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American Journal of Pharmacological Sciences
ISSN (Print): 2327-6711 ISSN (Online): 2327-672X Website: https://www.sciepub.com/journal/ajps Editor-in-chief: Srinivas NAMMI
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American Journal of Pharmacological Sciences. 2021, 9(2), 63-68
DOI: 10.12691/ajps-9-2-3
Open AccessArticle

Antioxidant Activity of Aqueous Extracts of Roasted Bean Seeds of Coffea canephora Rubiaceae

AKA Francis B. Angelo1, Coulibaly Wacothon Karime2, Titah T. James3, , Bea Gouanda Thibaut4 and Benié Anoubilé5

1Laboratoire de Biologie et Sante, UFR des Biosciences, Université Félix HOUPHOUËT-BOIGNY, Abidjan, Côte d’Ivoire

2Département de Mathématiques, Physique, Chimie, UFR des Sciences Biologiques, Université Peleforo GON COULIBALY, Korhogo, Côte d’Ivoire

3Department of Chemistry-Science & Mathematics, Tabor College, Hillsboro, Kansas, USA

4Laboratoire de Constitution et de Réaction de la Matière, UFR Sciences des Structures et Technologie, Université Félix HOUPHOUËT-BOIGNY, Abidjan, Côte d’Ivoire

5Laboratoire de Chimie BioOrganique et de Substances Naturelles, UFR-SFA, Université Nangui Abrogoua, Abidjan, Côte d’Ivoire

Pub. Date: January 05, 2022
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Cite this paper:
AKA Francis B. Angelo, Coulibaly Wacothon Karime, Titah T. James, Bea Gouanda Thibaut and Benié Anoubilé. Antioxidant Activity of Aqueous Extracts of Roasted Bean Seeds of Coffea canephora Rubiaceae. American Journal of Pharmacological Sciences. 2021; 9(2):63-68. doi: 10.12691/ajps-9-2-3

Abstract

Phenolic compounds are highly solicited bioactive substances, present specifically in plants and playing a powerful antioxidant role. These secondary metabolites are endowed with several very interesting biological properties, which find applications in various fields, in particular in medicine, cosmetics and nutrition. Given the various virtues of these compounds, we were interested in determining by High Pressure Liquid Chromatography) HPLC their contents in the aqueous extract of roasted beans of Coffea canephora (EAGTCc) and particularly the contents of chlorogenic acid, caffeic acid and catechol. In addition, the antioxidant activity was measured by 2,2-diphenyl-1-picrylhydrazyl (DPPH). Total polyphenols and total flavonoids were also assayed spectrophotometrically. HPLC showed levels of 3.7 % catechol, 5.4 % chlorogenic acid and 2.8 % caffeic acid in 100 g of dry matter of EAGTCc. The concentration of EAGTCc responsible for 50 % inhibition (IC50) of the DPPH radical is 75.54 ± 2.08 µg / mL. The contents of total polyphenols and total flavonoids are 81.67 mg EAG / g and 293.33 mg EQ / g. This antioxidant activity present in the EAGTCc is probably linked to the richness of the seeds of this plant in phenolic compounds. The results obtained are very interesting insofar as the use of natural compounds as antioxidants remains without side effects on the body and could replace the use of antioxidant molecules resulting from chemical synthesis.

Keywords:
extract phenolic acid coffea canephora antioxidant activity 22-diphenyl-1-picrylhydrazyl (DPPH)

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

References:

[1]  Scalbert A, Johnson IT, Saltmarsh M. Polyphenols: antioxidants and beyond. American Journal Clinical Nutrition. 2005; 81: 215-217.
 
[2]  Mokbel MS, Hashinaga F. Antibacterial and antioxidant activities of banana (Musa, AAA cv. Cavendish) fruits peel. Am J Biochem Biotechnol. 2005; 1(3): 125-31.
 
[3]  Pellegrini N, Serafini M, Colombi, et al. Total antioxidant capacity of plant foods, beverages and oils consumed in Italy assessed by three different in vitro assays. J Nutr. 2003; 133: 2812-9.
 
[4]  Fidrianny I, Windyaswari AS, Wirasutisna KR. Antioxidant capacities of various leaves extract from five colors varieties of sweet potatoes tubers using ABTS, DPPH assays and correlation with total flavonoid, phenolic, carotenoid content. Res J Med Plant. 2013; 7(3): 130-40.
 
