Panax Notoginseng Protects against Diabetes-Associated Endothelial Dysfunction: Comparison between Ethanolic Extract and Total Saponin.
Xutao ZhangChunxiu ZhouLingchao MiaoYi TanYan ZhouMeng Sam CheongYu HuangYi-Tao WangHua YuWai San CheangPublished in: Oxidative medicine and cellular longevity (2021)
Previous studies revealed a cardioprotective potential of Panax notoginseng to relieve acute myocardial infarction and focal cerebral ischemia-reperfusion. However, whether P. notoginseng protects endothelial function in diabetes and the underlying mechanisms remain to be explored. P. notoginseng contains several chemical components including saponins, which are commonly believed as the major bioactive ingredients. The present study was aimed to examine and compare the vaso-protective effects of the ethanolic extract of P. notoginseng (PNE) and total saponin (PNS). Both aortas and carotid arteries were isolated from male C57BL/6J mice for ex vivo treatment with risk factors (high glucose or tunicamycin) with and without the presence of PNS and PNE. Diabetic model was established by feeding the mice with a high-fat diet (45% kcal% fat) for 12 weeks, while PNS and PNE were administrated by oral gavage at 20 mg/kg/day for another 4 weeks. Ex vivo exposure to high glucose impaired acetylcholine-induced endothelium-dependent relaxations in mouse aortas, decreased phosphorylation of AMPK and eNOS, and induced endoplasmic reticulum (ER) stress and oxidative stress. These effects were reversed by cotreatment of PNS and PNE with PNS being more potent. Furthermore, the vaso-protective effects were abolished by Compound C (AMPK inhibitor). Chronic treatment with PNS and PNE improved endothelium-dependent relaxations and alleviated ER stress and oxidative stress in aortas from high-fat diet-induced obese mice. PNE was more effective to improve glucose sensitivity and normalize blood pressure in diabetic mice. The present results showed that PNS and PNE reduced ER stress and oxidative stress and, subsequently, improved endothelial function in diabetes through AMPK activation. This study provides new inspiration on the therapeutic potential of P. notoginseng extract against vascular diseases associated with metabolic disorders.
Keyphrases
- high glucose
- oxidative stress
- endothelial cells
- high fat diet induced
- diabetic rats
- high fat diet
- insulin resistance
- type diabetes
- blood pressure
- cardiovascular disease
- acute myocardial infarction
- adipose tissue
- skeletal muscle
- risk factors
- glycemic control
- dna damage
- endoplasmic reticulum
- induced apoptosis
- ischemia reperfusion injury
- anti inflammatory
- single cell
- blood glucose
- heat shock
- metabolic syndrome
- heart failure
- percutaneous coronary intervention
- combination therapy
- risk assessment
- cell proliferation
- subarachnoid hemorrhage
- brain injury
- signaling pathway
- blood flow
- hypertensive patients