COMMENTARY ON THE LAW

Carotenoids as natural antioxidants

Joanna Igielska-Kalwat¹ , Joanna Gościańska¹ , Izabela Nowak¹

1. Pracownia Chemii Stosowanej, Wydział Chemii Uniwersytetu im. Adama Mickiewicza w Poznaniu

Published: 2015-04-07

DOI: 10.5604/17322693.1148335

GICID: 01.3001.0009.6514

Available language versions: en pl

Issue: Postepy Hig Med Dosw 2015; 69 : 418-428

Abstract

Human organisms have many defence mechanisms able to neutralise the harmful effects of the reactive species of oxygen. Antioxidants play an important role in reducing the oxidative damage to the human organism. Carotenoids are among the strongest antioxidants. They have 11 coupled double bonds, so they can be classified as polyisoprenoids, show low polarity and can occur in acyclic, monocyclic or bicyclic forms. The carotenoids of the strongest antioxidant properties are lycopene, lutein, astaxanthin and β-carotene. Carotenoids with strong antioxidant properties have found wide application in medical, pharmaceutical and cosmetic industries. These compounds are highly active against both reactive oxygen species and free radicals. Comparing β-carotene, astaxanthin and lycopene with other antioxidants (e.g. vitamin C and E), it can be concluded that these compounds have higher antioxidant activity, e.g. against singlet oxygen. Astaxanthin is a stronger antioxidant compared to β-carotene, vitamin E and vitamin C, respectively 54, 14 and 65 times. Carotenoids have a salutary effect on our body, making it more resistant and strong to fight chronic diseases. The purpose of this article is to review the literature concerning free radicals and their adverse effects on the human body and carotenoids, as strong, natural antioxidants.

