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Query: UMLS:C0020473 (
hyperlipidemia
)
15,891
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hyperinsulinaemia in the fasting state and a blunted insulin secretory response to acute glucose stimulation are commonly observed in obesity associated non-insulin-dependent diabetes mellitus.
Hyperlipidaemia
is a hallmark of obesity and may play a role in the pathogenesis of this beta-cell dysfunction because glucose metabolism in pancreatic beta cells may be altered by the increased lipid load. We tested this hypothesis by assessing the chronic effect of oleic acid on glucose metabolism and its relationship with glucose-induced insulin release in beta
HC9
cells in tissue culture. Our results show: (1) A 4-day treatment with oleic acid caused an enhancement of insulin release at 0-5 mmol/l glucose concentrations while a significant decrease in insulin release occurred when the glucose level was greater than 15 nmol/l; (2) Hexokinase activity was increased and a corresponding left shift of the dose-dependency curve of glucose usage was observed associated with inhibition of glucose oxidation in oleic acid treated beta
HC9
cells, yet the presumed glucose-related ATP generation did not parallel the change in insulin release due to glucose; (3) The rate of cellular respiration was markedly increased in oleic acid treated beta
HC9
cells both in the absence of glucose and at all glucose concentrations tested. This enhanced oxidative metabolism may explain the increased insulin release at a low glucose level but is clearly dissociated from the blunted insulin secretion at high glucose concentrations. We conclude that a reduction of oxidative metabolism in pancreatic beta cells is unlikely to be the cause of the dramatic effect that high levels of non-esterified fatty acids have on glucose-induced insulin release.
...
PMID:Chronic effect of fatty acids on insulin release is not through the alteration of glucose metabolism in a pancreatic beta-cell line (beta HC9). 930 Feb 38
The
hyperlipidemia
and hyperglycemia of the diabetic state accelerate beta-cell dysfunction, yet the mechanisms are not fully defined. We used rat islet-specific oligonucleotide arrays (Metabolex Rat Islet Genechips) to identify genes that are coordinately regulated by high glucose and free fatty acids (FFA). Exposure of rat islets to FFA (125 microM for 2 days) or glucose (27 mM for 4 days) reduced glucose-stimulated insulin secretion by 70 +/- 5 and 40 +/- 4%, respectively, relative to control-cultured islets. These treatments also substantially reduced the insulin content of the islets. Islet Genechips analysis revealed that the mRNA levels of cAMP response element modulator (CREM)-17X and inducible cAMP early repressor were significantly increased in both 27 mM glucose- and FFA-treated islets. Removing FFA or high glucose from the culture medium restored glucose-stimulated insulin secretion and the mRNA levels of the two CREM repressors to normal. Northern blot analysis revealed a 5-fold increase in the abundance of CREM-17X mRNA and a concomitant 50% reduction in the insulin mRNA in FFA-treated islets. Transient transfection of the insulin-secreting beta
HC9
cells with CREM-17X suppressed rat insulin promoter activity by nearly 50%. Overexpression of CREM-17X in intact islets via adenovirus infection decreased islet insulin mRNA levels and insulin content and resulted in a significant decrease in glucose- or KCl-induced insulin secretion. Taken together, these data suggest that up-regulation of CREM repressors by either FFA or high glucose exacerbates beta-cell failure in type 2 diabetes by suppressing insulin gene transcription.
...
PMID:Overexpression of repressive cAMP response element modulators in high glucose and fatty acid-treated rat islets. A common mechanism for glucose toxicity and lipotoxicity? 1453 19