[5]  Pourmorad F, Hosseinimehr SJ, Shahabimajd N. Antioxidant activity, phenol and flavonoid content of some selected Iranian medicinal plants. Afr J Biotechnol. 2006; 5(11): 1142-5.
 
[6]  Ramalakshmi K, Kubra IR, Rao LJ. Antioxidant potential of low-grade coffee beans. Food Res Int. 2008; 41: 96-103.
 
[7]  Win M, Hamid A, Baharin B, Anwar FS, Pak-Dek MS. Phenolic compounds and antioxidant activity of peanut’s skin, hull, raw kernel and roasted kernel flour. Pak J Bot. 2011; 43(3): 1635-42.
 
[8]  Lopez-Garcia E, van Dam RM, Li Ty, et al. The relationship of coffee consumption with mortality. Ann Intern Med. 2008; 148: 904-14.
 
[9]  Freedman ND, Park Y, Abnet CC, et al. Association of coffee drinking with total and cause-specific mortality. N Engl J Med. 2012; 366: 1891-904.
 
[10]  Mashkor IM. Phenolic content and antioxidant activity of fenugreek seeds extract. Int J Pharmacogn Phytochem Res. 2014; 6(4): 841-4.
 
[11]  Thaipong K, Boonprakob U, Crosby K, Zevallos LC, Byrne DH. Comparison of ABTS, DPPH, FRAP,and ORAC assays for estimating antioxidant activity from guava fruit xtracts. J Food Comp. Anal. 2006; 19: 669-75.
 
[12]  Fidrianny I, Permatasari L, Wirasutisna KR. Antioxidant activities from various bulbs extracts, of three kinds allium using DPPH, ABTS assays and correlation with total phenolic, flavonoid, carotenoid content. Int J Res Pharm Sci. 2013; 4(3): 438-44.
 
[13]  Butt MS, Smith MT. Coffee and its Consumption: Benefits and Risks. Critical Reviews in Food Science and Nutrition. 2011; 51: 363-373.
 
[14]  Brezova V, Šlebodova A, Staško A. Coffee as a source of antioxidants: An EPR study. Food Chem. 2009; 114: 859-68.
 
[15]  Vermerris W, Nicholson R. Phenolic compound Biochemistry. Springe. Dortrecht, The Netherland. 2006; 11-234.
 
[16]  Ardestani A, Yazdanparast R. Inhibitory effects of ethyl acetate extract of Teucrium polium on in vitro protein glycoxidation. Food and Chemical Toxicology. 2007; 45: 2402-2411.
 
[17]  Donovan JL, Manach C, Faulks RM, Kroon PA. Absorption and metabolism of dietary secondary metabolites. In: Plant Secondary Metabolites. Occurrence, Structure and Role in the Human Diet. Blackwell Publishing. Oxford (USA); 2006: 303-351.
 
[18]  Mansouri A, Embarek G, Kokkalou E, Kefalas P. Phenolic profile and antioxidant activity of the Algerian ripe date palm fruit (Phoenix dactylifera). Food Chemistry. 2005; 89: 411- 420.
 
[19]  Samarth RM, Panwar M, Kumar M, Soni A, Kumar, M, Kumar A. Evaluation of antioxidant and radical: scavenging activities of certain radioprotective plant extracts. Food chemistry. 2008; 106: 868-873.
 
[20]  Kouassi JB, Cissé-camara M, Sess DE, Tiahou GG. Monde AA, Djohan FY. Détermination des teneurs en fer, en calcium, en cuivre et en zinc de deux variétés de gombo. Bulletin de la Société Royale des Sciences de Liège. 2013; 82: 22-32.
 
[21]  Ivana H, Ana BC, Dunja H, Drazenka K. Comparative study of polyphenols and caffeine in different coffee varieties affected by the degree of roasting. Food Chemistry. 2011; 129: 991-1000.
 
[22]  Anca CF, Sonia AS, Iulia B, al. Evaluation of Biofunctional Compounds Content from Brewed Cofee. Bulletin of Food Science and Technology 2014; 71: 2344-2347.
 
