Comparative Chemical and Quantitative Analysis of Flavonoid Contents In Propolis Samples From South East (Abia) and South West (Ibadan) Of Nigeria

Article Sidebar

PDF
Published: May 1, 2018
Keywords:
Propolis, Essential Oils, Flavonoids, GC-MS, HPLC, Nigeria

Main Article Content

Chinwe S. Alaribe
A.R. Oladipupo
Adisa O. Ola
C. Okeoma
A.O. Adeyeye
K. A. Basheeru
Rastrelli Luca
H. A. B. Coker

Abstract

Propolis has been used as medicinal agent for centuries. Among the many compounds identified in propolis, flavonoids are considered to be responsible for its main biological activities. Therefore, determination of flavonoids in propolis is a key parameter for evaluation of propolis quality. To continue our research on chemical composition of propolis samples, spectrometric and chromatographic analyses of flavonoid contents collected from two different regions in Nigeria (South East, Abia) and South West, Ibadan) were investigated. Gas chromatography-mass spectrometry technique was used for qualitative analysis. Quantitative flavonoid contents were determined as flavones, flavonols and flavanones expressed as rutin, quercetine and naringenin Equivalent, respectively, using HPLC and UV spectroscopy. Phytochemical screening results of Abia propolis hexane extract (ABPHE), Abia propolis ethanol extract (ABPEE), Ibadan propolis hexane extract (IBPHE), and Ibadan propolis ethanol extract (IBPEE) indicated the presence of flavonoids, alkaloids, steroidal nucleus, saponins, reducing sugars and phenols, while tannins were only detected in ABPEE and IBPEE. The GC-MS analysis identified zingiberene, alpha-farnesene, beta-bisabolene, beta-sesquiphellandrene, phytol and trans-geranylgeraniol in ABPHE and beta-caryophellene, humulene, trans-sesquisabinene hydrate, eremophilene. lauric acid, methyl ester, beta-sesquiphellandrene, lauric acid, ethyl ester, spathulenol, methoxyeugenol, asarone and junipar camphor in IBPHE.
The UV/VIS results gave Total Flavonoid Contents (TFCs) for ABPHE (5.59 %) and ABPEE (3.12 %) as 8.70 % whereas TFCs for IBPHE (1.81 %) and IBPEE (12.65 %) as 14.46%. The HPLC results gave TFCs for ABPHE (2.82 %) and ABPEE (3.27 %) as 6.09 % whereas IBPHE (0.37 %) and IBPEE (3.76 %) as 4.13 %. There was no statistically significant difference in the TFCs of the South-east propolis and that of the South-west propolis (p > 0.10) from the two methods.Our findings indicated that despite variability in the concentrations of flavones, flavonols and flavanones contents in the two samples collected from two regions in Nigeria, their total flavonoid contents were comparable to propolis samples collected from China and Rome, Italy. The two propolis samples from South-east and South-west are endowed with flavonoids and can be exploited for pharmaceutical uses.

Downloads

Download data is not yet available.

Article Details

How to Cite
Alaribe , C. S., Oladipupo , A., Ola, A. O., Okeoma , C., Adeyeye , A., Basheeru , K. A., Luca , R., & Coker , H. A. B. (2018). Comparative Chemical and Quantitative Analysis of Flavonoid Contents In Propolis Samples From South East (Abia) and South West (Ibadan) Of Nigeria. Nigerian Journal of Pharmaceutical and Applied Science Research, 7(2), 19–27. Retrieved from https://nijophasr.net/index.php/nijophasr/article/view/215
Issue
Vol. 7 No. 2 (2018)
Section
Articles
Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Author Biographies

Chinwe S. Alaribe

Dept of Pharmaceutical Chemistry Faculty of Pharmacy, University of Lagos, Lagos, Nigeria

A.R. Oladipupo

Dept of Pharmaceutical Chemistry Faculty of Pharmacy, University of Lagos, Lagos, Nigeria

