The TCF7L2 Variant rs7903146 Affects the Risk of Youth-Onset Type 2 Diabetes by Reducing the Incretin Effect on Insulin Secretion

Transglutaminase 2 (TG2) is an enzyme with diverse biological functions. TG2 catalyzes transamidation reactions, has intrinsic kinase activity, and acts as a G-protein in intracellular signaling. TG2 (Tgm2)-null mice are glucose intolerant and have impaired glucose-stimulated insulin secretion (GSIS). Furthermore, three naturally occurring missense mutations in the human TGM2 gene, corresponding to amino acid substitutions of Met330Arg, Ile331Asn, and Asn333Ser in the TG2 protein, have been reported and found to be associated with early-onset type 2 diabetes. However, their effect on TG2 function is not fully understood. To determine this, we have reproduced naturally occurring mutations in TG2 using site-directed mutagenesis. Overexpression of Myc-TG2 mutants in INS-1E cells resulted in a reduction of GSIS in comparison with cells overexpressing wild-type Myc-TG2 (WT-TG2). The maximum reduction was found in cells overexpressing Ile331Asn-TG2 (32%) followed by Met330Arg-TG2 (20%), and the least in Asn333Ser-TG2 (7%). Enzymatic analysis revealed that TG2 mutants have impaired transamidation and kinase activities in comparison with WT-TG2. GTP-binding assays showed that TG2 mutants also have altered GTP-binding ability, which is found to be modulated in response to glucose stimulation. Collectively, these data suggest that naturally occurring mutations in TG2 affect transamidation, kinase, and GTP-binding functions of TG2. While reduced insulin secretion, as a result of naturally occurring mutations in TG2, is due to the impairment of more than one biological function of TG2, it is the transamidation function that appears to be impaired during the first phase, whereas the GTP-binding function affects the second phase of insulin secretion.

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CHRM3 Gene Variation Is Associated With Decreased Acute Insulin Secretion and Increased Risk for Early-Onset Type 2 Diabetes in Pima Indians

Diabetes ◽

10.2337/db06-0379 ◽

2006 ◽

Vol 55 (12) ◽

pp. 3625-3629 ◽

Cited By ~ 23

Author(s):

Y. Guo ◽

M. Traurig ◽

L. Ma ◽

S. Kobes ◽

I. Harper ◽

...

Keyword(s):

Type 2 Diabetes ◽

Insulin Secretion ◽

Early Onset ◽

Pima Indians ◽

Gene Variation ◽

Onset Type ◽

Increased Risk

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Parental history of type 2 diabetes, TCF7L2 variant and lower insulin secretion are associated with incident hypertension. Data from the DESIR and RISC cohorts

Diabetologia ◽

10.1007/s00125-013-3021-y ◽

2013 ◽

Vol 56 (11) ◽

pp. 2414-2423 ◽

Cited By ~ 9

Author(s):

Fabrice Bonnet ◽

◽

Ronan Roussel ◽

Andrea Natali ◽

Stéphane Cauchi ◽

...

Keyword(s):

Type 2 Diabetes ◽

Insulin Secretion ◽

Parental History ◽

Incident Hypertension ◽

History Of ◽

Tcf7l2 Variant

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Inhibition of DPP-4 with Vildagliptin Improved Insulin Secretion in Response to Oral as well as “Isoglycemic” Intravenous Glucose without Numerically Changing the Incretin Effect in Patients with Type 2 Diabetes

The Journal of Clinical Endocrinology & Metabolism ◽

10.1210/jc.2010-2178 ◽

2011 ◽

Vol 96 (4) ◽

pp. 945-954 ◽

Cited By ~ 41

Author(s):

Irfan Vardarli ◽

Michael A. Nauck ◽

Lars D. Köthe ◽

Carolyn F. Deacon ◽

Jens J. Holst ◽

...

Keyword(s):

Type 2 Diabetes ◽

Insulin Secretion ◽

Glycosylated Hemoglobin ◽

Oral Glucose ◽

Incretin Effect ◽

Intravenous Glucose ◽

Dipeptidyl Peptidase 4 ◽

Glucagon Like Peptide 1 ◽

D 12

Abstract Background and Aims: Dipeptidyl peptidase-4 (DPP-4) inhibitors block the degradation of glucagon-like peptide-1 and glucose-dependent insulinotropic polypeptide. The aim of the present study was to quantitatively assess the incretin effect after treatment with the DPP-4 inhibitor vildagliptin (V) or placebo (P) in patients with type 2 diabetes. Materials and Methods: Twenty-one patients (three women, 18 men) with type 2 diabetes previously treated with metformin (mean age, 59 yr; body mass index, 28.6 kg/m2; glycosylated hemoglobin, 7.3%) were studied in a two-period crossover design. They received 100 mg V once daily or P for 13 d in randomized order. The incretin effect was measured on d 12 (75-g oral glucose) and d 13 (“isoglycemic” iv glucose) based on insulin and C-peptide determinations and insulin secretion rates (ISR). Results: V relative to P treatment significantly increased intact incretin concentrations after oral glucose and insulin secretory responses to both oral glucose and isoglycemic iv glucose (e.g. AUCISR oral, by 32.7%, P = 0.0006; AUCISR iv, by 33.1%, P = 0.01). The numerical incretin effect was not changed (IEISR, V vs. P, 35.7 ± 4.9 and 34.6 ± 4.0%, P = 0.80). Conclusions: DPP-4 inhibition augmented insulin secretory responses both after oral glucose and during isoglycemic iv glucose infusions, with no net change in the incretin effect. Thus, slight variations in basal incretin levels may be more important than previously thought. Or, DPP-4 inhibitor-induced change in the incretin-related environment of islets may persist overnight, augmenting insulin secretory responses to iv glucose as well. Alternatively, yet unidentified mediators of DPP-4 inhibition may have caused these effects.

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Role of incretin hormones in the regulation of insulin secretion in diabetic and nondiabetic humans

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.00545.2003 ◽

2004 ◽

Vol 287 (2) ◽

pp. E199-E206 ◽

Cited By ~ 366

Author(s):

Jens Juul Holst ◽

Jesper Gromada

Keyword(s):

Type 2 Diabetes ◽

Insulin Secretion ◽

Insulin Response ◽

Strong Support ◽

Oral Glucose ◽

Second Phase ◽

Incretin Hormones ◽

Incretin Effect ◽

Glucagon Like Peptide 1

The available evidence suggests that about two-thirds of the insulin response to an oral glucose load is due to the potentiating effect of gut-derived incretin hormones. The strongest candidates for the incretin effect are glucose-dependent insulinotropic polypeptide (GIP) and glucagon-like peptide 1 (GLP-1). In patients with type 2 diabetes, however, the incretin effect is lost or greatly impaired. It is hypothesized that this loss explains an important part of the impaired insulin secretion in patients. Further analysis of the incretin effects in patients has revealed that the secretion of GIP is near normal, whereas the secretion of GLP-1 is decreased. On the other hand, the insulintropic effect of GLP-1 is preserved, whereas the effect of GIP is greatly reduced, mainly because of a complete loss of the normal GIP-induced potentiation of second-phase insulin secretion. These two features, therefore, explain the incretin defect of type 2 diabetes. Strong support for the hypothesis that the defect plays an important role in the insulin deficiency of patients is provided by the finding that administration of excess GLP-1 to patients may completely restore the glucose-induced insulin secretion as well as the β-cells' sensitivity to glucose. Because of this, analogs of GLP-1 or GLP-1 receptor activations are currently being developed for diabetes treatment, so far with very promising results.

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