The effects of Ginsenosides on PI3K/AKT signaling pathway (original) (raw)
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Antioxidant Activity of Panax ginseng to Regulate ROS in Various Chronic Diseases
Applied Sciences
Reactive oxygen species (ROS)-the byproduct of regular cell activity formed by various cellular components—play a significant role in pathological and physiological conditions. Alternatively, antioxidants are compounds that reduce or scavenge reactive species in cells. An asymmetry between the antioxidant defense system and ROS from intracellular and extracellular sources cause chronic diseases such as cancer, inflammation, tumorigenesis, cardiovascular and neurogenerative diseases. However, Panax ginseng and its secondary metabolites (known as ginsenosides, phenolic compounds, peptides, acid polysaccharides, polyacetylene, and alkaloids) are well-recognized as antioxidants in many in vitro and in vivo experiments which show beneficial activity in regulating ROS in these diseases. There are extensive evidences that P. ginseng can destroy cancer cells specifically by increasing oxidative stress through ROS generation without significantly harming normal cells. Additionally, numerous ...
Molecular and Cellular Probes, 2019
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Acta Pharmacologica Sinica, 2010
To investigate the protective effects of ginsenoside Rb 3 , a triterpenoid saponin isolated from the leaves of Panax notoginseng, on ischemic and reperfusion injury model of PC12 cells and elucidate the related mechanisms. Methods: PC12 cells exposed to oxygen and glucose deprivation (OGD) and restoration (OGD-Rep) were used as an in vitro model of ischemia and reperfusion. 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay and lactate dehydrogenase (LDH) leakage were used to evaluate the protective effects of ginsenoside Rb 3. Cellular apoptosis and mitochondrial membrane potential (MMP) were analyzed using flow cytometry. Intracellular calcium ion concentration ([Ca 2+ ] i) was detected using fluorophotometer system. Caspase-3,-8, and-9 activities were measured using assay kits with an ELISA reader. Western blotting assay was used to evaluate the release of cytochrome c and expression of caspase-3, Bcl-2 and Bax proteins. Results: It was shown that ginsenoside Rb 3 (0.1-10 μmol/L) significantly increased cell viability and inhibited LDH release in a dosedependent manner on the ischemic model. In addition, ginsenoside Rb 3 also significantly inhibited ischemic injury-induced apoptosis, [Ca 2+ ] i elevation, and decrease of MMP. Meanwhile, pretreatment with ginsenoside Rb 3 significantly induced an increase of Bcl-2 protein expression and a decrease of cytosolic cytochrome c, cleaved-caspase 3 and Bax protein expression, the caspase-3,-8, and-9 activity were also inhibited. Conclusion: The results indicated that ginsenoside Rb 3 could markedly protected OGD-Rep induced ischemic injury and the mechanisms maybe related to its suppression of the intracellular Ca 2+ elevation and inhibition of apoptosis and caspase activity. Ginsenoside Rb 3 could be a promising candidate in the development of a novel class of anti-ischemic agent.
Annals of The New York Academy of Sciences, 2009
To investigate the antioxidative effects of ginsenosides [protopanaxadiol derivatives (PD):protopanaxatriol derivatives (PT) = 1:1] from the roots of Korean ginseng, cell viability, malondialdehyde (MDA) production, antioxidant enzyme activities, and expressions of apoptosis were analyzed after pretreatment of human hepatoma HepG2 cells with H2O2. Cell death was increased through H2O2 treatment dose dependently, and a dose of ginseng extract (PD:PT = 1:1) of 18.6 μg/mL was enough to derive it in reverse. MDA production was reduced through the administration of ginseng extracts even with more intensive H2O2 treatments. Through the use of even low levels of ginseng extract (e.g., 1.86 μg/mL), catalase (CAT) activity was easily reduced from the plateau induced by H2O2. The glutathione peroxidase activity was no better than that of CAT. We assume that ginseng extract acts as an antioxidant even when effective levels of ginseng differ. A ginseng extract dose of 18.6 μg/mL increased the apoptotic expression of oxidative stressed signals, such as c-Jun-N-terminal kinase and stress-activated protein kinase expressions, and mitochondrial cytochrome c released caspase-3 activation; however, these expressions changed with higher doses of ginseng.
Chemopreventive effect of Panax ginseng
Phytotherapy Research, 2009
Asian ginseng (Panax ginseng C. A. Meyer) has been used in Chinese medicine for two thousand years. The root of ginseng contains several saponins (ginsenosides) which are biologically active compounds. Individual ginsenosides suppress tumor cell growth, induce cell differentiation, regulate apoptosis and inhibit metastasis formation. The aim of this study was to evaluate its chemo-preventive effects in an animal test model, through its regulatory effects on apoptosis and the cell cycle.
