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Browsing by Person "Ball, A. J."

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    Chronic exposure to tolbutamide and glibenclamide impairs insulin secretion but not transcription of KATP channel components
    (Elsevier, 2004-07) Ball, A. J.; McCluskey, Jane T.; Flatt, P. R.; McClenaghan, N. H.
    Clonal insulin-secreting BRIN-BD11 cells were used to examine effects of chronic 72-144 h exposure to the sulphonylureas tolbutamide and glibenclamide on insulin release, cellular insulin content, and mRNA levels of the Kir6.2 and SUR1 subunits of the beta-cell K(ATP) channel. Chronic exposure for 72-144 h to 5-100 microM tolbutamide and glibenclamide resulted in a time- and concentration-dependent irreversible decline in sulphonylurea-induced insulin secretion. In contrast, the decline in cellular insulin content induced by chronic exposure to high concentrations of sulphonylureas was readily reversible. Chronic exposure to tolbutamide or glibenclamide had no effect upon transcription of the Kir6.2 or SUR1 subunits of the pancreatic beta-cell K(ATP) channel. Whilst further studies are required to understand the precise nature of the chronic interactions of sulphonylurea with the insulin exocytotic mechanism, these observations may partially explain the well-known progressive failure of sulphonylurea therapy in type 2 diabetes.
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    Drug-induced desensitization of insulinotropic actions of sulfonylureas.
    (Elsevier, 2000-04-29) Ball, A. J.; McCluskey, Jane T.; Flatt, P. R.; McClenaghan, N. H.
    K(ATP)-channel-dependent and K(ATP)-channel-independent insulin-releasing actions of the sulfonylurea, tolbutamide, were examined in the clonal BRIN-BD11 cell line. Tolbutamide stimulated insulin release at both nonstimulatory (1.1 mM) and stimulatory (16. 7 mM) glucose. Under depolarizing conditions (16.7 mM glucose plus 30 mM KCl) tolbutamide evoked a stepwise K(ATP) channel-independent insulinotropic response. Culture (18 h) with tolbutamide or the guanidine derivative BTS 67 582 (100 microM) markedly reduced (P < 0. 001) subsequent responsiveness to acute challenge with tolbutamide, glibenclamide, and BTS 67 582 but not the imidazoline drug, efaroxan. Conversely, 18 h culture with efaroxan reduced (P < 0.001) subsequent insulinotropic effects of efaroxan but not that of tolbutamide, glibenclamide, or BTS 67 582. Culture (18 h) with tolbutamide reduced the K(ATP) channel-independent actions of both tolbutamide and glibenclamide. Whereas culture with efaroxan exerted no effect on the K(ATP) channel-independent actions of sulfonylureas, BTS 67 582 abolished the response of tolbutamide and inhibited that of glibenclamide. These data demonstrate that prolonged exposure to tolbutamide desensitizes both K(ATP)-channel-dependent and -independent insulin-secretory actions of sulfonylureas, indicating synergistic pathways mediated by common sulfonylurea binding site(s).