Role of antioxidants in the protection against oxidative stress in cattle - trace elements and enzymatic mechanisms [Part 3]

• Autorzy: Kleczkowski M. , Klucinski W. , Sikora J. , Zdanowicz M.
• Języki publikacji: EN

Abstrakty

EN

The most important enzymatic mechanisms which protect an organism against oxidative stress are superoxide dismutase (SOD), peroxidase (Px), e.g. glutathione peroxidase (GSH-Px) and ascorbate peroxidase, catalase and glutathione reductase. Their activity depends on many trace elements. Enzymatic mechanisms, functioning under physiological conditions, prevent the spread of free radical reactions. New and reoccurring metabolic and infectious diseases of cattle emerge when there is a disproportion in the balance between reactive oxygen species and antioxidative enzymatic barrier.

Słowa kluczowe

EN

trace element; cattle; protection; oxidative stress; free radical; antioxidant; enzymatic mechanism

• Wydawca: -
• Czasopismo: Polish Journal of Veterinary Sciences
• Rocznik: 2004
• Tom: 07
• Numer: 3
• Opis fizyczny: p.233-240,fig.,ref.

Twórcy

autor

Kleczkowski M.

• Warsaw Agricultural University, Nowoursynowska 159C, 02-787 Warsaw, Poland

autor

Klucinski W.

autor

Sikora J.

autor

Zdanowicz M.