Chinese Medicine, 2007
In Chinese medicine, ginseng (Panax ginseng C.A. Meyer) has long been used as a general tonic or an adaptogen to promote longevity and enhance bodily functions. It has also been claimed to be effective in combating stress, fatigue, oxidants, cancer and diabetes mellitus. Most of the pharmacological actions of ginseng are attributed to one type of its constituents, namely the ginsenosides. In this review, we focus on the recent advances in the study of ginsenosides on angiogenesis which is related to many pathological conditions including tumor progression and cardiovascular dysfunctions.
Liver International, 2005
Abstract: Background/Aim: The main component of Panax ginseng, which have been reported by many researchers, are ginsenoside Rb1, Rb2 and Rc. Orally administered ginsenosides are metabolized to 20-O-β-d-glucopyranosyl-20(S)-protopanaxadiol (compound K) by intestinal bacteria and absorbed to blood. To understand its hepatoprotective effect and its mechanism, the effects of ginsenoside Rb1 and its metabolite compound K on chemically injured HepG2 cells and mice were investigated.Methods: Ginsenoside Rb1 and compound K were isolated from ginseng. Hepatotoxicity of HepG2 cells and mice was induced by tert-butyl hydroperoxide (t-BHP). Cytotoxicity for HepG2 cells and serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) for mice as markers of hepatoprotective activity were measured.Results: Compound K protected HepG2 cell cytotoxicity induced by t-BHP. However, ginsenoside Rb1 did not inhibit cytotoxicity. Nevertheless, both ginsenoside Rb1 and compound K significantly inhibited the increment of ALT and AST induced by t-BHP in mice, when it was orally administered. However, intraperitoneally administered ginsenoside Rb1 did not inhibit the increment of plasma ALT and AST induced by t-BHP in mice. These compounds did not exhibit antioxidant activity. However, compound K showed the potent membrane stabilizing activity more than ginsenoside Rb1.Conclusion: Compound K, which was produced from ginsenosides of Panax ginseng in intestine, could protect liver injury.
Evaluation of chemopreventive action of Ginsenoside Rp1
Biofactors, 2006
We evaluated the chemopreventive properties of Ginsenoside Rp1 on 7,12-Dimethyl benz (a) anthracene (DMBA) skin papillomagenesis in Swiss albino mice. A significant reduction in values of tumor incidence, tumor burden, and cumulative number of papilloma was observed in mice treated orally with Ginsenoside Rp1 continuously at pre-, peri-and post-initiational stages of papillomagenesis as compared to the control group. Chemopreventive potential of Ginsenoside Rp1 was also observed on the skin metabolizing enzymes in Swiss albino mice. Ginsenoside Rp1 produced a significant elevation in the skin microsomal cytochrome p-450 and cytochrome b5, glutathione S-transferase (GST), reduced glutathione (GSH), glutathione peroxidase (GPX), glutathione reductase (GR), DT-diaphorase, superoxide dismutase (SOD) and catalase levels in the group of mice treated with Ginsenoside Rp1 for seven consecutive days. However, there was significant decrease in lipid peroxidation (LPO) level in Ginsenoside Rp1 treated group.
European Journal of Pharmacology, 2006
Diabetes mellitus is characterized by hyperglycemia and complications affecting the eye, kidney, nerve and blood vessel. We have previously demonstrated the occurrence of oxidative stress of streptozotocin-induced diabetic rats, preceded by a depletion in the tissue level of glutathione. In this study, when diabetic rats were treated with ginsenoside Re of Panax ginseng C.A. Meyer, there was a significant reduction in blood glucose, total cholesterol and triglyceride levels. On the other hand, oxidative stress has been implicated in the pathogenesis of diabetes and its complications. It was found that treatment by ginsenoside Re restored the levels of both glutathione and malondialdehyde in the eye and kidney to those found in the control rats. This is the first report demonstrating ginsenoside Re has significant antioxidant efficacy in diabetes, and prevents the onset of oxidative stress in some vascular tissues. Our results demonstrated that ginsenoside Re could lower blood glucose and lipid levels, and exerts protective actions against the occurrence of oxidative stress in the eye and kidney of diabetic rats. Our data also provide evidence that ginsenoside Re could be used as an effective antidiabetic agent particularly in the prevention of diabetic microvasculopathy.
Processes
Cancer incidence and mortality rate are growing worldwide. The effectiveness of cancer therapy depends on the degree of cancer development. Anticancer prevention, screening tests, detection of precancerous conditions or cancers at an early stage of development help to prevent the development of cancer, and in the event of cancer development, they provide the best chance for a full recovery. However, in most cases of advanced cancer, there is no method that can fully cure this disease. Recently, natural products have gained more attention in cancer therapy. Panax ginseng (PG), one of the most popular natural products, is reported to have a wide range of pharmacological activities in cancer. Therefore, the anti-cancer effects and mechanisms of PG and its metabolites (compound K, Ginsenoside Rh1, Rh2, Rh3 and F1) in five major cancers (lung cancer, breast cancer, colon cancer, prostate cancer and stomach cancer) are reviewed in this study. It is confirmed that PG and its metabolites re...