Cardioprotective Effects of 6-Gingerol against Alcohol-Induced ROS-Mediated Tissue Injury and Apoptosis in Rats.
Venkata Subbaiah GanjikuntaRamana Reddy MaddulaShanmugam BhashaRavi SahukariShanmugam Kondeti RamuduVenkatrayulu ChenjiSathyavelu Reddy KesireddyZhe ZhengMallikarjuna KoriviPublished in: Molecules (Basel, Switzerland) (2022)
The present study investigated the cardioprotective properties of 6-gingerol against alcohol-induced ROS-mediated cardiac tissue damage in rats. Experiments were conducted on 4 groups of rats, orally treated with control, 6-gingerol (10 mg/kg body weight), alcohol (6 g/kg body weight) and combination of 6-gingerol plus alcohol for two-month. In the results, we found 6-ginger treatment to alcohol-fed rats substantially suppressed ROS production in cardiac tissue. Alcohol-induced elevated 8-OHDG and protein carbonyls which represent oxidative modification of DNA and proteins were completely reversed by 6-gingerol. This was further endorsed by restored superoxide dismutase and catalase activities with 6-gingerol against alcohol-induced loss. The elevated cardiac biomarkers (CK-MB, cTn-T, cTn-I) and dyslipidemia in alcohol-intoxicated rats was significantly reversed by 6-gingerol. Furthermore, alcohol-induced apoptosis characterized by overexpression of cytochrome C, caspase-8 and caspase-9 was diminished with 6-gingerol treatment. Transmission electron microscope images conferred the cardioprotective properties of 6-gingerol as we have seen less structural derangements in mitochondria and reappearance of myofilaments. Our findings conclude that 6-ginger effectively protect alcohol-induced ROS-mediated cardiac tissue damage, which may be due to its potent antioxidant efficacy. Therefore, 6-gingerol could be a potential therapeutic molecule that can be used in the treatment of alcohol-induced myocardial injury.
Keyphrases
- alcohol consumption
- high glucose
- cell death
- diabetic rats
- oxidative stress
- body weight
- induced apoptosis
- endoplasmic reticulum stress
- drug induced
- left ventricular
- endothelial cells
- nitric oxide
- transcription factor
- cell proliferation
- signaling pathway
- hydrogen peroxide
- mass spectrometry
- heart failure
- circulating tumor
- deep learning
- newly diagnosed