Bibliografia

• Albers S D, Augood S J, Park L C H, Browne S E, Martin D M, Adamson J, Hutton M, Standaert D G, Vonsattel JPG, Gibson G E, Beal M F ( 2000) Frontal lobe dys­function in progressive supranuclear palsy. Evidence for oxidative stress and mitochondrial impairment. J Neur- ochem 74: 878-881.
• Bartosz G (1995) The other face of oxygen, 1st ed., Wydaw- nictwo Naukowe PWN, Warszawa.
• Bondy S C (1992) Reactive oxygen species: relation to aging and neurotoxic damage. Neuro Toxicol 13: 87-100.
• Bratton SB, Lewis J, Butterworth M, Duckett CS, Cohen GM (2002) XIAP inhibition of caspase-3 preserves its association with the Apaf-1 apoptosome and prevents CD95- and Bax-induced apoptosis. Cell Death Differ 9: 881-892.
• Bray T M, Bettger W J (1990) The physiological role of zinc as an antioxidant. Free Radic Biol Med 8: 281-291.
• Brown D R (2001) Copper and prion disease. Brain Res Bull 55: 165-167.
• Brown D R, Clive Ch, Haswell S J (2001) Antioxidant activ­ity related to copper binding of native prion protein. J Neurochem 76: 69-76.
• Bunk M J, Dnistrian AM, Schwartz MK, Rivlin RS (1989) Dietary zinc deficiency decrease plasma concentration of vitamin E. Proc Soc Exp Biol Med 19: 379-384.
• Burk R F, Hill KE (1992) Some properties of selenoprotein P. Biol Trace Elem Res 33: 151-153.
• Burk R F (1990) Protection against free radical injury by selenoenzymes. Pharmacol Ther 45: 383-385.
• Burtstein E, Ganesh L, Dick R D, De Sluis B, Wilkinson I C, Klomp L W J, Wijmenga C, Grewer G j, Nabel G J, Duckett C S (2004) A novel role for XIAP in copper homeostasis through regulation of MURR1. EMBO J 23: 244-254.
• Cao G, Shukitt - Hale B, Bickford P C, Joseph J A, McEven J, Prior RL (1999) Hyperoxia - induced changes in anti­oxidant capacity and the effect of dietary antioxidants. J Appl Physiol 86: 1817-1822.
• Chai J, Shiozaki E, Srinivasula SM, Wu Q, Dataa P, Alnemri ES, Shi Y (2001) Structural basis of caspase-7 inhibition by XIAP. Cell 104: 69-780.
• Chhabra A, Arora S P (1993) Effect of vitamin A and zinc supplement on alcohol dehydrogenase and superoxide dismutase activities of goat tissues. Indian J Anim Sci 63: 334-338.
• Coudray C, Rachidi S, Fauvier A (1993) Effect of zinc on superoxide dependent hydroxyl radical production in vitro. Trace Elem Res 38: 273-287.
• Dziekan P (2001) The influence of zinc, copper, and molyb­denum on prooxidant-antioxidant status of blood cows in different environmental conditions. Doctoral thesis. SGGW, Warsaw, pp 12-82.
• Droge W (2002) Free radicals in the physiological control of cell function. Physiol Rev 82: 47-51.
• Fainaru O, Lichtenberg D, Pinchuk I, Almog B, Gamzu R, Kupferminc M (2003) Pre-eclampsia is associated with increased susceptibility of serum lipids to copper-induced peroxidation in vitro. Acta Ob Gyn 82: 711-715.
• Fujii J, Juchi Y, Matsuki S, Ishi T (2003) Cooperative func­tion of antioxidant and redox systems against oxidative stress in male reproductive tissues. Asian J Androl 5: 231-242.
• Fuki T, Siegfried M R, Ushio-Fukai M, Cheng Y, Kojda G., Flarrison D G (2000) Regulation of the vascular extracel­lular superoxide dismutase by nitric oxide and exercise training. J Clin Invest 105:1631-1639.
• Godin D V, Wohaieb S A (1988) Nutritional deficiency, starvation and tissue antioxidant status. Free Radical Biol Med 5: 165-176.
• Goff J P, Stabel J R (1990) Decreased plasma retinol, al- pha-tokoferol, and zinc concentration during the peripa- rturient period: effect of milk fever. J Dairy Science 73: 3195-3199.
• Hennig B, Diana J N, Toborek M, McClain CJ (1994) Influ­ence of nutriens and cytokines an endothelial cell metab­olism. J Am Col Nutr 30: 224-231.
• Hubei C A (1999) Oxidative stress in the pathogenesis of pre-eclampsia. Exp Biol Med 30: 222-235.
• Ivancich A, Mazza G, Desbois A (2001) Comparative EPR study of radical intermediates in turnip peroxidase isozymes. Biochemistry 40: 6860-6866.
• Ivancich A, Dorlet P, Goodin D, Un S (2001) Multi­frequency high-field EPR study of the tryptophanyl and tyrosyl radical intermediates of wild type and the W191G mutant of cytochrome c peroxidase. J Am Chem Soc 123: 5050-5058.
• Johnson J L (1997) Molybdenum. In: O’Dell B L, Sunde R A (ed) Handbook of nutritionally essential mineral el­ements. Marcel Dekker, New York, pp 413-438.
• Jung O, Marklund S L, Geiger H, Pedrazzani T, Busse R, Brandes R P (2003) Extracellular superoxide dismutase is a major determinant of nitric oxide bioavailability: in vivo and ex vivo evidence from ecSOD-deficient mice. Circ Res 93: 622-629.
• Kapahi P, Boulton M E, Kirkwood T B L (1999) Positive correlation between mammalian life span and cellular re­sistance to stress. Free Radical Bio Med 26: 495-500.