References

1. Abheri Das S., Anisur R.M., Ghosh A.: Free radicals and their rolein different clinical conditions: an overview. Int. J. Pharma Sci. Res.,2010; 1: 185-192
Google Scholar
2. Alvarez R., Vaz B., Gronemeyer H., de Lera A.R.: Functions, therapeuticapplications, and synthesis of retinoids and carotenoids. Chem.Rev., 2014; 114: 1-125
Google Scholar
3. Andersson S.C.: Carotenoids, tocochromanols and chlorophylls in seabuckthorn berries and rose hips. Doctoral Thesis Swedish University ofAgricultural Sciences, Alnarp 2009
Google Scholar
4. Apel K., Hirt H.: Reactive oxygen species: metabolism, oxidativestress, and signal transduction. Annu. Rev. Plant. Biol., 2004; 55: 373-399
Google Scholar
5. Badarinath A.V., Mallikarjuna K., Madhu Sudhana Chetty C., RamkanthS., Rajan T.V., Gnanaprakash K.: A review on in-vitro antioxidantmethods: comparisons, correlations and considerations. Int. J. Pharm.Tech. Res., 2010; 2: 1276-1285
Google Scholar
6. Bendich A.: Carotenoids and the immune response. J. Nutr., 1989;119: 112-115
Google Scholar
7. Bland J.S.: Oxidants and antioxidants in clinic medicine. J. Nutr. Environ.Med., 1995; 5: 255-262
Google Scholar
8. Blokhina O., Virolainen E., Fagerstedt K.V.: Antioxidants, oxidativedamage and oxygen deprivation stress: a review. Ann. Bot., 2003; 91:179-194
Google Scholar
9. Bobrowska B., Olędzka R.: Współczesne poglądy na rolę żywieniowąluteiny i likopenu. Bromat. Chem. Toksykol., 2002; 35: 289-296
Google Scholar
10. Boon C.S., McClements D.J., Weiss J., Decker E.A.: Factorsinfluencing the chemical stability of carotenoids in foods. Crit.Rev. Food Sci. Nutr., 2010; 50: 515-532
Google Scholar
11. Burri B.J.: Beta-carotene and human health: a review of currentresearch. Nutr. Res., 1997; 17: 547-580
Google Scholar
12. Capelli B.: Astaksantyna- naturalna astaksantyna królowąkarotenoidów. Cyanotech Corporation, Holualoa 2007
Google Scholar
13. Carocho M., Ferreira I.C.: A review on antioxidants, prooxidantsand related controversy: natural and synthetic compounds,screening and analysis methodologies and future perspectives.Food Chem. Toxicol., 2013; 51: 15-25
Google Scholar
14. Cybul M., Nowak R.: Przegląd metod stosowanych w analiziewłaściwości antyoksydacyjnych, Herba Polonica, 2008, 54; 68-78
Google Scholar
15. Del Rio L.A., Corpas F.J., Sandalio L.M., Palma J.M., GomezM., Barroso J.B.: Reactive oxygen species, antioxidant systemsand nitric oxide in peroxisomes. J. Exp. Bot., 2002; 53: 1255-1272
Google Scholar
16. Dharmaraj S., Dhevendaran K.: Application of microbial carotenoidsas a source of colouration and growth of ornamentalfish Xiphophorus helleri. World J. Fish Marine Sci., 2011; 2: 137-144
Google Scholar
17. Drewnowski A., Kurth C., Holden-Wiltse J., Saari J.: Food preferences in human obesity: carbohydrates versus fats. Appetite,1992; 18: 207-221
Google Scholar
18. Dwyer J.H., Navab M., Dwyer K.M., Hassan K., Sun P., ShircoreA., Hama-Levy S., Hough G., Wang X., Drake T., Merz C.N.,Fogelman A.M.: Oxygenated carotenoid lutein and progressionof early atherosclerosis: the Los Angeles atherosclerosis study.Circulation, 2001; 103: 2922-2927
Google Scholar
19. Edge R., Land E.J., McGarvey D., Mulroy L., Truscott T.G.:Relative one electron reduction potentials of carotenoid radicalcations and the interactions of carotenoids with the vitamin Eradical cation. J. Am. Chem. Soc., 1998; 120, 4087-4090
Google Scholar
20. El-Agamey A., Lowe G.M., McGarvey D.J., Mortensen A., PhillipD.M., Truscott T.G., Young A.J.: Carotenoid radical chemistryand antioxidant/pro-oxidant properties. Arch. Biochem. Biophys.,2004; 430, 37-48
