Mason Shaun A, Della Gatta Paul A, Snow Rod J, Russell Aaron P, Wadley Glenn D
Centre for Physical Activity and Nutrition (C-PAN) Research, School of Exercise and Nutrition Sciences, Deakin University, 221 Burwood Highway, Burwood, Victoria 3125, Australia.
Centre for Physical Activity and Nutrition (C-PAN) Research, School of Exercise and Nutrition Sciences, Deakin University, 221 Burwood Highway, Burwood, Victoria 3125, Australia.
Free Radic Biol Med. 2016 Apr;93:227-38. doi: 10.1016/j.freeradbiomed.2016.01.006. Epub 2016 Jan 13.
AIM/HYPOTHESIS: Skeletal muscle insulin resistance and oxidative stress are characteristic metabolic disturbances in people with type 2 diabetes. Studies in insulin resistant rodents show an improvement in skeletal muscle insulin sensitivity and oxidative stress following antioxidant supplementation. We therefore investigated the potential ameliorative effects of antioxidant ascorbic acid (AA) supplementation on skeletal muscle insulin sensitivity and oxidative stress in people with type 2 diabetes.
Participants with stable glucose control commenced a randomized cross-over study involving four months of AA (2 × 500 mg/day) or placebo supplementation. Insulin sensitivity was assessed using a hyperinsulinaemic, euglycaemic clamp coupled with infusion of 6,6-D2 glucose. Muscle biopsies were measured for AA concentration and oxidative stress markers that included basal measures (2',7'-dichlorofluorescin [DCFH] oxidation, ratio of reduced-to-oxidized glutathione [GSH/GSSG] and F2-Isoprostanes) and insulin-stimulated measures (DCFH oxidation). Antioxidant concentrations, citrate synthase activity and protein abundances of sodium-dependent vitamin C transporter 2 (SVCT2), total Akt and phosphorylated Akt (ser473) were also measured in muscle samples.
AA supplementation significantly increased insulin-mediated glucose disposal (delta rate of glucose disappearance; ∆Rd) (p=0.009), peripheral insulin-sensitivity index (p=0.046), skeletal muscle AA concentration (p=0.017) and muscle SVCT2 protein expression (p=0.008); but significantly decreased skeletal muscle DCFH oxidation during hyperinsulinaemia (p=0.007) when compared with placebo. Total superoxide dismutase activity was also lower following AA supplementation when compared with placebo (p=0.006). Basal oxidative stress markers, citrate synthase activity, endogenous glucose production, HbA1C and muscle Akt expression were not significantly altered by AA supplementation.
CONCLUSIONS/INTERPRETATION: In summary, oral AA supplementation ameliorates skeletal muscle oxidative stress during hyperinsulinaemia and improves insulin-mediated glucose disposal in people with type 2 diabetes. Findings implicate AA supplementation as a potentially inexpensive, convenient, and effective adjunct therapy in the treatment of insulin resistance in people with type 2 diabetes.
目的/假设:骨骼肌胰岛素抵抗和氧化应激是2型糖尿病患者典型的代谢紊乱。对胰岛素抵抗啮齿动物的研究表明,补充抗氧化剂后骨骼肌胰岛素敏感性和氧化应激有所改善。因此,我们研究了补充抗氧化剂抗坏血酸(AA)对2型糖尿病患者骨骼肌胰岛素敏感性和氧化应激的潜在改善作用。
血糖控制稳定的参与者开始一项随机交叉研究,包括四个月的AA(2×500毫克/天)或安慰剂补充。使用高胰岛素正常血糖钳夹结合输注6,6-D2葡萄糖评估胰岛素敏感性。对肌肉活检样本测量AA浓度和氧化应激标志物,包括基础指标(2',7'-二氯荧光素[DCFH]氧化、还原型谷胱甘肽与氧化型谷胱甘肽的比率[GSH/GSSG]和F2-异前列腺素)以及胰岛素刺激指标(DCFH氧化)。还测量了肌肉样本中的抗氧化剂浓度、柠檬酸合酶活性以及钠依赖性维生素C转运蛋白2(SVCT2)、总Akt和磷酸化Akt(ser473)的蛋白丰度。
与安慰剂相比,补充AA显著增加了胰岛素介导的葡萄糖处置(葡萄糖消失率变化;∆Rd)(p = 0.009)、外周胰岛素敏感性指数(p = 0.046)、骨骼肌AA浓度(p = 0.017)和肌肉SVCT2蛋白表达(p = 0.008);但在高胰岛素血症期间显著降低了骨骼肌DCFH氧化(p = 0.007)。与安慰剂相比,补充AA后总超氧化物歧化酶活性也较低(p = 0.006)。补充AA对基础氧化应激标志物、柠檬酸合酶活性、内源性葡萄糖生成、糖化血红蛋白A1C和肌肉Akt表达无显著影响。
结论/解读:总之,口服AA补充剂可改善高胰岛素血症期间的骨骼肌氧化应激,并改善2型糖尿病患者胰岛素介导的葡萄糖处置。研究结果表明,补充AA作为一种潜在的廉价、方便且有效的辅助疗法可用于治疗2型糖尿病患者的胰岛素抵抗。
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