BACKGROUND: Much evidence demonstrates that elevated free fatty acids (FFAs) are associated with insulin resistance. However, it is not clear whether different FFAs can cause different degrees of peripheral insulin re...BACKGROUND: Much evidence demonstrates that elevated free fatty acids (FFAs) are associated with insulin resistance. However, it is not clear whether different FFAs can cause different degrees of peripheral insulin resistance. This study aimed to investigate the effects of short-term elevation of FFAs on hepatic and peripheral insulin action, and determine whether FFAs with different degrees of saturation have differential effects on hepatic insulin resistance. METHODS: Intralipid+heparin (IH, polyunsaturated fatty acids), oleate (OLE), lard oil+heparin (LOH), and saline (SAL) were separately infused intravenously for 7 hours in normal Wistar rats. During the last 2 hours of the fat/saline infusion, a hyperinsulinemic-euglycemic clamping was performed with [6-H-3] glucose tracer. Plasma glucose was measured using the glucose oxygenase method. Plasma insulin and C-peptide were determined by radioimmunoassays. Plasma FFAs were measured using a colorimetric method. RESULTS: Compared with infusion of SAL, plasma FFA levels were significantly elevated by infusions of IH, OLE, and LOH (P<0.001). All three fat infusions caused remarkably higher hepatic glucose production (HGP) than SAL (P<0.001). OLE and LOH infusions induced much higher HGP than IH (P<0.01). Glucose utilization (GU) was decreased with all three fat infusions relative to SAL (P<0.001), but GU did not differ among the three types of fat infusions. CONCLUSIONS: Short-term elevation of FFAs can induce hepatic and peripheral insulin resistance. Polyunsaturated fatty acids induced less hepatic insulin resistance than monounsaturated or saturated fatty acids. However, IH, OLE, and LOH infusions induced similar peripheral insulin resistance.展开更多
BACKGROUND: It has been reported that high-dose salicylates improve free fatty acids (FFAs)-induced insulin resistance and beta-cell dysfunction in vitro, but the mechanism remains uncertain. In insulin-resistant rats...BACKGROUND: It has been reported that high-dose salicylates improve free fatty acids (FFAs)-induced insulin resistance and beta-cell dysfunction in vitro, but the mechanism remains uncertain. In insulin-resistant rats, we found that the supplementation of sodium salicylate is associated with a reduction of plasma malondialdehyde (MDA), a marker of oxidative stress. Few studies have investigated the effects of salicylates on oxidative stress levels in insulin-resistant animal models. This study aimed to assess the effect of sodium salicylate on insulin sensitivity and to explore the potential mechanism by which it improves hepatic and peripheral insulin resistance. METHODS: Intralipid+heparin (IH), saline (SAL), or intralipid+heparin+sodium salicylate (IHS) were separately infused for 7 hours in normal Wistar rats. During the last 2 hours of the infusion, hyperinsulinemic-euglycemic clamping was 3 performed with [6-(3)H] glucose tracer. Plasma glucose was measured using the glucose oxygenase method. Plasma insulin and C-peptide were determined by radioimmunoassay. MDA levels and glutathione peroxidase (GSH-PX) activity in the liver and skeletal muscle were measured with colorimetric kits. RESULTS: Compared with infusion of SAL, IH infusion increased hepatic glucose production (HGP), and decreased glucose utilization (GU) (P<0.05). The elevation of plasma free fatty acids increased the MDA levels and decreased the GSH-PX activity in the liver and muscle (P<0.01). Sodium salicylate treatment decreased HGP, elevated GU (P<0.05), reduced MDA content by 60% (P<0.01), and increased the GSH-PX activity by 35% (P<0.05). CONCLUSIONS: Short-term elevation of fatty acids induces insulin resistance by enhancing oxidative stress levels in the liver and muscle. The administration of the anti-inflammatory drug sodium salicylate reduces the degree of oxidative stress, therefore improving hepatic and peripheral insulin resistance. IKK-beta and NF-kappa B provide potential pathogenic links to oxidative stress.展开更多