Google Scholar
21. El-Raey M.A., Ibrahim G.E., Eldahshan O.A.: Lycopene andlutein: a review for their chemistry and medical uses. Journal ofPharmacognosy and Phytochemistry, 2013; 2: 245-254
Google Scholar
22. Fiedor J., Burda K.: Potential role of carotenoids as antioxidantsin human health and disease. J. Nutrients, 2014; 6: 466-488
Google Scholar
23. Fratianni A., Cinquanta L., Panfili G.: Degradation of carotenoidsin orange juice during microwave heating. Food Sci. Technol.,2010; 43: 867-871
Google Scholar
24. Furchgott R.F., Vanhoutte P.M.: Endothelium-derived relaxingand contracting factor. FASEB J., 1989; 3: 2007-2018
Google Scholar
25. Galano A.: Relative antioxidant efficiency of a large series ofcarotenoids in terms of one electron transfer reactions. J. Phys.Chem. B, 2007; 111: 12898-12908
Google Scholar
26. Galano A., Vargas R., Martinez A.: Carotenoids can act as antioxidantsby oxidizing the superoxide radical anion. Phys. Chem.Chem. Phys., 2010; 12: 193-200
Google Scholar
27. Geens A., Dauwe T., Eens M.: Does anthropogenic metal pollutionaffect carotenoid colouration, antioxidative capacity andphysiological condition of great tits (Parus major)? Comp. Biochem.Physiol. C Toxicol. Pharmacol., 2009; 150: 155-163
Google Scholar
28. Grajek W.: Rola przeciwutleniaczy w zmniejszeniu ryzykawystąpienia nowotworów i chorób układu krążenia. Żywność,Nauka, Technologia, Jakość, 2004; 1: 3-11
Google Scholar
29. Gryszczyńska A., Gryszczyńska B., Opala B.: Karotenoidy.Naturalne źródła, biosynteza, wpływ na organizm ludzki. Post.Fitoter., 2011; 12: 127-143
Google Scholar
30. Guerin M., Huntley M.E., Olaizola M.: Haematococcus astaxanthin:applications for human health and nutrition. Trends Biotechn.,2003; 21: 210-216
Google Scholar
31. Guz J., Dziaman T., Szpila A.: Czy witaminy antyoksydacyjnemają wpływ na proces karcynogenezy? Postępy Hig. Med. Dośw.,2007; 61: 185-198
Google Scholar
32. Halliwell B., Zhao K., Whiteman M.: Nitric oxide and peroxynitrite.The ugly, the uglier and the not so good: a personalview of recent controversies. Free Radic. Res., 1999; 31: 651-669
Google Scholar
33. Han R.M., Zhang J.P., Skibsted L.H.: Reaction dynamics offlavonoids and carotenoids as antioxidants. Molecules, 2012; 17:2140-2160
Google Scholar
34. Igielska-Kalwat J., Gościańska J., Nowak I.: Antyoksydacyjnewłaściwości karotenoidów. Kosmetyka i Kosmetologia, 2013; 96: 3-4
Google Scholar
35. Igielska-Kalwat J., Gościańska J., Nowak I.: Astaksantyna cennyskładnik preparatów kosmetycznych. Kosmet. Estet., 2013;2: 83-85
Google Scholar
36. Igielska-Kalwat J., Gościańska J., Nowak I.: Use of lycopene indermocosmetics. Przem. Chem., 2014; 93: 1057-1240
Google Scholar
37. Igielska-Kalwat J., Nowak J.: Zastosowanie kantaksantynyw przemyśle kosmetycznym, Dokonania Młodych Naukowców,Wrocław 2014
Google Scholar
38. Igielska-Kalwat J., Wawrzyńczak A., Nowak I.: Karotenoidyi ich zastosowanie w przemyśle kosmetycznym. Chemik, 2012;66: 140-144
Google Scholar
39. Juola F.A., McGraw K., Dearborn D.C.: Carotenoids and throatpouch coloration in the great frigatebird (Fregata minor). Comp.Biochem. Physiol. B Biochem. Mol. Biol., 2008; 149: 370-377
Google Scholar
40. Kisała J.: Antyutleniacze pochodzenia roślinnego i syntetycznego- ich rola i właściwości. Zeszyt Naukowy, 2009; 11: 109-114
Google Scholar
41. Krinsky N.I., Landrum J.T., Bone R.A.: Biologic mechanismsof the protective role of lutein and zeaxanthin in the eye. Annu.Rev. Nutr., 2003; 23: 171-201
Google Scholar