[23]  Khadra B. Contribution à l’étude phytochimique et activité biologique des extraits des graines de Coffea canephora. Mémoire de Master en Biologie option Biochimie de l’Université Abou Bekr Belkaïd-Tlemcen, Tlemcen (Algérie). 2017: 57.
 
[24]  Haler PNG, Le café: les effets bénéfiques et néfastes sur la santé. Thèse de doctorat d’Etat en pharmacie de l’Université de Lorraine, Lorraine (France). 2013: 175.
 
[25]  Franca AS, Mendonça JCF, Oliveira MBPP. Composition of green and roasted coffees of different cup qualities. Elsevier. 2005; 38: 709-715.
 
[26]  Franca AS, Oliveira MBPP, Mendonça JCF, Silva XA. Physical and chemical attributes of defective crude and roasted coffee beans. Food Chemistry. 2005; 90: 89-94.
 
[27]  Farah A, Monteiro M, Donangelo CM, Lafay S. Chlorogenic acids from green coffee extract is highly bioavailable in humans. Journal Nutrition. 2008; 138: 2309-2315.
 
[28]  Nemlin GJ, Irie ZB, Ban-koffi L, et al. Physico-chemical and organoleptic characteristics of robusta coffee (coffea canephora l.) according to terroirs and farming technics in Côte D’Ivoire. Agronomie Africaine. 2009; 21: 185-195.
 
[29]  Mourad B, Etude de l’activité antioxydante et antimicrobienne d’extraits d’Artemisia campestris L. Mémoire de Magister en Biochimie de l’Université Ferhat Abbes, Sétif (Algérie). 2011: 99.
 
[30]  Cuvelier C, Dotreppe O, Istasse L. Chimie, sources alimentaires et dosage de la vitamine E. Annales de Médecine Vétérinaire. 2003; 147: 315-324.
 
[31]  Bee S, Brando CHJ, Brumen G, et al. The Raw Seed. In: Espresso Coffee, the Science of Quality. Proceeding of the 8th International Symposium on coffee, 2004: 25-28 November 2006. Salvador. Brazil. 87-178.
 
[32]  Del Castillo MD, Ames JM. Effect of roasting on the antioxidant activity of coffee brews. Journal of Agricultural and Food Chemistry. 2002; 50: 3698-3703.
 
[33]  Morales FJ. 2005. Assessing the non-specific hydroxyl radical scavenging properties of melanoidins in a Fenton-type reaction system. Analytica Chimica Acta. 2005; 534: 171-176.
 
[34]  Rufian-Henares JA, Morales FJ. Effect of in vitro enzymatic digestion on antioxydant activity of coffee melanoidins and antihypertensive activities. Food Research International. 2007; 40: 995-1002.
 
[35]  Gniechwing D, Reichard N, Ralph J, Blaud M, Steinhart H, Bunzed M. Isolation and caracterisation of a coffee melanoidin fraction. The Journal of the Science of Food and Agriculture. 2008; 88: 2153-2160.
 
[36]  Vitaglione P, Morisco F, Mazzone G, et al. Coffee reduces liver damage in a rat model of steatohepatitis: the underlying mechanisms and the role of polyphenols and melanoidins. Hepatology. 2010; 52: 1652-1661.
 
[37]  Higdon JV, Frei B. Coffee and health. A review of recent human research. Critical Review of Food Sciences and Nutrition, 2006; 46: 101-123.
 
[38]  Kamel A. Les stilbénoïdeschez les Cypéracées : Isolation, identification et étude de leurs activités biologiques.Identification et dosage des stilbènes dans des vins Tunisiens. Thèse de doctorat en Nutrition de l’Université de bordeaux, bordeaux (France). 2014: 177.
 
[39]  Perrone D, Neves YP, Brand~ao JM, Martinez HEP, Farah A. Influence de la fertilisation de zinc sur les acides chlorogénique et l'activité antioxydant des graines de café. 22 ème Conférence international sur le café, les 14-19 Septembre, Campinas (Brazil). 2008: 220-223.
 
[40]  Dos Santos EJ, De Oliveira E. Determination of Mineral Nutrients and Toxic Elements in Brazilian Soluble Coffee by ICP-AES. Journal of Food Composition and Analysis. 2001; 14: 523-531.
 
[41]  Krejová A, Cernohorský T. The determination of boron in tea and coffee by ICP–AES method. Food Chemistry. 2003; 82: 303-308.
 
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