Authors: Asma Meziti, Hicham Meziti, Kaouthar Boudiaf, Benboubetra Mustapha, Hemama Bouriche.

Abstract:

Nigella sativa L. is an aromatic plant belonging to the family Ranunculaceae. It has been used traditionally, especially in the middle East and India, for the treatment of asthma, cough, bronchitis, headache, rheumatism, fever, influenza and eczema. Several biological activities have been reported in Nigella sativa seeds, including antioxidant. In this context we tried to estimate the antioxidant activity of various extracts prepared from Nigella sativa seeds, methanolic extract (ME), chloroformic extract (CE), hexanic extract (HE : fixed oil), ethyl acetate extract (EAE) water extract (WE). The Folin-Ciocalteu assay showed that CE and EAE contained high level of phenolic compounds 81.31 and 72.43μg GAE/mg of extract respectively. Similarly, the CE and EAE exhibited the highest DPPH radical scavenging activity, with IC50 values of 106.56μg/ml and 121.62μg/ml respectively. In addition, CE and HE showed the most scavenging activity against superoxide radical generated in the PMS-NADH-NBT system with respective IC50 values of 361.86 μg/ml and 371.80 μg/ml, which is comparable to the activity of the standard antioxidant BHT (344.59 μg/ml). Ferrous ion chelating capacity assay showed that WE, EAE and ME are the most active with 40.57, 39.70 and 22.02 mg EDTA-E/g of extract. The inhibition of linoleic acid/ß-carotene coupled oxidation was estimated by ßcarotene bleaching assay, this showed a highest relative antioxidant activity with CE and EAE (69.82% of inhibition). The antioxidant activities of the methanolic extract and the fixed oil are confirmed by an in vivo assay in mice, the daily oral administration of methanolic extract (500 and 800 mg/kg/day) and fixed oil (2 and 4 ml/kg/day) during 21 days, resulted in a significant enhancement of the blood total antioxidant capacity (measured by KRL test) and the plasmatic antioxidant capacity towards DPPH radical.

Keywords: Antioxidant Capacity, Chelating, Phenolic Compounds, Nigella Sativa, Scavenger

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1329809

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References:

[1] G. B. N. Ames, M. K. Shigenaga and T. M. Hagen, "Oxidants, antioxidants, and the degenerative diseases of aging," Proceedings of the National Academy of Sciences of the United States of America, vol. 90, pp. 7915-793, 1993.
[2] J. S. Bland, "Oxidants and antioxidants in clinical medicine: Past, present and future potential," J Nutr Environ Med,vol. 5, pp. 255-280, 1995.
[3] A. Halliwell and J. M .C. Gutteridge, "The antioxidant of human extracellular fluids,"Arch. Biochem. Biophys, vol. 280, pp. 1-8, 1990.
[4] R. Collin, "Oxidative DNA damage, antioxidants, and cancer," Bio- Essays, vol. 21, pp. 238-246, 1999.
[5] R. A. Floyd, "Antioxidants, oxidative stress, and degenerative neurological disorders," Proceedings of the Society for Experimental Biology and Medicine, vol. 222, pp. 236-245, 1999.
[6] C. A. Rice-Evans, N. J. Miller, and G. Paganga, "Structure-antioxidant activity relationships of flavonoids and phenolic acids," Free Rad Biol Med, vol. 20, pp. 933-956, 1996.
[7] R. Amarowicz, M. Naczk and F. Shahidi, "Antioxidant activity of various fractions of non-tannin phenolics of canola hulls," J. Agric. Food Chem, vol. 48, pp. 2755-2759, 2000.
[8] O. I. Aruoma, B. Halliwell, R. Aeschbach and J. Loligers, "Antioxidant and pro-oxidant properties of active rosemary constituents: Carnosol and carnosic acid," Xenobiotica, vol. 22, no. 2, pp. 257-268, 1992.
[9] M. Burits and F. Bucar, Antioxidant activity of Nigella sativa essential oil," Phytother. Res, vol. 14, pp. 323-328, 2000.
[10] H.B. Li, K.W. Cheng, C.C. Wong, K.W. Fan, F, Chen and Y. Jiang, "Evaluation of antioxidant capacity and total phenolic content of different fractions of selected microalgae," Food Chem,vol. 102, pp. 771-776, 2007.
[11] T. Bahorun, B. Gressier,F. Trotin, C.Brunete,T. Dine, J. Vasseur, J.C. Gazin, M. Pinkas, M. Luycky and M.Gazin, "Oxygen species scavenging activity of phenolic extracts from hawthorn fresh plant organs and pharmaceutical preparations," Drug Res, vol.46, pp. 1086- 1089,1996.
[12] A. Mansouri, G. Embarek,E. Kokkalou and P. Kefalas, "Phenolic profile and antioxidant activity of the Algerian ripe date palm fruit (Phoenix dactylifera)," Food Chem, vol. 89, pp. 411-420, 2005.
[13] Ani, M.C. Varadaraj and K. Akhilender Naidu, "Antioxidant and antibacterial activities of polyphenolic compounds from bitter cumin (Cuminum nigrum L.)," Eur. Food Res. Technol, vol. 224, pp. 109-115, 2006
[14] K. Le, F,Chiu F and K. Ng, "Identification and quantification of antioxidants in Fructus lycii," Food Chem.vol.105, pp. 353-363, 2007.
[15] N. Kartal, M. Sokmen, B. Tepe, D. Daferera,M. Polissiou and A. Sokmen, "Investigation of the antioxidant properties of Ferula orientalis L using a suitable extraction procedure," Food Chem, vol. 100, pp. 584- 589, 2007.
[16] A. Girard, S. Madani, F Boukortt, M. Cherkaoui-Malki, J. Belleville and J. Prost, "Fructose-aenriched diet modifies antioxidant status and lipid metabolism in spontaneously hypertensive rats," Nutrition, vol. 22, pp. 758-766, 2006.
[17] C. Manna, S. D-angelo, V. Migliardi, E. Loffredi, O.Mazzoni, P. Morrica, P. Galletti and V. Zappia, "Protective effect of the phenolic fraction from virgin olive oils against oxidative stress in human cells," J. Agric. Food Chem, vol.50, pp. 6521-6526, 2002.
[18] P. Hasani, N. Yasa, S. Vosough-Ghanbari, A. Mohammadirad, G. Dehghan and M. Abdollahi, " In vivo antioxidant potential of Teucrium polium, as compared to ╬▒-tocopherol," Acta Pharm, vol.57, pp. 123- 127, 2007.
[19] S. Garg, G. P. Talwar, and S. N. Upadhyay, "Immunocontraceptive activity guide fractionation and characterization of active constituents of neem (Azadirachta indica) seed extracts," J Ethnopharmacol, vol. 60, pp. 235-246, 1998.
[20] E. Yesilada, K. Tsuchiya, Y. Takaishi and K. Kawazoe, "Isolation and characterization of free radical scavenging flavonoid glycosides from the flowers of Spartium junceum by activity-guided fractionation," J Ethnopharmacol , vol.73, pp. 471-478, 2000.