42. Kwiatkowska E.: Luteina- źródło w diecie i potencjalna rolaprozdrowotna. Post. Fitoter., 2010; 58: 97-100
Google Scholar
43. Lee, E.H., Faulhaber D. Hanson K.M., Ding W., Peters S., KodaliS., Granstein R.D.: Dietary lutein reduces ultraviolet radiationinducedinflammation and immunosuppression. J. Invest. Dermatol.,2004; 122: 510-517
Google Scholar
44. Leja M., Mareczek A., Nanaszko B: Antyoksydacyjne wła-ściwości owoców wybranych gatunków dziko rosnących drzewi krzewów. Roczniki Akademii Rolniczej w Poznaniu, 2007; 327-331
Google Scholar
45. Liang J., Tian Y.X., Yang F., Zhang J.P., Skibsted L.H.: Antioxidantsynergism between carotenoids in membranes. Astaxanthinas a radical transfer bridge. Food Chem., 2009; 115: 1437-1442
Google Scholar
46. Lorenz R.T.: Astaxanthin nature’s super carotenoid. BioastinTechnical Bulletin, 2000; 62: 1-19
Google Scholar
47. Lucas A., Morales J., Velando A.: Differential effects of specificcarotenoids on oxidative damage and immune response ofgull chicks. J. Exp. Biol., 2014; 217: 1253-1262
Google Scholar
48. Martin H.D., Jaeager C., Ruck C., Schmidt M., Walsh R., Paust J.J.:Astaxanthin uptake in domestic dogs and cats. ESPEN, 1999; 52: 1-8
Google Scholar
49. Moise A.R., Al-Babili S., Wurtzel E.T.: Mechanistic aspects ofcarotenoid biosynthesis. Chem. Rev., 2014; 114: 164-193
Google Scholar
50. Mortensen A., Skibsted L.H., Sampson J., Rice-Evans C., EverettS.A.: Comparative mechanisms and rates of free radical scavengingby carotenoid antioxidants. FEBS Lett., 1997; 418: 91-97
Google Scholar
51. Müller H., Bub A., Watzl B., Rechkemmer G.: Plasma concentrationsof carotenoids in healthy volunteers after interventionwith carotenoid rich foods. Eur. J. Nutr., 1999; 38: 35-44
Google Scholar
52. Müller L., Frohlich K., Bohm V.: Comparative antioxidant activitiesof carotenoids measured by ferric reducing antioxidantpower (FRAP), ABTS bleaching assay (α TEAC), DPPH assay andperoxyl radical scavenging assay. Food Chem., 2011; 129: 139-148
Google Scholar
53. Naguib Y.M.: Antioxidant activities of astaxanthin and relatedcarotenoids. J. Agric. Food Chem., 2000; 48: 1150-1154
Google Scholar
54. Nguyen M.L., Schwartz S.J.: Lycopene: chemical and biologicalproperties. Food Technol., 1999; 53: 38-45
Google Scholar
55. Niki E.: Lipid peroxidation: physiological levels and dual biologicaleffects. Free Radic. Biol. Med., 2009; 47: 469-484
Google Scholar
56. Nowicka B., Kruk J.: Reaktywne formy tlenu w roślinach –więcej niż trucizna. Kosmos, 2013; 62: 583-596
Google Scholar
57. Park H.H., Lee S., Son H.Y., Park S.B., Kim M.S., Choi E.J., SinghT.S., Ha J.H., Lee M.G., Kim J.E., Hyun M.C., Kwon T.K., Kim Y.H.,Kim S.H.: Flavonoids inhibit histamine release and expression ofproinflammatory cytokines in mast cells. Arch. Pharmacol. Res.,2008; 31: 1303-1311
Google Scholar
58. Profumo E., Di Franco M., Buttari B., Masella R., Filesi C., TostiM.E., Scrivo R., Scarno A., Spadaro A., Saso L., Rigano R.: Biomarkers of subclinical atherosclerosis in patients with autoimmunedisorders. Mediators Inflamm., 2012; 2012: 503942
Google Scholar
59. Puzanowska-Tarasiewicz H., Starczewska B., Kuźmicka L.: Reaktywneformy tlenu. Bromat. Chem. Toksykol., 2008; 4: 1007-1015
Google Scholar
60. Rao A.V., Agarwal S.: Bioavailability and in vivo antioxidantproperties of lycopene from tomato products and their possiblerole in the prevention of cancer. Nutr. Cancer, 1998; 31: 199-203
Google Scholar
61. Rao A.V., Rao L.G.: Carotenoids and human health. PharmacolRes., 2007; 55: 207-216
Google Scholar
