Abstract

We investigated the effects of aminoguanidine (AG) on β-cell functions in an insulin secreting cell line (INS-1). Culture with 27 mM glucose for one week markedly decreased both insulin release and insulin content compared to culture in 0.8 mM or 3.3 mM glucose. Relative to culture at 27 mM glucose alone, the co-exposure to 1 mM AG almost doubled basal as well as glucose or 25 mM KCl-stimulated insulin release and increased insulin content by 42%. AG failed to affect release and content in cells cultured at 0.8 or 3.3 mM glucose. Preproinsulin mRNA content in 27 mM glucose-cultured cells was 52% suppressed compared to 0.8 mM glucose-cultured cells, and AG treatment partially counteracted this decline. Advanced glycosylation end product (AGE)-associated fluorescence (370 nm excitation and 440 nm emission) of cells′ extracts did not differ between 27 mM and 0.8 mM glucose-cultured cells after 1 week of culture and fluorescence was unaffected by AG. Accumulation of nitrite into culture media was markedly increased from 27 mM glucose-cultured cells, and this accumulation was 33% suppressed by AG. In conclusion, AG partially protects against glucotoxic effects in INS-1 cells. These beneficial effects may involve a decrease in early glycation products and/or nitric oxide synthase (NOS) activity. The effects which were obtained after one week of high glucose exposure may supplement AGE-associated effects seen after chronically elevated glucose.

Highlights

  • Aminoguanidine (AG) is a nucleophilic hydrazine compound which potently inhibits Advanced glycosylation end product (AGE) formation. [1,2] Beneficial effects of AG on diabetic complications have been reported in vivo and in vitro 2 and are associated with inhibitory effects on AGE formation

  • Were time dependent, since they were not observed after 1 but only after 6 weeks of exposure to high glucose and AG. This time dependence is in accord with previous short term studies in which exposure to AG leads to no effect [6] or inhibition [7] of insulin secretion

  • The incorporation of [methyl-3H]thymidine into cells cultured at 0.8mM glucose was not significantly higher than in cells cultured at 27 mM glucose (P 0.3)

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Summary

Introduction

Aminoguanidine (AG) is a nucleophilic hydrazine compound which potently inhibits AGE formation. [1,2] Beneficial effects of AG on diabetic complications have been reported in vivo and in vitro 2 and are associated with inhibitory effects on AGE formation. In the present study we have tested for effects of AG on insulin secretion and biosynthesis in an insulinoma cell line (INS-l) during one week culture, MATERIALS AND METHODS Glucose for 1 week (25.4 4- 7.9 x 106 cps/mg protein) did not differ significantly from fluorescence in 27mM glucose-cultured cells Effects of Glucose Concentration and AG During Culture on Insulin Release and Content

Results
Conclusion

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