Different Effects of Glyburide and Glipizide on Insulin Secretion and Hepatic Glucose Production in Normal and NIDDM Subjects

Groop, Leif; Luzi, Livio; Melander, Arne; Groop, Perc-Henrik; Ratheiser, Klaus; Simonson, Donald C.; DeFronzo, Ralph A.

doi:10.2337/diab.36.11.1320

Cited by 87 publications

(17 citation statements)

References 25 publications

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“…Although one has to be cautious in relating findings obtained in diabetic animal models to diabetic patients, our results in the n0-STZ and n5-STZ (group B) rats agree with clinical reports which conclude that chronic sulfonylurea therapy augments both basal and stimulated first phase insulin secretion in Type 2 diabetes by increasing islet sensitivity to glucose [15,16,41] while the acute sulfonylurea administration does not significantly improve their first phase insulin secretion [42].…”

Section: Discussionsupporting

confidence: 88%

Long-term gliclazide treatment improves the in vitro glucose-induced insulin release in rats with Type 2 (non-insulin-dependent) diabetes induced by neonatal streptozotocin

1989

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Summary. Neonatal rats treated with streptozotocin on the day of birth (n0-STZ) or on day 5 (n5-STZ) exhibited when fully grown a very mild or frank basal hyperglycaemia respectively and a specific failure of insulin release in response to glucose. To determine whether short (1 day) or long-term (30 days) gliclazide treatment modifies the pancreatic insulin content and the B-cell response to secretagogues, diabetic rats were given oral gliclazide (10 mg/kg per day) and compared to control diabetic and non-diabetic rats. Insulin secretion in the isolated perfused pancreas was studied the day after the last gliclazide administration. In severely hyperglycaemic n5-STZ rats (plasma glucose levels > 16 mmol/1) long-term gliclazide treatment did not lower the plasma glucose values, did not affect the pancreatic insulin stores, nor did it significantly modify the insulin release in vitro in response to glucose or arginine. In moderately hyperglycaemic n5-STZ rats (plasma glucose levels <16retool/I) the plasma glucose levels declined progressively reaching 8 mmol/l as a mean at the end of the gliclazide therapy. In the n5-STZ rats responsive to gliclazide the pancreatic insulin stores were increased twofold as compared to values in untreated n5-STZ rats, however, this difference did not reached significance and the pancreatic insulin stores in the responsive gliclazide treated rats remained depleted by 76% compared to normal insulin stores. In the n0-STZ rats (very mild hyperglycaemia) the long-term gliclazide treatment did not significantly modify the plasma glucose levels or the pancreatic insulin stores. After the 30-day gliclazide therapy in both the n5-STZ gliclazide responder group and the n0-STZ group: (1) the in vitro glucose-induced insulin secretion was increased three to fivefold, (2) the response to arginine which was basically increased in the untreated diabetic rats was again amplified two to threefold, (3) the insulin release in resp, onse to gliclazide was unchanged. In conclusion, long-term gliclazide therapy augments stimulated insulin secretion in these two rat models of Type 2 (non-insulin-dependent) diabetes and does not induce any refractoriness to acute sulfonylurea stimulation. The improvement of Bcell function observed here was not related to the concomitant variations of hyperglycaemia and/or pancreatic insulin content

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Section: Discussionsupporting

confidence: 88%

Long-term gliclazide treatment improves the in vitro glucose-induced insulin release in rats with Type 2 (non-insulin-dependent) diabetes induced by neonatal streptozotocin

1989

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“…Blood cyclosporin concentration was measured by RIA utilizing monoclonal antibodies to recognize native cyclosporin A (Cyclo-Trac, Incstar Co., Stitlwater, Minn., USA) [42]. Plasma 3-3H-glucose specific radioactivity was measured in duplicate on the supernatants of Ba(OH)JZnSO4 precipitates, after total evaporation to eliminate 3H-water (Somogyi's method) [26]. Urinary nitrogen excretion was measured by Kjeldhal's method [23].…”

Section: Analytical Proceduresmentioning

confidence: 99%

Reduction of insulin resistance by combined kidney-pancreas transplantation in Type 1 (insulin-dependent) diabetic patients

