English

Abstract

Rheum emodi Wall. ex Meissn is a popular medicinal herb having wide application in traditional medicine for treating of several diseases. The present study was aimed to identify and isolate phytochemicals present in ethyl acetate extract fraction of R. emodi and to evaluate the anticancer and anti-inflammatory activities of water/organic solvent fractions and isolated compounds of R. emodi rhizome extracts. Based on the structure, flavonoid compound i.e., Myricitrin (sym. Myricetin 3- rhamnoside), myricetin 3-galloylrhamnoside and myricetin were identified to be present in ethyl acetate extract. The molecular weight of compound 1 cannot be identified; while compound 5 remained unknown as there was not enough evidence to propose its structure. The isolated compounds and different solvent fractions were tested for their anticancer and antiinflammatory activities. Among Myricetins derivatives, particularly unknown compounds significantly induced the apoptosis and restrained the proliferation of cancer cell lines (A549 and MCF-7) and inhibited the LPS induced NO production (proinflammatory mediator), IL-6 activity, IL-1β and TNF-α (cytokines) activity in RAW 264.7 macrophages in a dose dependent manner and was effective even at lower concentration (50 µg/mL). Similarly, the higher concentration of aqueous and solvent fractions exhibited strong cytotoxic and anti-inflammatory activities. However, water and dichloromethane fractions were most effective in inhibiting the anticancer activities in A549 and MCF-7 cancer cell lines, respectively. At lower concentration (50 and 100 µg/mL), highest inhibition activity for NO, IL-6 and IL-1β was noted with ethyl acetate fractions and n-Hexane fractions; while water and n-Butanol (fractions) strongly inhibited the TNF-α activity at lower (100 µg/mL) and high (200 µg/mL) concentration, respectively. In conclusion, the isolated compounds from R. emodi rhizome extracts and its rhizome solvent fractions exhibit strong anti-cancer and anti-inflammatory activities and can be used to develop chemotherapeutics and anti-inflammation drugs. © 2021 Friends Science Publishers