUSIONS: Patients with HNF-1 alpha mutations may present with diabetes as young adults between the ages of 25-45 years. In this age range a wide differential diagnosis of diabetes is observed. Conventional criteria of age of onset and family history will not differentiate HNF-1 alpha mutation carriers from YT2D subjects in this age range, but features of the metabolic syndrome, in particular fasting triglycerides and hypertension, are helpful. In patients diagnosed before 45 years without features of insulin resistance the diagnosis of HNF-1 alpha should be considered.

Serum amino acids in patients with mutations in the hepatocyte nuclear factor-1 alpha gene.

AIMS: Knockout mice lacking both copies of the hepatocyte nuclear factor 1 (HNF1) gene have altered serum levels of amino acids and generalized aminoaciduria. The aim of our study was to test whether alterations in serum amino acid levels were found in patients with mutations in the hepatocyte nuclear factor-1 alpha (HNF-1alpha) gene compared with controls. METHODS: Fasting serum from 20 patients with HNF-1alpha mutations and 20 age, sex and body mass index-matched controls was analysed for 16 amino acids. Means were compared between the two groups and Z scores calculated. RESULTS: There was no significant difference between patients with HNF-1alpha mutations and controls in serum levels of phenylalanine, arginine, citrulline or lysine as suggested by knockout mice models. Although serum levels of eight amino acids were different in the two groups, these were not significant after Bonferroni correction. CONCLUSIONS: The alterations in serum amino acid levels seen in mice models are not seen in patients with mutations in the HNF-1alpha gene. This suggests differences in mouse and man in the regulation of amino acid transport and has not provided us with a phenotypic marker to use before confirmatory genetic testing.

The genetic abnormality in the beta cell determines the response to an oral glucose load.

AIMS/HYPOTHESIS: We assessed how the role of genes genetic causation in causing maturity-onset diabetes of the young (MODY) alters the response to an oral glucose tolerance test (OGTT). METHODS: We studied OGTT in 362 MODY subjects, from seven European centres; 245 had glucokinase gene mutations and 117 had Hepatocyte Nuclear Factor -1 alpha ( HNF-1alpha) gene mutations. RESULTS: BMI and age were similar in the genetically defined groups. Fasting plasma glucose (FPG) was less than 5.5 mmol/l in 2 % glucokinase subjects and 46 % HNF-1 alpha subjects ( p < 0.0001). Glucokinase subjects had a higher FPG than HNF-1 alpha subjects ([means +/- SD] 6.8 +/- 0.8 vs 6.0 +/- 1.9 mmol/l, p < 0.0001), a lower 2-h value (8.9 +/- 2.3 vs 11.2 +/- 5.2 mmol/l, p < 0.0001) and a lower OGTT increment (2-h - fasting) (2.1 +/- 2.3 vs 5.2 +/- 3.9 mmol/l, p < 0.0001). The relative proportions classified as diabetic depended on whether fasting (38 % vs 22 %, glucokinase vs HNF-1 alpha) or 2-h values (19 % vs 44 %) were used. Fasting and 2-h glucose values were not correlated in the glucokinase subjects ( r = -0.047, p = 0.65) but were strongly correlated in HNF-1 alpha subjects ( r = 0.8, p < 0.001). Insulin concentrations were higher in the glucokinase subjects throughout the OGTT. CONCLUSION/INTERPRETATION: The genetic cause of the beta-cell defect results in clear differences in both the fasting glucose and the response to an oral glucose load and this can help diagnostic genetic testing in MODY. OGTT results reflect not only the degree of hyperglycaemia but also the underlying cause.