Interaction between the G1057D variant of IRS-2 and overweight in the pathogenesis of type 2 diabetes.

The insulin receptor substrate-2 (IRS-2) is a major insulin signalling molecule. IRS-2 inactivation in mice induces a form of diabetes characterized by peripheral insulin resistance and reduced beta cell mass. We tested the hypothesis that a common non-conservative amino acid substitution of IRS-2 (G1057D) might interact with overweight in the pathogenesis of type 2 diabetes. The variant was genotyped in 193 Italian patients with type 2 diabetes and 206 control subjects. In the absence of overweight, the risk of type 2 diabetes decreased according to the dosage of the D1057 allele (odds ratio for GD genotype 0.46 [95% CI 0.25-0.86]; DD genotype 0.18 [0.04-0.68]; P for trend = 0.0012). Conversely, the interaction between overweight and genotype increased the risk of type 2 diabetes according to the dosage of the D1057 allele (odds ratio for GD genotype 2.50 [1.11-5.65]; DD genotype 5.74 [1.11-29. 78]; P for trend = 0.0047). Among controls, fasting C-peptide levels, after adjustment for plasma glucose, were inversely related to the dosage of the D1057 allele (P = 0.020). This finding suggested that carriers of the D1057 allele may have higher insulin sensitivity and supported the protective effect of this allele. Conversely, among overweight patients there was a parallel increase in fasting plasma glucose (P for trend = 0.037) and fasting C-peptide according to the dosage of the D1057 allele, suggesting that higher insulin resistance and relative beta cell failure contributed to the increased risk of type 2 diabetes in overweight carriers of this allele. These data provide evidence for a strong association between type 2 diabetes and the G1057D common genetic variant of IRS-2, which appears to be protective against type 2 diabetes in a codominant fashion. Overweight appears to modify the effect of this polymorphism toward a higher risk of type 2 diabetes. Carriers of this polymorphism may represent an elective target for prevention of type 2 diabetes through preventing or treating excessive weight.

Mutational analysis of OB gene in obese and type 2 diabetes affected subjects.

Peripheral blood DNA from 12 subjects affected by familial obesity and from 35 subjects affected by type 2 diabetes were analysed for mutations in the coding sequence of the OB gene. Mutational analysis, conducted using the single strand conformation polymorphism (SSCP) technique, followed by direct sequencing did not reveal the presence of nucleotide variants in the coding region of the OB gene. The lack of mutations in the coding sequence is consistent with previous data suggesting that mutations in the coding sequence of the OB gene are not common in human familial obesity. In 2 samples displaying a non-informative pattern of SSCP and in 8 additional samples the nucleotide sequence of portion of the intron 2 bordering the coding sequence of exon 2 identified a G in the positions +14IVS and +18IVS, according to a sequence reported previously, but in contrast with some others. All samples were homozygous for these intron variants.