Cardioprotective Function of Green Rooibos (Aspalathus linearis) Extract Supplementation in Ex Vivo Ischemic Prediabetic Rat Hearts.
Study Goal
The researchers aimed to investigate the cardioprotective potential of Afriplex green rooibos extract against ischemia/reperfusion injury in rats with cardiovascular disease and metabolic dysfunction.
Results Summary
Afriplex green rooibos extract reduced infarct size, improved heart function, lowered inflammation, and decreased oxidative stress in high-caloric diet rats. It also modulated key metabolic and stress signaling pathways, enhancing cardioprotection during ischemia/reperfusion.
Population
Male Wistar rats fed a high-caloric diet to induce prediabetes and cardiovascular disease.
Effective Dosage
60 mg/kg/day (containing 12.48% aspalathin).
Duration
6 weeks.
Interactions
None mentioned.
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
High-caloric diet | increase | body weight | male Wistar rats | - | increased | #1 |
High-caloric diet | increase | body fat | male Wistar rats | - | increased | #2 |
High-caloric diet | increase | fasting serum triglycerides | male Wistar rats | - | increased | #3 |
High-caloric diet | increase | homeostatic model assessment of insulin resistance | male Wistar rats | - | increased | #4 |
High-caloric diet | increase | heart mass | male Wistar rats | - | increased | #5 |
High-caloric diet | increase | infarct size | male Wistar rats | - | increased | #6 |
High-caloric diet | decrease | heart function | male Wistar rats | - | decreased | #7 |
Afriplex green rooibos extract treatment for 6 wk | decrease | pre-ischemic heart rate | male Wistar rats | - | lowered | #8 |
Afriplex green rooibos extract treatment for 6 wk | decrease | infarct size | male Wistar rats | - | reduced | #9 |
Afriplex green rooibos extract treatment for 6 wk | increase | heart function pre- and post-ischemia | male Wistar rats | - | improved | #10 |
Afriplex green rooibos extract treatment for 6 wk | no change | biometric parameters | male Wistar rats | no significant change | without significantly affecting | #11 |
High-caloric diet | decrease | insulin independence via adenosine monophosphate activated kinase | male Wistar rats | - | decreased | #12 |
High-caloric diet | increase | inflammation (p38 mitogen-activated protein kinase) | male Wistar rats | - | increased | #13 |
Afriplex green rooibos extract treatment | decrease | insulin dependence (protein kinase B) | male Wistar rats | - | decreased | #14 |
Afriplex green rooibos extract treatment | decrease | anti-inflammatory effect | male Wistar rats | - | conferred | #15 |
High-caloric diet | increase | ataxia-telangiectasia mutated kinase | male Wistar rats | - | upregulated | #16 |
High-caloric diet | decrease | insulin independence | male Wistar rats | - | decreased | #17 |
High-caloric diet | decrease | insulin dependence | male Wistar rats | - | downregulated | #18 |
High-caloric diet | decrease | glycogen synthase kinase 3 β inhibition | male Wistar rats | - | downregulated | #19 |
Afriplex green rooibos extract supplementation | decrease | insulin independence | male Wistar rats | - | downregulated | #20 |
Afriplex green rooibos extract supplementation | decrease | extracellular signal-regulated kinase 1 and 2 | male Wistar rats | - | inhibited | #21 |
Afriplex green rooibos extract supplementation | decrease | oxidative stress (c-Jun N-terminal kinases 1 and 2) | male Wistar rats | - | reduced | #22 |
Afriplex green rooibos extract supplementation | decrease | inflammation | male Wistar rats | - | reduced | #23 |
Afriplex green rooibos extract supplementation for 6 wk | increase | cardiovascular disease-compromised rat hearts against ischemia/reperfusion injury | male Wistar rats | - | preconditioned | #24 |
Afriplex green rooibos extract supplementation for 6 wk | decrease | inflammation | male Wistar rats | - | by lowering | #25 |
Afriplex green rooibos extract supplementation for 6 wk | decrease | oxidative stress | male Wistar rats | - | by lowering | #26 |
Afriplex green rooibos extract supplementation for 6 wk | decrease | heart rate | male Wistar rats | - | by lowering | #27 |
Diabetic patients develop ischemic heart disease and strokes more readily. Following an ischemic event, restoration of blood flow increases oxidative stress resulting in myocardial damage, termed ischemia/reperfusion injury. Aspalathus linearis (rooibos), rich in the antioxidant phenolic compound aspalathin, has been implicated as cardioprotective against ischemia/reperfusion injury with undefined mechanism in control rats. Primarily, the therapeutic potential of Afriplex green rooibos extract to prevent ischemia/reperfusion injury in cardiovascular disease-compromised rats was investigated. Additionally, Afriplex Green rooibos extract's cardioprotective signaling on metabolic markers and stress markers was determined using western blotting. Three hundred male Wistar rats received either 16-wk standard diet or high-caloric diet. During the final 6 wk, half received 60 mg/kg/day Afriplex green rooibos extract, containing 12.48% aspalathin. High-caloric diet increased body weight, body fat, fasting serum triglycerides, and homeostatic model assessment of insulin resistance - indicative of prediabetes. High-caloric diet rats had increased heart mass, infarct size, and decreased heart function. Afriplex green rooibos extract treatment for 6 wk lowered pre-ischemic heart rate, reduced infarct size, and improved heart function pre- and post-ischemia, without significantly affecting biometric parameters. Stabilized high-caloric diet hearts had decreased insulin independence via adenosine monophosphate activated kinase and increased inflammation (p38 mitogen-activated protein kinase), whereas Afriplex green rooibos extract treatment decreased insulin dependence (protein kinase B) and conferred anti-inflammatory effect. After 20 min ischemia, high-caloric diet hearts had upregulated ataxia-telangiectasia mutated kinase decreased insulin independence, and downregulated insulin dependence and glycogen synthase kinase 3 β inhibition. In contrast, Afriplex green rooibos extract supplementation downregulated insulin independence and inhibited extracellular signal-regulated kinase 1 and 2. During reperfusion, all protective signaling was decreased in high-caloric diet, while Afriplex green rooibos extract supplementation reduced oxidative stress (c-Jun N-terminal kinases 1 and 2) and inflammation. Taken together, Afriplex green rooibos extract supplementation for 6 wk preconditioned cardiovascular disease-compromised rat hearts against ischemia/reperfusion injury by lowering inflammation, oxidative stress, and heart rate.