[21] K. Suresh Kumar, K. Ganesan and P.V. Subba Rao, "Antioxidant potential of solvent extracts of Kappaphycus alvarezii (Doty) Doty - An edible seaweed," Food Chem, vol. 107, pp. 289-295, 2008.
[22] W. Brand-Williams, M. E. Cuvelier and C. Berset, "Use of a free radical method to evaluate antioxidant activity," LWT, vol. 28, pp. 25-30, 1995.
[23] S.V. Javanovic, S. Steenken, M. Tosic and B. Marjanovic, M.J. Simic, "Flavonoids as antioxidants," J. Am. Chem. Soc, vol. 116, pp. 4846- 4851, 1994.
[24] F. Benkaci-Ali, A. Baaliouamer and B.Y. Meklati, "Kinetic study of microwave extraction of essential oil of Nigella sativa L. Seeds," Chromatographia, vol. 64, pp. 227-231, 2006.
[25] O.A. Badary, R.A. Taha, A.M. Gamal El-Din and M.H. Abdel-Wahab, "Thymoquinone is a potent superoxide anion scavenger," Drug Chem. Toxicol, vol. 26, pp. 87-98, 2003.
[26] H. Zhao,W. Fan, J. Dong, J.Lu, J. Chen, L.Shan, Y. Lin and W Kong, "Evaluation of antioxidant activities and total phenolic contents of typical malting barley varieties," Food Chem, vol. 107, pp. 296-304, 2008.
[27] S. Bourgou, R. Ksouri, A. Bellila, I. Skandrani, H. Falleh and B. Marzouk, "Phenolic composition and biological activities of Tunisian Nigella sativa L. shoots and roots," C R Biol , vol. 331, pp. 48-55, 2008.
[28] C.J. Morris, J.R. Earl, C.W. Trenam and D.R Blake,"Reactive oxygen species and iron-a dangerous partnership in inflammation," Int. J. Biochem. Cell Biol, vol. 27, pp. 109-122, 1995.
[29] J.E. Brown, H. Khodr, R.C. Hider and C. Rice-Evans, "Structural dependence of flavonoïds interactions with Cu2+ ions: implication for their antioxidant properties," Biochem. J, vol. 330, pp. 1173-1178, 1998.
[30] S.P.Wong, L.P. Leong and J.H. William Koh, "Antioxidant activities of aqueous extracts of selected plants," Food Chem, vol. 99, pp. 775-783, 2006.
[31] S.A.B.E. Van Acker, D.J. Van Den Berg, M.N.L. Tromp, D.H. Griffioen, W.P.V. Bennenkom, W.J.F. Van Der Vijgh and A. Bast, "Structural aspects of antioxidant activity of flavonoids," Free Radical Biol. Med , vol. 20, pp. 331-342, 1996.
[32] C.M. Liyana-Pathirana and F. Shahidi, "Antioxydant propreties of commercial soft and hard winter wheats (Triticum aestivium L.) and their milling fractions, J Sci Food Agric, vol. 86, pp. 477-485, 2006.
[33] E.N. Frankel and A.S. Meyer, "The problems of using one-dimensional methods to evaluate multifunctional food and biological antioxidants," J Sci Food Agric, vol. 80, pp.1925-1940, 2000.
[34] Y.F. Chu, J. Sun, X. Wu and R.H. Liu, "Antioxidant and antiproliferative activities of common vegetables," J. Agric. Food Chem, vol. 50, pp. 6910-6916, 2002.
[35] P. Stocker, J. F. Lesgards, N. Vidal, F. Chalier and M. Prost, "ESR study of a biological assay on whole blood: antioxidant efficiency of various vitamins," Biochim. Biophys. Acta , vol. 1621, pp. 1-8, 2003.
[36] G.Kökdil, L. Tamer, B. Ercan, M. ├çelik and U. Atik, "Effects of Nigella orientalis and N. segetalis fixed oils on blood biochemistry in rats," Phytother. Res, vol. 20: 71-75, 2006.
[37] G.Kökdil, L.Tamer, B. Ercan, A. Ilcim, N.Aras and U. Atik, "Effects of Nigella unguicularis fixed oil on blood biochemistry and oxidant/antioxidant balance in rats," J Ethnopharmacol , vol. 99, pp. 131-135, 2005.
[38] S.M. Suboh, Y.Y. Bilto and T.A. Aburjai, "Protective effects of selected medicinal plants against protein degradation, lipid peroxidation and deformability loss of oxidatively stressed human erythrocytes," Phytother. Res, vol.18, pp. 280-284, 2004.
[39] A. Janaszewska and G. Bartosz, "Assay of total antioxidant capacity: comparison of four methods as applied to human blood plasma," Scand J Clin Lab Investig, vol. 62, pp. 231-236, 2002.
[40] D. Huang, B. Ou and R.L. Prior, "The Chemistry behind Antioxidant Capacity Assays," J. Agric. Food Chem, vol. 53, pp.1841-1856, 2005