Authors: K. Mahmoud, T. Shalahmetova, B. Umbayev, Sh. Deraz

Abstract:

Biochemical investigations were carried out to assess the effect of different exposure regimes of Kazakhstan crude oil (KCO) on hepatic antioxidant defense system in albino rats. Contaminants were delivered under two different dosing regimes, with all treatments receiving the same total contaminant load by the end of the exposure period. Rats in regime A injected with KCO once at a dose of 6 ml/kg bw while in regime B injected multiply at a dose of 1.5 ml/kg bw on day 1, 3, 5 and 8. Antioxidant biomarkers were measured in hepatic tissue after 1, 3, 5 and 8 days. Significant induction was observed in serum aminotransferases (ALT, AST) (p<0.01) and hepatic Glutathione-S-transferase (GST) (p<0.05) in the two exposure regimes, with the majority of significant induction occurring in regime A. Superoxide dismutase (SOD) increased 1-d after injection (p<0.01) but the increase was reduced time dependently thereafter while after 8-d induced again (p<0.01). Malondialdehyde (MDA) significantly induced after 3 and 5-d (p<0.05) in regime A while in regime B was not changed significantly (p>0.05) at short time after exposure. However, there was significant increase after 8-d (p<0.01). Histological examination indicates that crude oil induced pathologic changes from inflammatory cells infiltration to hemorrhage and necrosis of hepatocytes. Acute exposure to crude oil adversely affect hepatic cell so human must avoid such exposure.

Keywords: Kazakhstan crude oil, Antioxidant biomarkers, Histological examination, Dose regime, Rats

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1058833

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References:

[1] W.C. Edwards, "Toxicology of oil field waste hazards to livestock associated with the petroleum industry" Vet. Clinics of North America, 5(2):363 - 374, 1989.
[2] International Agency for the Research on Cancer (IARC) Occupational exposures in petroleum refining. Crude oil and major petroleum fuels. IARC monographs on the evaluation of carcinogenic risks to humans, 1989, Vol. 45.
[3] H.N. MacFarland, C.E. Holdsworth, J.A. MacGregor, R.W. Call and M.L. Lane, "Applied Toxicology of Petroleum Hydrocarbons. Advances in Modern Environmental Toxicology, Princeton Scientific Publishers Inc, Princeton 6: 287, 1984.
[4] R.W. Coppock, M.S. Mostrom, A.A. Khan and S.S. Semalulu, "Toxicology of oil field pollutants in cattle" a review. Vet. Hum. Toxicol., 37(6): 569-576, 1995.
[5] J.M. Neff, "Composition and fate of petroleum and spill-treating agents in the marine environment. In Sea Mammals and Oil: Confronting Risks. Geraci JR and DJ St. Aubin, (eds.) San Diego: Acad. Press, 1-32, 1990.
[6] S. Khan, M. lrfan and A.D. Rahirntula, "The hepatotoxic potential of a Prudhoe Bay crude oil: effect on rnouse liver weight and cornposition". Toxicology, 46 (1):95-105, 1987.
[7] A.A, Khan and M.M. Schuler, "Biochemical toxicology of oilfield chemicals in cattle. In: Chalmers GE (ed) A literature review and discussion of the toxicological hazards of oilfield pollutants in cattle" Alberta Research Council, Vegreville, AB, pp. 149-161, 1997.
[8] M. Nishikimi, N.A. Rao and K. Yagi, "The occurrence of superoxide anion in the reaction of reduced phenazine methosulfate and molecular oxygen" Biochem. Biophys. Res. Commun., 46(2):849-854, 1972.
[9] E.B. Burlakova, A.V. ðÉlesenko, E.M. Molochkina, N.P. Palmina and N.G. Khrapova, "Bioantioxidants for radiation damage and malignant growth" Nauka, Moscow, 214p, 1975.
[10] W.H. Habig, M.J. Pabst and W.B. Jakoby, "Glutathione S-transferases: the first enzymatic step in mercapturic acid formation" J. Biol.Chem., 249(22):7130-7139, 1974.
[11] A. Songur, N. Akpolat, I. Kus, O.A. Ozen, I. Zararsiz and M. Sarsilmaz, "The effects of the inhaled formaldehyde during the early postnatal period in the hippocampus of rats: A morphological and immunehistochemical study" Neuroscience Research Communications, 33(3):168-178, 2003.
[12] D.S. Young, 1990 "Effect of drugs on clinical laboratory tests" 3 rd. American Association for Clinical Chemistry.
[13] O.E. Ayalogu, N.M. Igboh and E.B. Dede, "Biochemical Changes in the Serum and Liver of albino rats exposed to Petroleum Samples (gasoline, kerosene, and crude Petroleum)" Journal of Applied Sciences & Environmental Management, 5(1)97-100, 2001.
[14] A.G. Krishan and G. Veena "2, 3, 4- Triaminoazo benzene- induced hemato biochemical Anomalies in fish (Channa puntatus)" Bulletin of Environmental Contamination and Toxicology, 25(1):136 - 141, 1980.
[15] J.M. Dheer, T.R. Dheer and C.L. Mahajan, "Haematological and haematopietic response to acid stressin an air breathing fresh water fish channal punctatus" Journal of Fish Biology, 30(5):577-588, 1987.
[16] M. Morowati, "Inhalation toxicity studies of thimet (phorate) in male swiss albino mouse, MUS Musculus" Environment Pollution, 96(3):383- 388, 1997.
[17] D.R. Livingstone, "Contaminant stimulated reactive oxygen species production and oxidative damage in aquatic organisms" Marine Pollution Bulletin, 42(8):656-666, 2001.
[18] W.G. Londis and M.H. Yu, 1995. Introduction to Environmental toxicology: Impacts of chemical upon Ecological system, 328 p. Lewis Publishers, Boca Raton FL.
[19] O.R. Vander, J. Beyer and N.P.E. Vermeulen, "Fish bioaccumulation and biomarkers in Environmental risk assessment" Environ.Toxicol. Pharmacol., 13: 57-149, 2003.
[20] F.H. Sun, Q.X. Zhou, Q.R. Zhang, "Toxic effects of petroleum hydrocarbons and copper on polychaete Nereis diversicolor and on its antioxidant enzyme systems" Environmental Science, 27 (7): 1415- 1419, 2006
[21] I. Fridovich, "Superoxide dismutases" Adv. Enzymol. Relat. Areas Mol. Biol. 41, 35-97, 1974.
[22] N. Trostler, P.S. Brady, D.R. Romsos and G.A. Leveille, "Influence of dietary vitamin E on malondialdehyde levels in liver and adipose tissue and on glutathione peroxidase and reductase activities in liver and erythrocytes of lean and obese mice" J. Nutr., 109(2):345-352, 1979.
[23] J.F. Zhang, X.R. Wang, H.Y. Guo, J.C. Wu and Y.Q. Xue, "Effect of water soluble fraction of diesel oil on the antioxidant defense of the gold fish Carassius auratus" Ecotoxicol. Environ. Saf, 58 (1):110-116, 2004.
[24] J.D. Simonato, C.L. Guedes and C.B. Martinez, "Biochemical, physiological and histological changes in the neotropical fish Prochilodus lineatus exposed to diesel oil" Ecotoxicology Environmental Safety, 69(1):112-120, 2008.
[25] S. Rajendra, K. Parasakthy, P.D. Deepalakshmi and S.N. Devaraji, 1996. Oxidative stress in rat liver and lung induced by Furanoterpenolds Isolated from Fusariumsolan infected sweet potatoes.
[26] G. O. Young, "Synthetic structure of industrial plastics (Book style with paper title and editor)," in Plastics, 2nd ed. vol. 3, J. Peters, Ed. New.