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Induction of glycation suppresses glucokinase gene expression in HIT-T15 cells (1999)

Kajimoto, Y. ; Matsuoka, T. ; Kaneto, H. ; [et al.]

Springer

Diabetologia 42 (1999), S. 1417-1424

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ISSN: 1432-0428

Keywords: Keywords Gene expression regulation, transcription factors, glycosylation, homeodomain protein, oxidative stress.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Aims/hypothesis. Chronic hyperglycaemia in patients with Type II (non-insulin-dependent) diabetes mellitus often leads to a decline in glucose-responsive insulin secretion from pancreatic beta cells, a phenomenon called glucose toxicity. Upon hyperglycaemia, glycation reaction occurs in the beta cells and induces oxidative stress. To understand the molecular basis of the beta-cell glucose toxicity, we investigated the possible effects of glycation on the expression and enzymatic activity of glucokinase, which plays a crucial part in glucose-responsive insulin secretion.¶Methods. Glycation and reactive oxygen species were induced in HIT-T15 cells by treatment with d-ribose and effects on glucokinase gene transcription, glucokinase protein amount, glucose phosphorylation activity, and DNA-binding activities of putative glucokinase gene transcription factors were evaluated.¶Results. When glycation was induced in HIT-T15 cells, the activity of the human glucokinase gene beta-cell-type promoter was suppressed substantially (83 % reduction at 60 mmol/l d-ribose). Also, similar reductions in mRNA and protein amounts of glucokinase and in the Vmax of its enzymatic activity were observed. In agreement with the reduction in the promoter activity, the two major transcription factors of the glucokinase gene, the Pal-binding factor and PDX-1, reduced their binding to their target sequences in the glucokinase gene promoter in glycation-induced HIT cells. Because these effects of d-ribose were counteracted by aminoguanidine or N-acetylcysteine, reactive oxygen species, generated by the glycation reaction, appears to be involved in the phenomena.¶Conclusion/interpretation. The induction of the glycation reaction, which is known to occur in pancreatic beta cells in chronic hyperglycaemia, suppresses the glucokinase gene transcription and its enzymatic activity. Thus, hyperglycaemia-dependent inhibition of glucokinase activity could in part explain beta-cell glucose toxicity. [Diabetologia (1999) 42: 1417–1424]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250051313

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Oxidative stress induces p21 expression in pancreatic islet cells: possible implication in beta-cell dysfunction (1999)

Kaneto, H. ; Kajimoto, Y. ; Fujitani, Y. ; [et al.]

Springer

Diabetologia 42 (1999), S. 1093-1097

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ISSN: 1432-0428

Keywords: Keywords Oxidative stress ; glucose toxicity ; p21 ; cyclin-dependent kinase ; insulin gene ; insulin secretion ; beta-cell.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Aims/hypothesis. Prolonged poor glycaemic control in patients with Type II (non-insulin-dependent) diabetes mellitus often causes pancreatic beta-cell dysfunction accompanied by decreases in insulin biosynthesis and beta-cell proliferation. This is well known as a clinical concept called glucose toxicity. Whereas oxidative stress is provoked under diabetic conditions, we examined the possible implication of cyclin-dependent kinase (Cdk) inhibitor p21 (WAF1/CIP1/Sdi1) in beta-cell dysfunction mediated by oxidative stress. Methods. Oxidative stress was induced in isolated rat pancreatic islet cells by treatment with H2O2 and mRNA expression of p21 and insulin was examined by northern blot analyses. Also, the expression of p21 and insulin mRNA was examined in Zucker diabetic fatty rat. In islet cells p21 was overexpressed using adenovirus and its effect on insulin gene transcription was examined. Results. When oxidative stress was charged on isolated rat pancreatic islet cells, p21 mRNA expression was induced whereas insulin mRNA was decreased. Also, when diabetes developed in Zucker diabetic fatty rats, p21 expression was induced and the insulin mRNA expression was reduced. As support for the implication of p21 in impairment of beta-cell function, the p21 overexpression in the islet cells suppressed the insulin gene transcription. Conclusions/interpretation. The expression of cyclin-dependent kinase inhibitor p21, which can be induced by oxidative stress, increases in pancreatic islet cells upon development of diabetes. By suppressing cell proliferation and insulin biosynthesis, the p21 induction is likely to be implicated in the beta-cell glucose toxicity. [Diabetologia (1999) 42: 1093–1097}

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250051276

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