• Kleczkowski M (1987) Evaluation of selected metabolic in­dices for cattle in copper deficient regions. Pol Arch Wet 27: 35-47.
• Kleczkowski M (1988) Deficiency of copper and zinc in cattle. Materials of XVth Biochemical Conference of ZHW: Metabolism of copper and zinc in livestock, Wet. I. in Puławy, Łomża, pp 28-82.
• Kleczkowski M (1990) Copper content and superoxide dis­mutase and ceruloplasmin activities in selected organs and constitutional fluids of cows from the Biebrza river valley. Roczn Nauk Roln Seria B 106: 7-19.
• Kleczkowski M (1991) Evaluation of peroxidation processes in tissues of bulls additionally fed with copper, zinc, mo­lybdenum and sulphur (Part II). Habilitation thesis. PlWet, Puławy, pp 41-74.
• Kleczkowski M (2004) Role of selected minerals in the oxidative processes of organisms. Medycyna Wet 60: 242-245.
• Klein J A, Ackerman S L (2003) Oxidative stress, cell cycle, and neurodegeneration. J Clin Invest 111: 785-793.
• Knight J A (1997 ) Reactive oxygen species and the neur- odegenerative Disorders. Ann Clin Lab Sci 27: 11-25.
• Kulich S M, Chu C T (2003) Role of reactive oxygen species in extracellular signal-regulated protein kinase phos­phorylation and 6-hydroxydopamine cytotoxicity. J Biosci 28: 83-89.
• Landmesser U, Merten R, Spiekerman S, Buttner K, Drexler H, Horning B (2000) Vascular extracellular superoxide dismutase activity in patients with coronary artery dis­ease. Circulation 101: 2264-2271.
• Leclercq I A, Farell G C, Field J, Bell D R, Gonzales F J, Robertson G R (2000) CYP2E1 and CYP4A as micro­somal catalyst of lipid peroxides in murine nonalcoholic steatohepatitis. J Clin Invest 105: 1067-10-75.
• Martindale J L, Holbrook N J (2002) Cellular response to oxidative stress: signaling for suicide and survival. J Cell Physiol 192:1-15.
• Maulik N, Das DK (2002) Redox signaling in vascular an­giogenesis. Free Radie Biol Med 33: 1047-1051.
• McDowell L R (2002) Recent advances in minerals and vit­amins on nutrition of lactating cows. Pakistan J Nutr 48: 8-19.
• Mercer JF (2001) The molecular basis of copper-transport diseases. Trends Mol Med 7: 64-69.
• Milanino R, Rainsford K D, Velo G P (1989) Copper and zinc in inflammation, 1st ed., Kluwer Academic Publisher, Dordrecht / Boston / London.
• Minson DJ (1990) Forages in ruminant nutrition, 1!I ed., Academic Press, New York.
• Morse D, Choi A M K (2002) Heme oxygenase-1. The “Emerging Molecule” has arrived. Am J Respir Cell Mo Biol 27: 8-16.
• Multhaup G, Dieter H H (2000) Copper in the pathogenesis of neurodegenerative disorders. A literature summary, lsl ed., International Copper Association Ltd, New York.
• National Research Council (1978) Nutrient requirements of domestic animals, 5th ed., National Academy of Science, Washington DC, no 4.
• Puig S, Thiele DJ (2002) Molecular mechanisms of copper uptake and distribution. Curr Opin Chem Biol 56: 171-180.
• Purdey M (2000) Ecosystems supporting cluster of sporadic TSEs demonstrate excesses of the radical-generation divalent cation manganese and deficiencies of antioxidant co-factors Cu, Se, Fe, Zn. Does a foreign cation substitu­tion at prion proteins Cu domain initiate TSE? Med Hy­potheses 54: 278-306.
• Rangathan S, Bowser R (2003) Alterations in G(l) to S phase cell-cycle regulators during amyotrophic lateral sclerosis. Am. J. Pathol. 162: 823-827.
• Saenko E L, Harris E D (1994) Biological functions of caeruloplasmin expressed trough copper - binding sites. J Trace El Exp Med 7: 69-88.
• Semman S (1993) Dietary versus cellular zinc. The anti­oxidant paradox. Free Radic Biol Med 14: 95-97.
• Smith K L, Weiss W P, Hogan J S (1998) Influence of vit­amin E and selenium on mastitis and milk quality in dairy cows, 1st ed., Ohio Agricultural Research and Develop­ment Center. The Ohio State University, Wooster.
• Strausak D J, Mercer F B, Dieter H H, Stremmel W., Mul- thaup G (2001) Copper in disorders with neurologicalsymptoms: Alzheimer’s, Menkes, and Wilson diseases. Brain Res Bui 55: 175-185.
• Tao T Y, Liu F, Klomp L, Wijmenga C, Gitlin J D (2003) The copper toxicosis gene product murr 1 directly inter­acts with the Wilson disease protein. J Biol Chem 43: 41593-41596.
• Underwood E J, Suttle N F (1999) Mineral nutrition of livestock, 2nd ed., CABI Publishing, Wallingford.
• Winkler R, Griebenow S, Scheidleder B, Bailer H (2002) Ein- flus hoher Joddosen in Form eines parenteral verabreich­ten Röntgenkontrastmittels auf Parameter des pro/anti- oxidativen Gleich-gewichts. Wiener Med Woch 9: 226-229.
• Zglinicki T (2000) Role of oxidative stress in telomere length regulation and senescence. Ann NY Acad Sei 98: 99-110.