Guatteria friesiana (W. A. Rodrigues) Erkens & Maas (synonym Guatteriopsis friesiana W. A. Rodrigues), popularly known as "envireira", is a medicinal plant found in the Brazilian and Colombian Amazon basin that is used in traditional medicine for various purposes. Recent studies on this species have demonstrated antimicrobial activity. In this study, the antitumor activity of the essential oil from the leaves of G. friesiana (EOGF) and its main components ( α-, β-, and γ-eudesmol) were determined using experimental models. In the in vitro study, EOGF and its components α-, β-, and γ-eudesmol displayed cytotoxicity against tumor cell lines, showing IC₅₀ values in the range of 1.7 to 9.4 µg/mL in the HCT-8 and HL-60 cell lines for EOGF, 5.7 to 19.4 µg/mL in the HL-60 and MDA-MB-435 cell lines for α-eudesmol, 24.1 to > 25 µg/mL in the SF-295 and MDA-MB-435 cell lines for β-eudesmol, and 7.1 to 20.6 µg/mL in the SF-295 and MDA-MB-435 cell lines for γ-eudesmol, respectively. In the in vivo study, the antitumor effect of EOGF was evaluated in mice inoculated with sarcoma 180 tumor cells. Tumor growth inhibition rates were 43.4-54.2 % and 6.6-42.8 % for the EOGF treatment by intraperitoneal (50 and 100 mg/kg/day) and oral (100 and 200 mg/kg/day) administration, respectively. The treatment with EOGF did not significantly affect body mass, macroscopy of the organs, or blood leukocyte counts. Based on these results, we can conclude that EOGF possesses significant antitumor activity and has only low systemic toxicity. These effects could be assigned to its components α-, β-, and γ-eudesmol.
The aim of this study was to investigate the chemical composition and anticancer effect of the leaf essential oil of Xylopia frutescens in experimental models. The chemical composition of the essential oil was analysed by GC/FID and GC/MS. In vitro cytotoxic activity of the essential oil was determined on cultured tumour cells. In vivo antitumour activity was assessed in Sarcoma 180-bearing mice. The major compounds identified were (E)-caryophyllene (31.48%), bicyclogermacrene (15.13%), germacrene D (9.66%), δ-cadinene (5.44%), viridiflorene (5.09%) and α-copaene (4.35%). In vitro study of the essential oil displayed cytotoxicity on tumour cell lines and showed IC50 values ranging from 24.6 to 40.0 μg/ml for the NCI-H358M and PC-3M cell lines, respectively. In the in vivo antitumour study, tumour growth inhibition rates were 31.0-37.5%. In summary, the essential oil was dominated by sesquiterpene constituents and has some interesting anticancer activity.
This study evaluated the potential cytotoxicity of the natural diterpenoids kauren-19-oic acid (KA), 14-hydroxy-kaurane (1) and xylopic acid (2), and semi-synthetic derivatives of KA (3-5) towards human cancer cell lines (K562, HL60, MDA-MB435 and SF295) and lymphocytes. Mouse erythrocytes were used to verify a possible hemolytic activity Cytotoxicity mechanisms were investigated in HL60 cells. KA showed a moderate antiproliferative effect in MTT assay towards all cancer cells (IC(50), 9.1-14.3 microg ml(-1)). However, KA appeared not selective to cancer cells, since it also inhibited the lymphocytes proliferation (IC(50), 12.6 microg ml(-1)). Unlike KA, compounds 1-5 displayed no cytotoxicity and were also free from antiproliferative and hemolytic effects, suggesting that the exocyclic double bond (C16) unit may be the active pharmacophore of KA cytotoxicity. KA-treated HL60 cells displayed decreased proliferation (5-bromo-2';-deoxyuridine incorporation assay) and topoisomerase I activity (DNA relaxation assay). These assays revealed that KA primarily intercalates with DNA and not with topoisomerase I. Fluorescence microscopy using AO/EB (acridine orange/ethidium bromide) staining indicated that KA can induce both apoptosis and necrosis in HL-60 cell cultures, which corroborate the findings with MTT. From these findings, we conclude that KA, although demonstrating cytotoxic potential, may have a limited or poor therapeutic potential due to lack of selectivity to tumor cells. Further studies on the structure modification of KA and the mechanism of the new derivatives are currently in progress.
Mangiferin has a neurocytoprotective role related, at least in part, to an antioxidant and anti-inflammatory mechanism, which could be explored for more effective therapies of schizophrenia and other neurodegenerative diseases.
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