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Effect of dietary selenium nanoparticles and chitosan oligosaccharide on biochemical parameters of Caspian roach (Rutilus caspicus) under malathion stress | ||
| Caspian Journal of Environmental Sciences | ||
| مقاله 6، دوره 18، شماره 1، فروردین 2020، صفحه 59-71 اصل مقاله (835.14 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22124/cjes.2020.3979 | ||
| نویسندگان | ||
| A. Zahmatkesh1؛ K. Karimzadeh2؛ M. Faridnia2 | ||
| 1Aquaculture Department, Gilan Agricultural and Natural Resources Research and Education Center, AREEO, Rasht, Iran | ||
| 2Department of Marine Biology, Lahijan Branch, Islamic Azad University, Lahijan, Iran | ||
| چکیده | ||
| The present study was conducted to investigate the protective effects of selenium nanoparticles (nano-Se) and chitosan oligosaccharide (COS) against the malathion-induced blood hematological and biochemical alterations in Caspian roach (Rutilus caspicus). The fish treated with 0.5 mg L-1 malathion in water and supplemented with selenium nanoparticles (1 mg kg-1) and /or COS (600 mg kg-1) in their diet for 28 days. At the end of the experiment, the blood samples were collected and hematological indices were assayed including serum total protein, albumin, globulin, glucose, cholesterol and triglyceride as well as enzymes such as aspartate aminotransferase (AST), alanine aminotransferase (ALT), lactate dehydrogenase (LDH), alkaline phosphatase (ALP) and acetyl cholinesterase (AChE). Significant decreases were observed in LDH level, AChE activities and hematological indices such as the white and red blood cell count, hemoglobin and hematocrit levels of the fish exposed to malathion (p < 0.05). Dietary selenium nanoparticles and COS could significantly (P < 0.05) reduce hematological indices, lysozyme value and the blood antioxidant enzyme activities in malathion-exposed Caspian roach. Briefly, this suggests that supplementation of dietary Caspian roach with nano-selenium (1mg kg-1) and /or COS (600 mg kg-1) may have positive effects on hematological and biochemical indices in fish exposed to malathion stress. | ||
| کلیدواژهها | ||
| Biochemical markers؛ Nano selenium؛ Pesticides؛ Caspian roach؛ Stress enzymes | ||
| مراجع | ||
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Aathi, K, Ramasubramanian, V, Uthayakumar, V & Munirasu, S 2013, Effect of supplemented diet on survival, growth, hematological, biochemical and immunological responses of Indian major carp Labeo rohita. International Research Journal of Pharmacy, 4: 141-147.
Abalaka, SE, Esievo, KAN & Shoyinka, SVO 2011, Evaluation of biochemical changes in Clarias gariepinus adults exposed to aqueous and ethanolic extracts of Parkia biglobosa pods. African Journal of Biotechnology, 10: 234-240.
Ahmad, Z 2012, Toxicity bioassay and effects of sub-lethal exposure of malathion on biochemical composition and haematological parameters of Clarias gariepinus. African Journal of Biotechnology, 11: 8578–8585.
Aker, WG, Hu, X, Wang, P & Hwang, HM 2008, Comparing the relative toxicity of malathion and malaoxon in blue catfish Ictalurus furcatus. Environmental Toxicology, 23: 548-554.
Al-Ghanim, KA, 2012, Acute toxicity and effects of sub-lethal malathion exposure on biochemical and haematological parameters of Oreochromis niloticus. Scientific Research and Essays, 7:1674–1680.
Amin, KA & Hashem, KS, 2012, Deltamethrin-induced oxidative stress and biochemical changes in tissues and blood of catfish (Clarias gariepinus): antioxidant defence and role of alpha-tocopherol. BMC Veterinary Research, 8: 45.
Ashouri, S, Keyvanshokooh, S, Salati, AP, Johari, SA & Pasha Zanoosi H 2015, Effects of different levels of dietary selenium nanoparticles on growth performance, muscle composition, blood biochemical profiles and antioxidant status of common carp (Cyprinus carpio). Aquaculture, 446: 25–29.
Ashwell, G 1957, Colorimetric analysis of sugars. Methods in Enzymology, 3: 378–386.
Bakhshwan, SA, Marzouk, MS, Hanna, MI & Hamed, HS 2009, Some investigation on the clinical and biochemical alterations associated with diazinon toxicity in Clarias gariepinus. Egyptian Journal of Aquatic Biology and Fisheries, 13: 173 -197.
