1.Cancer Therapy with Phytochemicals: Present and Future Perspectives.
Biomedical and Environmental Sciences 2015;28(11):808-819
Recently, a wide range of food-derived phytochemical compounds and their synthetic derivatives have been proposed for cancer treatment. Unfortunately, data available in related literature focus on the anti-cancer properties of compounds derived from edible plants, while very little is known about those derived from non-edible plants. And thus, the underlying mechanisms of their anti-cancer effects are yet to be elucidated. This review collates the available data on the anti-cancer activities of six phytochemical-derived compounds from edible and non-edible plants, i.e. rottlerin, berbamine, sparstolonin B, sulforaphane, plumbagin and 6-shogaol. These compounds are used as bioactive markers for cytotoxicity against tumors. As such, understanding their mode of action will provide the rationale for the combination strategies of these compounds with other drugs in the battle against cancer.
Acetophenones
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pharmacology
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therapeutic use
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Antineoplastic Agents, Phytogenic
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pharmacology
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therapeutic use
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Benzopyrans
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pharmacology
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therapeutic use
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Benzylisoquinolines
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pharmacology
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therapeutic use
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Catechols
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pharmacology
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therapeutic use
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Heterocyclic Compounds, 4 or More Rings
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pharmacology
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therapeutic use
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Humans
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Isothiocyanates
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pharmacology
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therapeutic use
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Naphthoquinones
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pharmacology
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therapeutic use
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Neoplasms
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drug therapy
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Phytotherapy
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Plant Extracts
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pharmacology
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therapeutic use
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Signal Transduction
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drug effects
2.Cytoprotective effect of silymarin against diabetes-induced cardiomyocyte apoptosis in diabetic rats.
Muobarak J TUORKEY ; Nabila I EL-DESOUKI ; Rabab A KAMEL
Biomedical and Environmental Sciences 2015;28(1):36-43
OBJECTIVEThe beneficial effects of silymarin have been extensively studied in the context of inflammation and cancer treatment, yet much less is known about its therapeutic effect on diabetes. The present study was aimed to investigate the cytoprotective activity of silymarin against diabetes-induced cardiomyocyte apoptosis.
METHODSRats were randomly divided into: control group, untreated diabetes group and diabetes group treated with silymarin (120 mg/kg•d) for 10 d. Rats were sacrificed, and the cardiac muscle specimens and blood samples were collected. The immunoreactivity of caspase-3 and Bcl-2 in the cardiomyocytes was measured. Total proteins, glucose, insulin, creatinine, AST, ALT, cholesterol, and triglycerides levels were estimated.
RESULTSUnlike the treated diabetes group, cardiomyocyte apoptosis increased in the untreated rats, as evidenced by enhanced caspase-3 and declined Bcl-2 activities. The levels of glucose, creatinine, AST, ALT, cholesterol, and triglycerides declined in the treated rats. The declined levels of insulin were enhanced again after treatment of diabetic rats with silymarin, reflecting a restoration of the pancreatic β-cells activity.
CONCLUSIONThe findings of this study are of great importance, which confirmed for the first time that treatment of diabetic subjects with silymarin may protect cardiomyocytes against apoptosis and promote survival-restoration of the pancreatic β-cells.
Alanine Transaminase ; blood ; Animals ; Aspartate Aminotransferases ; blood ; Blood Glucose ; Cholesterol ; blood ; Creatinine ; blood ; Diabetes Mellitus, Experimental ; complications ; Diabetic Cardiomyopathies ; prevention & control ; Heart ; drug effects ; Immunohistochemistry ; Insulin ; blood ; Male ; Myocardium ; pathology ; Myocytes, Cardiac ; drug effects ; Rats ; Silymarin ; pharmacology ; Triglycerides ; blood