Fung-Yee Chan scite author profile

Aims/hypothesis: Although insulin resistance induces compensatory increases in beta cell mass and function to maintain normoglycaemia, it is not clear whether insulin resistance can precipitate beta cell dysfunction and hyperglycaemia without a pre-existing beta cell susceptibility. We therefore examined the beta cell phenotype in the MKR mouse, a model in which expression of a dominant-negative IGF 1 receptor (IGF1R) in skeletal muscle leads to systemic insulin resistance and diabetes. Materials and methods: Circulating glucose, insulin and glucagon concentrations were measured. Insulin sensitivity, glucose tolerance and insulin release in vivo were assessed by i.p. insulin and glucose tolerance tests. Beta cell function was assessed via insulin secretion from isolated islets and the glucose gradient in the perfused pancreas. Beta cell morphology was examined via immunohistochemistry. MKR mice were fed a high-fat diet containing sucrose (HFSD) to test metabolic capacity and beta cell function. Results: Insulin-resistant MKR mice developed hyperglycaemia and a loss of insulin responsiveness in vivo. Basal insulin secretion from the perfused pancreas was elevated, with no response to glucose. Despite the demand on insulin secretion, MKR mice had increased pancreatic insulin content and beta cell mass mediated through hyperplasia and hypertrophy. The HFSD worsened hyperglycaemia in MKR mice but, despite increased food intake in these mice, failed to induce the obesity observed in wild-type mice. Conclusions/interpretation: Our studies demonstrate that insulin resistance of sufficient severity can impair glucose-stimulated insulin secretion, thereby undermining beta cell compensation and leading to hyperglycaemia. Moreover, because insulin stores were intact, the secretory defects reflect an early stage of beta cell dysfunction.

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Insulin resistance causes increased beta-cell mass but defective glucose-stimulated insulin secretion in a murine model of type 2 diabetes

Asghar

Yau

Chan

et al. 2006

Diabetologia

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A method for studying drug metabolism in populations: Racial differences in amobarbital metabolism

Kalow

Tang

Kadar

et al. 1979

Clin Pharma and Therapeutics

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The two main metabolites of amobarbital excreted in urine are 3'-hydroxyamobarbital (C-OH) and 1-(beta-D-glucopyranosyl) amobarbital (N-glu). When testing the metabolite ratio in small single samples of urine, it was found that the urine in a Caucasian population contained about one-third glucose conjugation and two-thirds hydroxylation product, while an Oriental population excreted both metabolites in equal proportion. Attempts to learn the causes for the different metabolite ratios led to an investigation of metabolite concentrations in urine. The sums of the average urinary concentration of C-OH was greater in Caucasians than in Orientals, no matter how the data were expressed; the reverse was true for the N-glu metabolite. C-OH data was scattered more widely among Orientals than Caucasians; this might indicate bimodality of the distribution curves. There also was a trend toward more N-glu metabolite in urine of females than of males. Measuring the metabolite/creatinine ratios narrowed the distribution range of the data, particularly after correction for sex difference in creatinine, but population differences were not changed. Expected relationships between metabolite content of urine, sampling times, and plasma half-life (t1/2) were established by calculation. A Caucasian female with no capacity for N-glucosidation was found during the first part of this population survey. An Oriental male with only trace capacity for amobarbital hydroxylation was found in the second part.

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Optimal design of experiments for the estimation of precise hyperbolic kinetic and binding parameters

Endrényi

Chan

1981

Journal of Theoretical Biology

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Fung-Yee Chan

Functional interaction of AIRE with PIAS1 in transcriptional regulation

Insulin resistance causes increased beta-cell mass but defective glucose-stimulated insulin secretion in a murine model of type 2 diabetes

Insulin resistance causes increased beta-cell mass but defective glucose-stimulated insulin secretion in a murine model of type 2 diabetes

A method for studying drug metabolism in populations: Racial differences in amobarbital metabolism

Optimal design of experiments for the estimation of precise hyperbolic kinetic and binding parameters

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