Activity- Directed Phytochemical Investigation of Spathodea Campanulata (P. Beauv)

Elusiyan, Christianah Abimbola (2015-08-06)

Thesis

This study investigated the crude extracts of the leaf, stem bark and flower of Spathodea campanulata for antitrichomonal, antimicrobial, molluscicidal and radical scavenging activities and the chemical composition of the polar fractions of the plant. The constituents with antioxidant property were isolated and characterized with a view to validating the ethno-medicinal uses of the plant. The plant parts were separately extracted with methanol and screened for these biological activities using standard protocol. The extracts were respectively subjected to medium pressure liquid chromatographic procedures using normal and reverse phase techniques with the stable free radical 1,1-diphenyl-2-picryhydrazyl radical (DPPH) bioautography for monitoring to isolate pure compounds. The pure compounds obtained were characterized using spectroscopic methods including NMR, evaluated for biological properties and their EC50 values determined. The results showed that there were marked differences in the TLC profiles of the fresh, oven-dried and air-dried plant extracts. This indicated loss of components during drying, hence fresh materials were studied. Two iridoids: Ajugol and Verminoside were isolated from the fresh stem bark. Four compounds: Verminoside, Kaempferol diglucoside, Phytol and Caffeic acid were isolated from the fresh leaf. The fresh flower gave two iridoids, Verminoside and Specioside. Caffeic acid demonstrated immediate reaction in the DPPH bioautography model consistent with its known anti-oxidant property. Verminoside demonstrated a very strong antioxidant property in the DPPH spectrophotometric assay. It gave an EC50 value of 2.04 μglml. Kaempferol diglucoside and Specioside had EC50values of 8.86 gg/ml and 17.43 gglml respectively in comparison with ascorbic acid (the positive control) which gave an EC5pvalue of 2.18 μglml. None of the compounds showed any antimicrobial property in the antimicrobial bioautographic test against type organisms of Bacillus subtilis and Escherichia coli. All the compounds exhibited moderate antitrichomonal activity against the local strain of Trichomonas gallinae. The minimum lethal concentrations (MLC) of the compounds after 48 hr exposure were: Verminoside (250 μg/ml), Kaempferol diglucoside (1000 μg/ml), Caffeic acid (500 μg/ml), while the standard drug Metronidazole was the most active (3.91 μg/ml). In the mollusicidal test, the leaf extract had an MLC of 1000 μg/ml while Verminoside showed only a weak activity of 20% mortality at 100 μg/ml. The other compounds were non- active against the tested snails Biomphalaria glabrata. In conclusion, this study established a wide distribution of verminoside in the various parts of the plant which shows a strong antioxidant property. In combination with other antioxidant compounds such as Specioside, Kaempferol diglucoside and Caffeic acid isolated, they act to confirm the use of the plant in overcoming oxidative stress in users of the traditional plant preparation. The presence of Verminoside and Specioside in various parts of the plant was also significant in rationalising the traditional use of the plant in amoebic dysentery as both compounds were only recently reported to be potent anti-amoebic agents.

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