Department of Experimental Hypertension, Institute of Physiology, Czech Academy of Sciences, Prague, Czech Republic.
Department of Cardio-Metabolic Research, Institute for Clinical and Experimental Medicine, Prague, Czech Republic.
Biomed Pharmacother. 2021 Dec;144:112246. doi: 10.1016/j.biopha.2021.112246. Epub 2021 Oct 1.
The new antidiabetic drugs, gliflozins, inhibit sodium-glucose transporter-2 in renal proximal tubules promoting glucose and sodium excretion. This leads not only to a significant improvement of glucose control but also to the reduction of blood pressure and body weight in both diabetic patients and experimental models. We examined whether these beneficial effects can also be achieved in a non-diabetic hypertensive model, namely in Ren-2 transgenic rats (TGR). Adult 6-month-old hypertensive TGR and their normotensive controls (Hannover Sprague-Dawley rats), were either untreated or treated with empagliflozin (10 mg/kg/day) for two months. Telemetric blood pressure monitoring, renal parameters as well as cardiac function via echocardiography were analyzed during the experiment. At the end of the study, the contribution of major vasoactive systems to blood pressure maintenance was studied. Metabolic parameters and markers of oxidative stress and inflammation were also analyzed. Empagliflozin had no effect on plasma glucose level but partially reduced blood pressure in TGR. Although food consumption was substantially higher in empagliflozin-treated TGR compared to the untreated animals, their body weight and the amount of epididymal and perirenal fat was decreased. Empagliflozin had no effect on proteinuria, but it decreased plasma urea, attenuated renal oxidative stress and temporarily increased urinary urea excretion. Several metabolic (hepatic triglycerides, non-esterified fatty acids, insulin) and inflammatory (TNF-α, leptin) parameters were also improved by empagliflozin treatment. By contrast, echocardiography did not reveal any effect of empagliflozin on cardiac function. In conclusion, empagliflozin exerted beneficial antihypertensive, anti-inflammatory and metabolic effects also in a non-diabetic hypertensive model.
新型抗糖尿病药物,即格列净类药物,可抑制肾脏近端小管中的钠-葡萄糖转运蛋白-2,促进葡萄糖和钠的排泄。这不仅显著改善了血糖控制,还降低了糖尿病患者和实验模型的血压和体重。我们研究了这些有益作用是否也可在非糖尿病性高血压模型(即 Ren-2 转基因大鼠)中实现。成年 6 月龄高血压 TGR 及其正常血压对照(汉诺威 Sprague-Dawley 大鼠),未治疗或给予恩格列净(10mg/kg/天)治疗两个月。在实验过程中通过遥测血压监测、肾脏参数以及超声心动图分析心功能。研究结束时,研究了主要血管活性系统对血压维持的贡献。还分析了代谢参数以及氧化应激和炎症标志物。恩格列净对血浆葡萄糖水平无影响,但可部分降低 TGR 的血压。尽管与未治疗动物相比,恩格列净治疗的 TGR 食物消耗明显增加,但它们的体重以及附睾和肾周脂肪量减少。恩格列净对蛋白尿无影响,但可降低血浆尿素,减弱肾脏氧化应激并暂时增加尿尿素排泄。恩格列净还可改善几种代谢(肝甘油三酯、非酯化脂肪酸、胰岛素)和炎症(TNF-α、瘦素)参数。相比之下,超声心动图未显示恩格列净对心功能有任何影响。总之,恩格列净在非糖尿病性高血压模型中也具有有益的降压、抗炎和代谢作用。