Background Dipeptidyl peptidase-lV (DPP-4) inhibitors are now used to improve postprandial glycemic control in type 2 diabetes. However, their effects on hepatic glucose production (HGP) in obesity are not clear. ...Background Dipeptidyl peptidase-lV (DPP-4) inhibitors are now used to improve postprandial glycemic control in type 2 diabetes. However, their effects on hepatic glucose production (HGP) in obesity are not clear. This study was designed to test the hypothesis that gluconeogenesis and HGP can be modulated by DPP-4 inhibitors in obesity. Methods Sprague Dawley male rats were divided into four groups, each on a different diet: general rat chow, n=10 (G); G+sitagliptin, n=10; high fat chow (obesity), n=10 (55% fat calories, HFO); HFO+sitagliptin, n=10. After 10 weeks, the rats were fasted overnight and glucose metabolism was determined using 3-3H-glucose and 14C-glycerol as tracers. Results Glycerol rate of appearance (P 〈0.00001), plasma glycerol (P 〈0.05) and free fatty acid (FFA) (P 〈0.05) concentrations, and HGP (P 〈0.05) were decreased in HFO+sitagliptin group compared with HFO group, but there was no significant difference between G and G+sitagliptin groups (P 〉0.05). Gluconeogenesis in HFO group was five times of that in G rats (P 〈0.01), but was significantly declined in HFO+sitagliptin group (P 〈0.0001). Conclusions Gluconeogenesis and HGP were inhibited by sitagliptin in high fat-induced obese rats due to decreased glycerol availability, which was a result of reduced glycerol release from adipose tissues. The finding suggests that sitagliptin is potentially useful for controlling fasting glucose in obesity, thereby delaying or preventing the development of diabetes.展开更多
Methods of performing insulin clamps vary between laboratories.Here we present a protocol of insulin clamping in conscious mice,with the significant advantage of avoiding multiple surgical catheterizations and non-phy...Methods of performing insulin clamps vary between laboratories.Here we present a protocol of insulin clamping in conscious mice,with the significant advantage of avoiding multiple surgical catheterizations and non-physiologic metabolism during the induction of anesthesia.Using this technique we also established a new method for measuring hepa tic glucose production(HGP)using a fuorescent D-glucose analog,2-[N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino]-2-deoxyglu-cose(2-NBDG).To prove the reliability and feasibility of this method,whole-body insulin sensitivity was compared between conscious normal ICR mice and diabetic KK^(Ay) mice using the insulin clamp.Basal and clamp HGP was compared between normal C57 mice and diabetic db/db mice by using the modified clamp with 2-NBDG as a tracer.The glucose infusion rate(GIR),an index of insulin sensitivity,was significantly lower in KKAy mice than normal ICR mice.(6.2±1.3 mg/kg/min vs.31.3±2.9 mg/kg/min,P<0.001).The db/db mice also showed higher basal hepatic glucose production(25.8±2.2 mg/kg/min vs.16.7±2.5 mg/kg/min,P<0.05),higher clamp HGP after insulin suppression(7.3±1.0 mg/kg/min vs.0 mg/kg/min,P<0.001),and lower GIR(71.6±2.8 mg/kg/min vs.15.2±1.6 mg/kg/min,P<0.001)than that obtained with normal C57 mice.In conclusion,this is the first report of the application of 2-NBDG,rather than isotopic tracers,for the determination of HGP in vivo.展开更多
文摘BACKGROUND: Much evidence demonstrates that elevated free fatty acids (FFAs) are associated with insulin resistance. However, it is not clear whether different FFAs can cause different degrees of peripheral insulin resistance. This study aimed to investigate the effects of short-term elevation of FFAs on hepatic and peripheral insulin action, and determine whether FFAs with different degrees of saturation have differential effects on hepatic insulin resistance. METHODS: Intralipid+heparin (IH, polyunsaturated fatty acids), oleate (OLE), lard oil+heparin (LOH), and saline (SAL) were separately infused intravenously for 7 hours in normal Wistar rats. During the last 2 hours of the fat/saline infusion, a hyperinsulinemic-euglycemic clamping was performed with [6-H-3] glucose tracer. Plasma glucose was measured using the glucose oxygenase method. Plasma insulin and C-peptide were determined by radioimmunoassays. Plasma FFAs were measured using a colorimetric method. RESULTS: Compared with infusion of SAL, plasma FFA levels were significantly elevated by infusions of IH, OLE, and LOH (P<0.001). All three fat infusions caused remarkably higher hepatic glucose production (HGP) than SAL (P<0.001). OLE and LOH infusions induced much higher HGP than IH (P<0.01). Glucose utilization (GU) was decreased with all three fat infusions relative to SAL (P<0.001), but GU did not differ among the three types of fat infusions. CONCLUSIONS: Short-term elevation of FFAs can induce hepatic and peripheral insulin resistance. Polyunsaturated fatty acids induced less hepatic insulin resistance than monounsaturated or saturated fatty acids. However, IH, OLE, and LOH infusions induced similar peripheral insulin resistance.
