Impaired β-cell Function in the Chinese Hamster CHIG/Han Subline

 

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Summary

Plasma glucose and insulin levels were measured in the genetically diabetic CHIG/Han and the diabetes-resistant CHIA/Han subline of the Chinese hamster. At 31 ± 8 wk of age, the CHIG hamsters were grouped into nondiabetic, mildly and severely diabetic, according to their levels of glycemia. Hyperinsulinemia, occurring in nondiabetic and mildly diabetic CHIG hamsters, was attenuated in severely diabetic animals. Light microscopy and immunohistochemistry revealed initial ß-cell hyperplasia, followed by extensive degranulation and loss of immunoreactive insulin in islets of severely diabetic animals. Staining intensity of glucagon-immunoreactive cells was unchanged in nondiabetic and mildly diabetic animals, but was increased in islets from the severely diabetic hamsters. A static incubation system was used to examine the insulin response of pancreatic islets isolated from the diabetic and nondiabetic CHIG hamsters, and the diabetes-resistant CHIA subline. Compared with the nondiabetic CHIG hamsters, islets from mildly and severely diabetic animals displayed increased basal insulin release at 1.5 mmol/1 and a deficient response at 10 mmol/1 glucose which was associated with 61 and 77% decreases (p < 0.01 and p < 0.001) in the islet insulin content. The addition of the phosphor-diesterase inhibitor 3-isobutyl-l-methylxanthine (IBMX) enhanced glucose-stimulated insulin release from islets of nondiabetic and mildly diabetic CHIG hamsters, although the response elicited was lower than from CHIA islets. However, IBMX failed to significantly increase the glucose-stimulated insulin response of islets from severely diabetic hamsters. A negative correlation (r = — 0.73, p<0.001, n = 48) was found between islet insulin content and plasma glucose levels. The data suggest that the reduced secretory capacity represents an early islet ß-cell dysfunction, and the decrease in the insulin content contributes to the islet abnormalities in the diabetes-susceptible CHIG hamsters.