Anti-inflammatory activity of standardized dichloromethane extract of Salvia connivens on macrophages stimulated by LPS
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Context: A previous study demonstrated that the chloroform extract of Salvia connivens Epling (Lamiaceae) has anti-inflammatory activity. Objective: Identification of the active components in the dicholorometane extract (DESC), and, standardization of the extract based in ursolic acid. Material and methods: DESC was prepared by percolation with dichlromethane and after washed with hot hexane, its composition was determined by CG-MS and NMR, and standardized by HPLC. The anti-inflammatory activity was tested on acute TPA-induced mouse ear oedema at doses of 2.0 mg/ear. The cell viability of macrophages was evaluated by MTT method, and pro- and anti-inflammatory interleukin levels were measured using an ELISA kit. Results: Ursolic acid, oleanolic acid, dihydroursolic acid and eupatorin were identified in DESC, which was standardized based on the ursolic acid concentration (126 mg/g). The anti-inflammatory activities of DESC, the acid mixture, and eupatorin (2 mg/ear) were 60.55, 57.20 and 56.40%25 inhibition, respectively, on TPA-induced ear oedema. The IC50 of DESC on macrophages was 149.4 µg/mL. DESC (25 µg/mL) significantly reduced TNF-α (2.0-fold), IL-1β (2.2-fold) and IL-6 (2.0-fold) in macrophages stimulated with LPS and increased the production of IL-10 (1.9-fold). Discussion: Inflammation is a basic response to injuries, and macrophages are involved in triggering inflammation. Macrophage cells exhibit a response to LPS, inducing inflammatory mediators, and DESC inhibits the biosynthesis of the pro-inflammatory and promote anti-inflammatory cytokines. Conclusion: DESC has an anti-inflammatory effect; reduced the levels of IL-1β, Il-6 and TNF-α; and increases IL-10 in macrophages stimulated with LPS. Ursolic acid is a good phytochemical marker. © 2017 The Author(s).
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Cellular viability; Cytokine determination; Eupatorin; HPLC; Ursolic acid antiinflammatory agent; dichloromethane; dihydroursolic acid; eupatorin; hexane; indometacin; interleukin 1beta; interleukin 6; oleanolic acid; plant extract; Salvia connivens extract; tumor necrosis factor; unclassified drug; ursolic acid; ursolic acid derivative; antiinflammatory agent; dichloromethane; eupatorin; flavonoid; IL1B protein, mouse; interleukin 1beta; interleukin 6; interleukin-6, mouse; lipopolysaccharide; oleanolic acid; phorbol 13 acetate 12 myristate; plant extract; solvent; triterpene; tumor necrosis factor; ursolic acid; animal cell; animal experiment; animal model; animal tissue; antiinflammatory activity; Article; biochemical composition; cell viability; controlled study; cytokine production; drug identification; drug isolation; ear edema; IC50; macrophage activation; male; mouse; nonhuman; otitis; Salvia; Salvia connivens; standardization; aerial plant part; animal; cell line; chemically induced; chemistry; disease model; dose response; drug effects; edema; high performance liquid chromatography; immunology; isolation and purification; macrophage; macrophage activation; mass fragmentography; medicinal plant; metabolism; nuclear magnetic resonance spectroscopy; phytotherapy; Animals; Anti-Inflammatory Agents; Cell Line; Chromatography, High Pressure Liquid; Disease Models, Animal; Dose-Response Relationship, Drug; Edema; Flavonoids; Gas Chromatography-Mass Spectrometry; Interleukin-1beta; Interleukin-6; Lipopolysaccharides; Macrophage Activation; Macrophages; Magnetic Resonance Spectroscopy; Male; Methylene Chloride; Mice; Oleanolic Acid; Phytotherapy; Plant Components, Aerial; Plant Extracts; Plants, Medicinal; Salvia; Solvents; Tetradecanoylphorbol Acetate; Triterpenes; Tumor Necrosis Factor-alpha
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