The pharmacokinetics of risperidone was affected by the concomitant administration of ketoconazole. If a CYP3A4 inhibitor is used concomitantly with risperidone, it is necessary for the clinicians to monitor their patients for signs of adverse drug reactions.
A Thai traditional remedy called Benchalokawichian (BLW) consists of 5 plant species, Ficus racemosa, Capparis micracantha, Clerodendrum petasites, Harrisonia perforata, and Tiliacora triandra. It has long been used in Thai traditional medicine to reduce fever in respiratory tract infection, but there is no report on either cytotoxicity against cancer cell lines of the respiratory tract system or anti-inflammatory effect. Thus, the objectives of this research were to investigate the cytotoxic activity of the ethanolic and water extracts of BLW, its single plant ingredients and its isolated compounds against 5 cancer cell lines of the respiratory tract, by SRB assay. Anti-inflammatory activity of all extracts and compounds was also tested by using lipopolysaccharide-induced nitric oxide (NO) in RAW 264.7 cells. The main compounds were isolated by high-performance liquid chromatography and compared with BLW and plant ingredients. A major compound of BLW and H. perforata ethanolic extracts is perforatic acid, which inhibited the growth of 2 lung cancer cell lines, A549 and H226, with IC 50 values of 6.7 and 13.2 µg/mL. The ethanolic extract of BLW and T. triandra showed cytotoxic activity against all cancer cell lines with IC 50 values in the range of 10.1 to 45.2 µg/mL. In contrast, all EtOH extracts showed moderate anti-inflammatory activity, but the water extract had no inhibitory effect on either activity. Pectolinarigenin and O-methyllaloptaeroxyrin, 2 minor compounds, exhibited NO inhibitory effect with IC 50 values of 7.1 and 7.9 µg/mL, respectively, whereas perforatic acid was inactive (>50 µg/mL). Moreover, pectolinarigenin showed high cytotoxic activity against all cancer cell lines of the respiratory system with IC 50 values in the range of 1.9 to 9.1 µg/mL. As a result, these 2 minor compounds can be used as markers for quality control of BLW for anti-inflammatory activity. Perforatic acid and pectolinarigenin are of interest for further study on their cytotoxic mechanism. Remarkably, T. triandra, one of the plant components of BLW, is possibly the source of the active cytotoxic compounds.
This study aimed to investigate in vitro cytotoxic activity of selected plant ingredients from a traditional Thai remedy for the treatment of cancer patients against cancer cells occurring in women such as MCF-7 (breast cancer), SKOV3 (ovarian cancer), and HeLa (cervical cancer) cell lines. The plants and the remedy were macerated with 95% ethanol and boiled in water. Cytotoxic activity of the extracts was analyzed by SRB assay. Total flavonoid contents of the extracts were determined and their correlation with cytotoxic activity was evaluated. The hierarchical cluster analysis (HCA) was used to classify the extracts by their cytotoxic characteristics. A total of 66.7% of the plants was active against the tested cancer cell lines. Among the 44 plants in the remedy used for cancer treatment, nine plants that are also used in Thai cuisine exerted significant cytotoxicity against tested cancer cell lines. Eleven plants in the remedy were active against at least one of the tested cancer cell lines. All extracts were grouped into three groups and illustrated as heat map and hierarchical dendrogram. Total flavonoid content showed weak or no correlation with cytotoxic activity. A. dahurica, F. albopurpurea, and T. indica selectively exerted potent cytotoxic activity against MCF-7 with SI value more than 6. A. galanga, P. amarus, L. striatum, H. indicum, and F. vulgare exerted moderate cytotoxicity to all tested cell with low toxicity to normal cells. The correlation and HCA performed in this study provided an alternative way to investigate biological activities of plant ingredients in polyherbal traditional remedies.
BackgroundThe root of Baliospermum montanum has been used as an ingredient of traditional Thai medicines for the treatments of several diseases including itching eczema, muscle and joint inflammation, and cancer. Few studies have been done on phytochemical components of this root. In this study, we isolated major compounds of the crude ethanolic extract of B. montanum root and developed and validated a high performance liquid chromatographic (HPLC) method for the determination of its major components. We then investigated anti-allergic, anti-inflammatory and cytotoxic activities of the extract.MethodsThe aims of this study were to investigate in vitro activities including inhibitory effect of β-hexosaminidase released from RBL-2H3 cells, inhibition of nitric oxide (NO) production from RAW 264.7 cells and cytotoxic activity against cancerous liver cell lines (HepG2 and KKU M156) by using sulforhodamine B (SRB) assay. Isolation of major components was conducted by using column chromatographic method. Isolated major compounds were analyzed by using high performance liquid chromatography (HPLC).ResultsThe crude extract exhibited the highest cytotoxic activity, with IC50 less than 1 μg/mL, while its anti-allergy and anti-inflammation were also potent with IC50 less than 6 μg/mL. Three propiophenones isolated from B. montanum root exhibited moderate cytotoxic activities (IC50 > 20 μg/mL). Two of the propiophenones found were major components that can be detected by HPLC. The developed and validated HPLC method showed good accuracy, precision, and linearity.ConclusionThe results of this study suggested that ethanolic extract of of B.montanum root can be a potential source of anti-allergy, anti-inflammation, and anti-cancer compounds. The isolated compounds can serve as markers when B. montanum is used in herbal remedies but not as overall responsive markers. The HPLC method developed may be useful for quality control in the production of the extract and for further formulation developments. However, investigation of several associated biological activities is necessary before the development can proceed further. Minor active compounds should be isolated and a more sensitive analytical method should be developed to detail the key responsive components of the ethanolic extract of B. montanum root.Electronic supplementary materialThe online version of this article (10.1186/s12906-019-2449-0) contains supplementary material, which is available to authorized users.
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