运动训练与钠-葡萄糖共转运蛋白 2 抑制剂联合应用可改善 2 型糖尿病啮齿动物模型的葡萄糖耐量和运动能力。
The combination of exercise training and sodium-glucose cotransporter-2 inhibition improves glucose tolerance and exercise capacity in a rodent model of type 2 diabetes.
机构信息
Internal Medicine Research Unit, Pfizer Worldwide Research and Development, Cambridge, MA, United States of America; Department of Health and Exercise Science, Colorado State University, Fort Collins, CO, United States of America.
Internal Medicine Research Unit, Pfizer Worldwide Research and Development, Cambridge, MA, United States of America.
出版信息
Metabolism. 2019 Aug;97:68-80. doi: 10.1016/j.metabol.2019.05.009. Epub 2019 May 25.
PURPOSE
Exercise is recommended in addition to pharmacotherapies for the management of type 2 diabetes, but metformin and exercise training may have non-additive or even inhibitory effects on exercise-induced improvements in glycemic control and exercise capacity. The objectives of this report were to determine if co-treatment with a sodium-glucose cotransporter-2 inhibitor and exercise could (1) further improve glycemic control when compared to either monotherapy and (2) not worsen exercise capacity when compared to exercise alone.
METHODS
A rodent model of type 2 diabetes (30 mg/kg streptozotocin and high-fat feeding in male Sprague-Dawley rats) was used to assess 12 weeks of co-treatment with a sodium-glucose cotransporter 2 inhibitor (SGLT2i) and exercise (EX; treadmill running) on glycemic control and exercise capacity. Animals were randomized to the following conditions (n = 7-10/group): vehicle (0.5% methyl cellulose) sedentary (VEH SED), VEH EX, canagliflozin (3 mg kg d) SED (SGLT2i SED), or SGLT2i EX.
RESULTS
Both EX and SGLT2i independently improved indices of glycemic control. The combination of SGLT2i and EX further improved glucose tolerance (glucose area under the curve 1109 ± 51 vs 1427 ± 82 mmol/ L 120 min for SGLT2i EX vs. SGLT2i SED, respectively; p < 0.05) and insulin responses (insulin area under the curve 24,524 ± 4126 vs. 41,208 ± 2714 pmol L 120 min for SGLT2i EX vs. VEH EX, respectively; p < 0.05) during an oral glucose tolerance test. Only the combination of SGLT2i EX lowered body weight compared to VEH SED (p < 0.01). SGLT2i caused several metabolic adaptations including increased ketone production and a greater reliance on fat as a source of energy during normal cage activity. Interestingly, animals that were given the SGLT2i and underwent exercise training (SGLT2i EX) had better submaximal exercise capacity than EX alone, as indicated by distance run prior to fatigue (882 ± 183 vs.433 ± 33 m for SGLT2i EX and VEH EX, respectively; p < 0.01), and this was accompanied by a greater reliance on fat as an energy source during exercise (p < 0.01).
CONCLUSIONS
If these findings with the combination of SGLT2i and exercise translate to humans, they will have important clinical health implications.
目的
除了药物治疗外,运动也被推荐用于 2 型糖尿病的管理,但二甲双胍和运动训练可能对运动引起的血糖控制和运动能力改善没有附加作用,甚至有抑制作用。本报告的目的是确定联合使用钠-葡萄糖共转运蛋白 2 抑制剂(SGLT2i)和运动是否能(1)与单一疗法相比进一步改善血糖控制,(2)与单独运动相比不会降低运动能力。
方法
使用 2 型糖尿病啮齿动物模型(雄性 Sprague-Dawley 大鼠给予 30mg/kg 链脲佐菌素和高脂肪饮食),评估 SGLT2i 和运动(跑步机跑步)联合治疗 12 周对血糖控制和运动能力的影响。动物随机分为以下几组(每组 n=7-10):载体(0.5%甲基纤维素)静息(VEH SED)、VEH EX、卡格列净(3mgkgd)静息(SGLT2i SED)或 SGLT2i EX。
结果
EX 和 SGLT2i 均能独立改善血糖控制指标。SGLT2i 和 EX 的联合应用进一步改善了葡萄糖耐量(葡萄糖 AUC 1109±51 对 1427±82mmol/L120min 分别为 SGLT2i EX 对 SGLT2i SED,p<0.05)和胰岛素反应(胰岛素 AUC 24524±4126 对 41208±2714pmol/L120min 分别为 SGLT2i EX 对 VEH EX,p<0.05)在口服葡萄糖耐量试验期间。只有 SGLT2i EX 组与 VEH SED 相比降低了体重(p<0.01)。SGLT2i 引起了多种代谢适应性变化,包括酮体生成增加,以及在正常笼内活动中更依赖脂肪作为能量来源。有趣的是,接受 SGLT2i 并接受运动训练的动物(SGLT2i EX)的亚最大运动能力优于单独接受 EX 的动物,表现为疲劳前的跑步距离(SGLT2i EX 和 VEH EX 分别为 882±183 对 433±33m,p<0.01),并且这伴随着在运动过程中更依赖脂肪作为能量来源(p<0.01)。
结论
如果这些 SGLT2i 与运动联合应用的发现转化为人类,将具有重要的临床健康意义。
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