基金supported by a grant from the Bureau of Education of Liaoning Province,China (No.20060999)
文摘BACKGROUND: It has been reported that high-dose salicylates improve free fatty acids (FFAs)-induced insulin resistance and beta-cell dysfunction in vitro, but the mechanism remains uncertain. In insulin-resistant rats, we found that the supplementation of sodium salicylate is associated with a reduction of plasma malondialdehyde (MDA), a marker of oxidative stress. Few studies have investigated the effects of salicylates on oxidative stress levels in insulin-resistant animal models. This study aimed to assess the effect of sodium salicylate on insulin sensitivity and to explore the potential mechanism by which it improves hepatic and peripheral insulin resistance. METHODS: Intralipid+heparin (IH), saline (SAL), or intralipid+heparin+sodium salicylate (IHS) were separately infused for 7 hours in normal Wistar rats. During the last 2 hours of the infusion, hyperinsulinemic-euglycemic clamping was 3 performed with [6-(3)H] glucose tracer. Plasma glucose was measured using the glucose oxygenase method. Plasma insulin and C-peptide were determined by radioimmunoassay. MDA levels and glutathione peroxidase (GSH-PX) activity in the liver and skeletal muscle were measured with colorimetric kits. RESULTS: Compared with infusion of SAL, IH infusion increased hepatic glucose production (HGP), and decreased glucose utilization (GU) (P<0.05). The elevation of plasma free fatty acids increased the MDA levels and decreased the GSH-PX activity in the liver and muscle (P<0.01). Sodium salicylate treatment decreased HGP, elevated GU (P<0.05), reduced MDA content by 60% (P<0.01), and increased the GSH-PX activity by 35% (P<0.05). CONCLUSIONS: Short-term elevation of fatty acids induces insulin resistance by enhancing oxidative stress levels in the liver and muscle. The administration of the anti-inflammatory drug sodium salicylate reduces the degree of oxidative stress, therefore improving hepatic and peripheral insulin resistance. IKK-beta and NF-kappa B provide potential pathogenic links to oxidative stress.
文摘Background Dipeptidyl peptidase-lV (DPP-4) inhibitors are now used to improve postprandial glycemic control in type 2 diabetes. However, their effects on hepatic glucose production (HGP) in obesity are not clear. This study was designed to test the hypothesis that gluconeogenesis and HGP can be modulated by DPP-4 inhibitors in obesity. Methods Sprague Dawley male rats were divided into four groups, each on a different diet: general rat chow, n=10 (G); G+sitagliptin, n=10; high fat chow (obesity), n=10 (55% fat calories, HFO); HFO+sitagliptin, n=10. After 10 weeks, the rats were fasted overnight and glucose metabolism was determined using 3-3H-glucose and 14C-glycerol as tracers. Results Glycerol rate of appearance (P 〈0.00001), plasma glycerol (P 〈0.05) and free fatty acid (FFA) (P 〈0.05) concentrations, and HGP (P 〈0.05) were decreased in HFO+sitagliptin group compared with HFO group, but there was no significant difference between G and G+sitagliptin groups (P 〉0.05). Gluconeogenesis in HFO group was five times of that in G rats (P 〈0.01), but was significantly declined in HFO+sitagliptin group (P 〈0.0001). Conclusions Gluconeogenesis and HGP were inhibited by sitagliptin in high fat-induced obese rats due to decreased glycerol availability, which was a result of reduced glycerol release from adipose tissues. The finding suggests that sitagliptin is potentially useful for controlling fasting glucose in obesity, thereby delaying or preventing the development of diabetes.
基金This work was supported by the grants from the Key Project of the National Twelfth-Five Year Research Program of China and National S&T Major Special Project on Major New Drug Innovation(No.2012ZX09301002-004).
文摘Methods of performing insulin clamps vary between laboratories.Here we present a protocol of insulin clamping in conscious mice,with the significant advantage of avoiding multiple surgical catheterizations and non-physiologic metabolism during the induction of anesthesia.Using this technique we also established a new method for measuring hepa tic glucose production(HGP)using a fuorescent D-glucose analog,2-[N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino]-2-deoxyglu-cose(2-NBDG).To prove the reliability and feasibility of this method,whole-body insulin sensitivity was compared between conscious normal ICR mice and diabetic KK^(Ay) mice using the insulin clamp.Basal and clamp HGP was compared between normal C57 mice and diabetic db/db mice by using the modified clamp with 2-NBDG as a tracer.The glucose infusion rate(GIR),an index of insulin sensitivity,was significantly lower in KKAy mice than normal ICR mice.(6.2±1.3 mg/kg/min vs.31.3±2.9 mg/kg/min,P<0.001).The db/db mice also showed higher basal hepatic glucose production(25.8±2.2 mg/kg/min vs.16.7±2.5 mg/kg/min,P<0.05),higher clamp HGP after insulin suppression(7.3±1.0 mg/kg/min vs.0 mg/kg/min,P<0.001),and lower GIR(71.6±2.8 mg/kg/min vs.15.2±1.6 mg/kg/min,P<0.001)than that obtained with normal C57 mice.In conclusion,this is the first report of the application of 2-NBDG,rather than isotopic tracers,for the determination of HGP in vivo.