Adisa O. Ola

Dept of Pharmaceutical Chemistry Faculty of Pharmacy, University of Lagos, Lagos, Nigeria

C. Okeoma

Dept of Pharmaceutical Chemistry Faculty of Pharmacy, University of Lagos, Lagos, Nigeria

A.O. Adeyeye

Dept of Pharmaceutical Chemistry Faculty of Pharmacy, University of Lagos, Lagos, Nigeria

K. A. Basheeru

Dipartimento di Farmacia, University of Salerno, Via Giovanni Paolo II, 132 84084 Fisciano (SA) – Italy

Rastrelli Luca

Central Research Laboratory, University of Lagos, Nigeria

H. A. B. Coker

Dept of Pharmaceutical Chemistry Faculty of Pharmacy, University of Lagos, Lagos, Nigeria

References

Bankova, V. S., de Castro, S. L. and Marcucci, M. C. (2000). Propolis: recent advances in chemistry and plant origin. Apidologie, 31: pp. 3-15.

Bankova, V. (2005). Recent trends and important developments in propolis research. Evidence-Based Complementary and Alternative Medicine, 2: pp. 29– 32

Chang, C.C., Yang, M.H., Wen, H.M., Chern, J.C. (2002), Estimation of total flavonoid content in propolis by two complementary colorimetric methods, Journal of Food and Drug Analysis, 10: pp. 178-182

Daines, A., Payne, R., Humphries, M. and Abell, A. (2003). "The Synthesis of Naturally Occurring Vitamin K and Vitamin K Analogues". Current Organic Chemistry, 7 (16): pp. 1625–34.

European Pharmacopoeia (2012). Refined and Quantified Ginkgo Dry Extract. Council of Europe. European Pharmacopoeia 7th Ed., ref. Ph. Eur. monograph 1827

Evans, W.C. (1996). Trease and Evans Pharmacognosy, 14th Ed. London: W.B. Sanders. pp. 545-546.

Evans, W.C. (2002). Trease and Evans Pharmacognosy, 15th Ed. London: W.B. Sanders. pp. 183-393.

Fernandes, E.S., Passos, G.F., Medeiros, R., da Cunha, F.M., Ferreira, J., Campos, M.M., Pianowski, L.F., Calixto, J.B. (2007). "Anti-inflammatory effects of compounds alpha-humulene and (?)-trans-caryophyllene isolated from the essential oil of Cordia verbenacea". European Journal of Pharmacology 569 (3).

Garcia-Viguera, C., Ferreres, F. and Tomas-Barberan, F.A. (1993). Study of Canadian propolis by GC-MS and HPLC. Zeitschrift für Naturforschung, 48: pp. 731–735

Greenaway, W., May, J. and Scaysbrook, T. (1991). Identification by gas chromatography- mass spectrometry of 150 compounds in propolis. Zeitschrift für Naturforschung C 46: pp. 111–121

GBMD (Genome-2-Bio-Medicine Discovery center) (2015). Genome Discovery. Available at https://genomediscovery.org/47097-2/ [Accessed 3 Feb. 2017]

Hern, A. and Dorn, S. (1999). "Sexual dimorphism in the olfactory orientation of adult Cydia pomonella in response to alpha-farnesene", Entomologia Experimentalis et Applicata, 92(1): pp. 63–72

Ibrahim, A. M. S. (2001). Phytochemical Composition of Iraqi Propolis and its effect on some Microorganism Al-Anbar Journal of Veterinary Science, 4 (2)

Inoue, Y., Hada, T., Shiraishi, A., Hirose, K., Hamashima, H. and Kobayashi, S. (2005). Biphasic Effects of Geranylgeraniol, Teprenone, and Phytol on the Growth of Staphylococcus aureus. Antimicrobial Agents and Chemotherapy, 10(49).5. pp. 1770–1774.

Ivan, K., Marina, B., Stjepan P and Sanda, V. (2004). ‘Quantitative analysis of the flavonoids in raw propolis from Northern Croatia’, ACTA Pharmaceutica, pp. 65-72.