et al. 1990

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Summary.To evaluate the effect of combined kidney and pancreas transplantation on insulin action and glucose metabolism, 15 Type 1 (insulin-dependent) diabetic patients who were undergoing combined kidney-pancreas transplantation were studied before transplantation by means of the euglycaemic hyperinsulinaemic clamp technique combined with 3-3H-glucose infusion and indirect calorimetry. Nine of the original 15 patients were studied again after four months and six after 12 months, successful combined kidney-pancreas transplantation with the same experimental protocol. Nine volunteers formed the group of normal subjects. Combined kidney-pancreas transplantation normalised hepatic glucose production and reduced peripheral insulin resistance in Type 1 diabetic uraemic patients, despite chronic immunosuppressive therapy. To further evaluate the hypothesis that residual insulin resistance was due to chronic steroid therapy, 11 additional subjects with chronic uveitis (six of whom were treated with only prednisone, and five treated only with cyclosporin) underwent the same protocol demonstrating a normal hepatic glucose production. The insulin-stimulated peripheral glucose uptake was reduced in the prednisonetreated group, but normal in cyclosporin-treated subjects. Four additional diabetic patients with a kidney transplant were also studied. They showed a peripheral insulin sensitivity intermediate between diabetic uraemic patients and patients after combined transplant. We conclude that shortterm (one year) combined kidney-pancreas transplantation improves glucose metabolism by restoring normal rates of hepatic glucose production and reducing peripheral insulin resistance; chronic steroid therapy is the major determinant of residual reduced insulin action. Both kidney and pancreas substitution play a role in reducing peripheral insulin resistance.

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“…The difference in the magnitude of the two responses was statistically significant (p < 0.03), providing further support for the view that insulin can directly inhibit HGP, independent of any change in flow of substrates from periphery to liver. [Diabetologia (1997[Diabetologia ( ) 40: 1300[Diabetologia ( -1306 Keywotds Liver, insulin, portal system, C-peptide, tolbutamide.Evidence has been published showing that hepatic glucose production (HGP) is decreased following the infusion of either insulin or sulfonylurea compounds [1][2][3][4], and this is generally assumed to be due to a direct effect of insulin on the liver. However, the results of two recent studies in dogs [5,6] of insulin, suggesting that the ability of insulin to inhibit HGP may be mediated through its peripheral action on substrate flow to the liver.…”

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confidence: 99%

Evidence that insulin can directly inhibit hepatic glucose production

et al. 1997

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SummaryIn order to evaluate the role of portal insulin in the modulation of hepatic glucose production (HGP), measurements of plasma glucose and insulin concentrations and both HGP and peripheral glucose disappearance rates were made following an infusion of a dose of tolbutamide (0.74 mgm -2. min -1) in healthy volunteers that does not result in an increase in peripheral vein insulin concentrations or metabolic clearance rate of glucose. The results showed that the infusion of such a dose of tolbutamide was associated with a significant and rapid decline in both HGP (from 9.0 + 0.5 to 7.7 + 0.5~tmol.kg -1.min -1 or A= -13.8+4.5%; p< 0.001 compared to saline) and plasma glucose concentration (from 5.1+ 0.2 to 4.4+ 0.1mmol/l or A = -13.0 + 2.1%; p < 0.01 compared to saline). Since neither HGP nor fasting glucose fell when tolbutamide-stimulated insulin secretion was inhibited by the concurrent administration of somatostatin, it indicated that tolbutamide by itself, does not directly inhibit HGP. Finally, HGP fell by 26.3 + 6.0 % at 10 min after a dose of tolbutamide that elevated both peripheral and portal insulin concentrations, at a time when HGP had barely increased (A = + 6.9 + 5.3 %). The difference in the magnitude of the two responses was statistically significant (p < 0.03), providing further support for the view that insulin can directly inhibit HGP, independent of any change in flow of substrates from periphery to liver. [Diabetologia (1997[Diabetologia ( ) 40: 1300[Diabetologia ( -1306 Keywotds Liver, insulin, portal system, C-peptide, tolbutamide.Evidence has been published showing that hepatic glucose production (HGP) is decreased following the infusion of either insulin or sulfonylurea compounds [1][2][3][4], and this is generally assumed to be due to a direct effect of insulin on the liver. However, the results of two recent studies in dogs [5,6] of insulin, suggesting that the ability of insulin to inhibit HGP may be mediated through its peripheral action on substrate flow to the liver. Although we think it reasonable that insulin can inhibit HGP by decreasing substrate flow to the liver, the experiments to be presented were initiated to see whether insulin can also inhibit HGP directly. In order to accomplish this task non-invasively, we measured HGP, in normal subjects, in response to a continuous infusion of tolbutamide that would not significantly increase peripheral insulin concentrations and compared it to a saline) infusion. Under these conditions, HGP should have been similar in both studies if HGP was only modulated by the peripheral inhibition of substrate flow. Since HGP was significantly lower following tolbutamide, the data are consistent with the hypothesis that insulin can directly inhibit HGE

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Different Effects of Glyburide and Glipizide on Insulin Secretion and Hepatic Glucose Production in Normal and NIDDM Subjects

Cited by 87 publications

References 25 publications

Long-term gliclazide treatment improves the in vitro glucose-induced insulin release in rats with Type 2 (non-insulin-dependent) diabetes induced by neonatal streptozotocin

Long-term gliclazide treatment improves the in vitro glucose-induced insulin release in rats with Type 2 (non-insulin-dependent) diabetes induced by neonatal streptozotocin

Reduction of insulin resistance by combined kidney-pancreas transplantation in Type 1 (insulin-dependent) diabetic patients

Evidence that insulin can directly inhibit hepatic glucose production

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