62. Ray P.D., Huang B.W., Tsuji Y.: Reactive oxygen species (ROS)homeostasis and redox regulation in cellular signaling. Cell. Signal.,2012; 24: 981-990
Google Scholar
63. Rodriguez-Amaya D.: Carotenoids and food preparation: theretention of provitamin A carotenoids in prepared, processed,and stored. Food John Snow. Inc/OMNI Project, Campinas, Brasil,1997
Google Scholar
64. Rodriguez-Bernaldo de Quiros A., Costa H.S.: Analysis of carotenoidsin vegetable and plasma samples. J. Food Compos. Anal.,2006; 19: 97-111
Google Scholar
65. Saniewski M., Ueda J., Miyamoto K., Horbowicz M., PuchalskiJ.: Methyl jasmonate induces gummosis in plants. Human Environm.Sci., 2000; 9: 93-100
Google Scholar
66. Scarmo S., Cartmel B., Lin H., Leffell D.J., Welch E., Bhosale P.,Bernstein P.S., Mayne S.T.: Significant correlations of dermal totalcarotenoids and dermal lycopene with their respective plasmalevels in healthy adults. Arch. Biochem. Biophys., 2010; 504: 34-39
Google Scholar
67. Schopfer P., Plachy C., Frahry G.: Release of reactive oxygenintermediates (superoxide radicals, hydrogen proxide, andhydroxyl radicals) and peroxidase in germinating radish seedscontrolled by light, gibberellin, and abscisic acid. Plant Physiol.,2001; 125: 1591-1602
Google Scholar
68. Sevilla M.D., Becker D., Yan M.: The formation and structureof the sulfoxyl radicals RSO(.), RSOO(.), RSO2(.), and RSO2OO(.)from the reaction of cysteine, glutathione and penicillamine thiylradicals with molecular oxygen. Int. J. Radiat. Biol., 1990; 57: 65-81
Google Scholar
69. Sikora E., Cieślik E., Topolska K.: The sources of natural antioxidants.Acta Sci. Pol. Technol. Aliment., 2008; 7: 5-17
Google Scholar
70. Simkin A.J., Moreau H., Kuntz M., Pagny G., Lin C., TranksleyS., McCarthy J.: An investigation of carotenoid biosynthesis onCoffea canephora and Coffea arabica. J. Plant Physiol., 2008; 165:1087-1106
Google Scholar
71. Simon H.U., Haj-Yehia A., Levi-Schaffer F.: Role of reactiveoxygen species (ROS) in apoptosis induction. Apoptosis, 2000;5: 415-418
Google Scholar
72. Sinha R., Patterson B.H., Mangels A.R., Levander O.A., GibsonT., Taylor P.R., Block G.: Determinants of plasma vitamin E in healthymales. Cancer Epidemiol. Biomarkers Prev., 1993; 2: 473-479
Google Scholar
73. Skibsted L.H.: Carotenoids in antioxidant networks. Colorantsor radical scavengers. J. Agric. Food Chem., 2012; 60: 2409-2417
Google Scholar
74. Surh Y.J.: Molecular mechanisms of chemopreventive effectsof selected dietary and medicinal phenolic substances. Mutat.Res., 1999; 428: 305-327
Google Scholar
75. Umeno D., Tobias A.V., Arnold F.H.: Diversifying carotenoidbiosynthetic pathways by directed evolution. Microbiol. Mol.Biol. Rev., 2005; 69: 51-78
Google Scholar
76. Valko M., Leibfritz D., Moncol J., Cronin M.T., Mazur M., TelserJ.: Free radicals and antioxidants in normal physiological functionsand human disease. Int. J. Biochem. Cell Biol., 2007; 39: 44-84
Google Scholar
77. Widomska J., Kostecka-Gugała A., Latowski D., Gruszecki W.,Strzałka K.: Calorimetric studies of the effect of cis-carotenoidson the thermotropic phase behavior of phosphatidylcholine bilayers.Biophys. Chem., 2009; 140: 108-114
Google Scholar
78. Zhang Y., Kreger, B.E.; Dorgan, J.F., Splansky G.L., Cupples L.A.,Ellison R.C.: Alcohol consumption and risk of breast cancer: TheFramingham Study revisited. Am. J. Epidemiol., 1999; 149: 93-101
Google Scholar
79. Ziemlański Ś., Wartanowicz M.: Rola wolnych rodnikóww procesie starzenia się ustroju. Pol. Tyg. Lek., 1982; 37: 1453-1456
Google Scholar

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