Kujumgiev, A., Tsevtkova, I., Serkedjieva, Yu., Bankova, V., Christov, R. and Popov, S. (1999). ‘Antibacteria, antifungal and antiviral activity of propolis of different geographic origin’, Journal of Ethnopharmacology. 64. pp. 235-240.

Legault, J. and Pichette, A. (2007). Potentiating effect of beta-caryophyllene on anticancer activity of alpha-humulene, isocaryophyllene and paclitaxel. Journal of Pharmacy and Pharmacology,(12): pp. 1643-7.

Marcucci, M.C. (1995). Propolis:chemical composition, biological properties and therapeutic activity. Apidologie, 26: pp. 83–99

M?rghitas, L. Al., D. Dezmirean, L.L., Adela, M., Olimpia P. and O. Maghear (2007). Validated method for estimation of total flavonoids in Romanian propolis. Bulletin USAMV-CN (The Bulletin of University of Agricultural Sciences and Veterinary Medicin Cluj- Napoca). pp. 63 - 64

McGinty, D., Letizia, C.S., Api, A.M. (2010). "Fragrance material review on phytol". Food and Chemical Toxicology 48: pp. 59–63.

Netscher, Thomas (2007). "Synthesis of Vitamin E". In Litwack, Gerald. Vitamin E. Vitamins & Hormones 76. pp. 155–202.

Passosa, G.F. and Fernandesa, E.S.(2007). "Anti-inflammatory and anti-allergic properties of the essential oil and active compounds from Cordia verbenacea". Journal of Ethnopharmacology 110 (2): pp.323–333.

Silva, G. L., Lee, I. and Douglas, K. A. (1998). ‘Special problems with extraction of plants’. In Cannell J. P. R (eds). Natural Products Isolation. Humana Press Publishers, New Jersey (USA) pp. 356-358.

Silva, J.F.M., Souza, M.C., Matta, S.R., Andrade, M.R. and Vidal, F.V.N. (2006), Correlation between phenolic levels of Brazilian propolis extracts and their antimicrobial and antioxidant activities, Food Chemistry, 99, pp. 431-435.

Šobotník, J., Hanus, R., Kalinová, B., Piskorski, R., Cva?ka, J., Bourguignon, T. and Roisin, Y. (2008). "(E,E)-?-Farnesene, an Alarm Pheromone of the Termite Prorhinotermes canalifrons", Journal of Chemical Ecology 34 (4): pp. 478–486.

Tapas, A.R., Sakarkar, D.M., and Kakde, R.B. (2008). ‘Flavonoids as Nutraceuticals: A Review’. Tropical Journal of Pharmaceutical Research. 7 (3): pp.1089-1099

Vencl, Fredric V.; Morton, Timothy C. (1998). "The shield defense of the sumac flea beetle, Blepharida rhois (Chrysomelidae: Alticinae)". Chemoecology 8 (1): pp. 25–32.

Vik, A., James, A. and Gundersen, L.L. (2007). "Screening of terpenes and derivatives for antimycobacterial activity; identification of geranylgeraniol and geranylgeranyl acetate as potent inhibitors of Mycobacterium tuberculosis in vitro". Planta medica 73 (13): pp. 1410–2.

Wang, Y., Du, A.L. and Du, A.Q. (2012). "Isolation of Zingiberene from Ginger Essential Oil by Two-Step Intermittent Silica Gel Column Chromatography", Advanced Materials Research, Vols. 550-553, pp. 1666-1670.

Woisky, R.G. and Salatino, A. (1998), Analysis of propolis: some parameters and procedures for chemical quality control, Journal of Apicultural Research 37(2): pp. 99-105

Ziaei, A., Ramezani , M., Wright, L., Paetz, C., Schneider, B. and Amirghofran, Z. (2011). Identification of spathulenol in Salvia mirzayanii and the immunomodulatory effects. Phytother Res. 25(4): pp. 557-62.