Insulin insensitivity in polycystic ovary syndrome occurs when there is oligo/amenorrhoea but not when the menstrual cycle is regular. This is consistent with PCO and insulin insensitivity being separate abnormalities which when combined are associated with anovulation.
Haplotype combination 112/121 and its intrinsic variants (UCSNP43, -19, and -63) identified within the calpain 10 gene are associated with increased risk of type 2 diabetes in Mexican-Americans. We evaluated whether this haplotype combination and its constituent haplotypes and variants contribute to increased susceptibility to impaired fasting glucose (IFG)/impaired glucose tolerance (IGT) and type 2 diabetes in a South Indian population. Two study groups were used: 95 families ascertained through a proband with type 2 diabetes and 468 subjects recruited as part of an urban survey (69.1% with normal glucose tolerance, 12.8% with IFG/IGT, and 18.2% with type 2 diabetes). The four-locus haplotype combination 1112/1121 (UCSNP44, -43, -19, and -63) in South Indians conferred both a 10.7-fold increased risk for IFG/IGT (P ؍ 0.001) and a 5.78-to 6.52-fold increased risk for type 2 diabetes in the two study groups (families P ؍ 0.025, urban survey P ؍ 0.015). A combination of the 1112 haplotype with the 1221 haplotype also appeared to increase risk for both IFG/IGT and type 2 diabetes. Contrary to what might be expected, quantitative trait analysis in the families found that transmission of the disease-related 1121 and 1112 haplotypes was associated with a reduced hip size and lower waist-to-hip ratio, respectively. This study supports the paradigm that specific haplotype combinations of calpain 10 variants increase risk of both IFG/IGT and type 2 diabetes. However, the relative infrequency of the "at-risk" combinations in the South Indian population suggests that calpain 10 is not a common determinant of susceptibility to type 2 diabetes.
GH therapy decreases the urinary ratios 11-hydroxy/11-oxo-cortisol metabolites and tetrahydrocortisols/tetrahydrocortisone, but not urinary free cortisone or the urinary free cortisol/free cortisone ratio. This effect is not secondary to reduced cortisol availability. These findings provide further evidence for direct or indirect modulation of cortisol metabolism by growth hormone and suggest that this occurs at hepatic or an alternative site of 11 beta-hydroxysteroid dehydrogenase-1 activity.
Fibrocalculous pancreatic diabetes (FCPD) is a secondary cause of diabetes due to chronic pancreatitis. Since the N34S variant of the SPINK1 trypsin inhibitor gene has been found to partially account for genetic susceptibility to chronic pancreatitis, we used a family-based and case-control approach in two separate ethnic groups from the Indian subcontinent, to determine whether N34S was associated with susceptibility to FCPD. Clear excess transmission of SPINK1 N34S to the probands with FCPD in 69 Bangladeshi families was observed (P<.0001; 20 transmissions and 2 nontransmissions). In the total study group (Bangladeshi and southern Indian) the N34S variant was present in 33% of 180 subjects with FCPD, 4.4% of 861 nondiabetic subjects (odds ratio 10.8; P<.0001 compared with FCPD), 3.7% of 219 subjects with type 2 diabetes, and 10.6% of 354 subjects with early-onset diabetes (aged <30 years) (P=.02 compared with the ethnically matched control group). These results suggest that the N34S variant of SPINK1 is a susceptibility gene for FCPD in the Indian subcontinent, although, by itself, it is not sufficient to cause disease.
The plasma glucose and insulin responses to oral glucose were studied in 44 women who had previously had gestational diabetes, but had reverted to normal glucose tolerance. Twenty were White, 14 Black, and 10 Asian. A group of race-, age- and weight-matched controls was also studied. Fasting values of glucose and insulin did not differ significantly between the study group and controls. During the 2 h 75-g OGTT the White and Black previously gestational-diabetic women had similar plasma glucose values to their controls, while the Asian previously gestational-diabetic women had significantly higher glucose values at 30 min (9.2 +/- 0.6 (+/- SE) vs 7.1 +/- 0.3 mmol l-1, p less than 0.02) and at 60 min (8.6 +/- 0.8 vs 6.2 +/- 0.4 mmol l-1, p less than 0.02). Compared with their race-matched controls, the White previously gestational-diabetic women had significantly lower insulin values at 60 min (median 41 range 2-91) vs 56 (15-118) mU l-1, p less than 0.05), and the Black previously gestational-diabetic women had lower values at both 30 min (17 (4-116) vs 53 (22-197) mU l-1) and 60 min (36 (4-148) vs 99 (12-169) mU l-1, p less than 0.05). The insulin values were similar during the OGTT in the Asian previously gestational-diabetic women and their controls.(ABSTRACT TRUNCATED AT 250 WORDS)
The neurogenic differentiation-1 (NEUROD1), neurogenin-3 (NEUROG3), and hepatic nuclear factor-1␣ (TCF1) genes are interacting transcription factors implicated in controlling islet cell development and insulin secretion. Polymorphisms of these genes (Ala45Thr [NEUROD1], Ser199Phe [NEUROG3], and Ala98Val [TCF1]) have been postulated to influence the development of type 2 diabetes. We have investigated the role and interaction between these variants using PCR/restriction fragment-length polymorphism assays in 454 subjects recruited as part of a population survey in South India. Additionally, 97 South Indian parent-offspring trios were studied. Polymorphisms of all three genes were associated with either fasting blood glucose (FBG) and/or 2-h blood glucose (BG) in either the total dataset or when restricted to a normoglycemic population. A monotonically increasing effect, dependent on the total number of risk-associated alleles carried, was observed across the whole population (P < 0.0001 for FBG and 2-h BG), raising FBG by a mean of 2.9 mmol/l and 2-h BG by a mean of 4.3 mmol/l. Similarly, an ascending number of the same risk alleles per subject increased the likelihood of type 2 diabetes (P ؍ 0.002). In conclusion, we observed a combined effect of variations in NEUROD1, NEUROG3, and TCF1 in contributing to overall glucose intolerance in a South Indian population. Diabetes 53: [2122][2123][2124][2125] 2004 T ype 2 diabetes is a multifactorial disease with a significant genetic component. The genetic component of type 2 diabetes is postulated to be polygenic in nature; hence it is likely that a combination of genes would influence the underlying level of glucose intolerance in a population and contribute to the overall susceptibility to the disease. In a South Indian population, complex segregation analyses for type 2 diabetes have suggested that the best-fitting model included a polygenic influence on the range of glucose tolerance from normoglycemia to type 2 diabetes (65% of the model), whereas the rest was due to a major gene effect (1). This indicates that an additional approach to identify genes underlying the susceptibility to type 2 diabetes is to study the range of glucose intolerance, in addition to type 2 diabetes.Susceptibility to disease in several monogenic forms of diabetes, such as maturity-onset diabetes of the young-3, are thought to result from defects in genes that code for a number of transcription factors. Many of these genes are potential candidate genes for type 2 diabetes because they are capable of modifying the rate of transcription of the insulin gene and are involved in -cell developmental processes. Defects in either insulin secretion or in the formation and maintenance of -cells could lead to both impaired glucose tolerance and type 2 diabetes. Several of these transcription factors are not only involved in a common biological pathway, but have also been shown to directly interact with each other. Therefore an alternative approach to elucidate an underlying cause of the disease...
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