Banaee, M, Sureda, A, Mirvaghefi, AR & Ahmadi, K 2013, Biochemical and histological changes in the liver tissue of Rainbow trout (Oncorhynchus mykiss) exposed to sub-lethal concentrations of diazinon. Fish Physiology and Biochemistry, 39: 489-501.
Chakraborty, P, Hossain, U, Murmu, N, Das, JK, Pal, S & Bhattacharya, S 2009, Modulation of cyclophosphamide-induced cellular toxicity by diphenylmethyl selenocyanate in vivo, an enzymatic study. Journal of Cancer Molecules, 4: 183-189.
Cui, LQ, Xu, W, Ai, QH, Wang, DF & Mai, KS 2012, Effects of dietary chitosan oligosaccharide complex with rare earth on growth performance and innate immune response of turbot, Scophthalmus maximus L. Aquaculture Research, 44: 683–690.
Doumas, BT, Watson, W & Biggs, HG 1971, Albumin standards and measurement of serum albumin with bromocresol green. Clinica Chimica Acta, 31: 87–96.
Ellis, AE 1990, Immunity to bacteria in fish. Fish & Shellfish Immunology, 9: 291-308.
Garen, A & Levinthal, C 1960, A fine-structure genetic and chemical study of the enzyme alkalinephosphatase of E. coli I. Purification and characterization of alkaline phosphatase. Biochimica et Biophysica Acta, 38: 470–483.
Hamed, HS 2015, Impact of a Short – Term Malathion Exposure of Nile Tilapia, (Oreochromis niloticus): The Protective Role of Selenium. International Journal of Environmental Monitoring and Analysis, 3: 30-37.
Harikrishnan, R, Kim, J, Balasundaram, C & Heo, M 2012, Immunomodulatory effects of chitin and chitosan enriched diets in Epinephelus bruneus against Vibrio alginolyticus infection. Aquaculture, 326: 46-52.
Harabawy, SA & Ibrahim, THA 2014, Sublethal toxicity of carbofuran pesticide on the African catfish Clarias gariepinus (Burchell 1822): Haematological, biochemical and cytogenetic response. Ecotoxicology and Environment Safety, 103: 61-67.
Jordan, M S, Reinecke, SA & Reinecke, AJ 2013, Biomarker responses and morphological effects in juvenile tilapia Oreochromis mossambicus following sequential exposure to the organophosphate azinphos-methyl. Aquatic Toxicology, 144-145: 133-140.
Karimzadeh, K & Pormehr, M 2017, Antibacterial activity of different extracts of prawn shell (Macrobrachium nipponense) against human bacterial pathogens. International Archives of Health Sciences. 4: 13-6.
Kaur, G, Alam, MS, Jabbar, Z, Javed, K & Athar, M 2006, Evaluation of antioxidant activity of Cassia siamea flowers. Journal of Ethnopharmacology, 108: 340-348.
Keyvanshokooh, S & Kalbassi, MR 2006, Genetic variation of Rutilus rutilus caspicus (Jakowlew 1870) populations in Iran based on random amplified polymorphic DNA markers: a preliminary study. Aquaculture Research, 37: 1437-1440.
Khana, KU, Zuberia, A, Nazirb, S, Ullaha, I, Jamila, Z & Sarwara, H 2017, Synergistic effects of dietary nano selenium and vitamin C on growth, feeding, and physiological parameters of mahseer fish (Tor putitora). Aquaculture Reports, 5: 70–75.
Knedel, M & Boetteger, R 1967, Kinetic method for determination of pseudocholinesterase (acylcholine acylhydrolase) activity. Wiener klinische Wochenschrift, 45: 325-327.
Kucukbay, FZ, Yazlak, H, Karaca, I, Sahin, N, Tuzcu, M, Cakmak, MN & Sahin, K 2009, The effects of dietary organic or inorganic selenium in rainbow trout (Oncorhynchus mykiss) under crowding conditions. Aquaculture Nutrition, 15:569–576.
Majumder, R & Kaviraj, A 2018, Acute and sublethal effects of organophosphate insecticide chlorpyrifos on freshwater fish Oreochromis niloticus. Drug and Chemical Toxicology, 26: 1-9.
Modesto, K A and Martinez, C B R 2010, Effects of roundup transorb on fish: hematology, antioxidant defenses and acetylcholine esterase activity. Chemosphere, 81: 781–787.
Moore, PD, Patlolla, AK & Tchounwou, PB 2011, Cytogenetic evaluation of malathion-induced toxicity in Sprague–Dawley rats. Mutation Research, 725: 78–82.
Muzzarelli, RAA 2010, Chitins and chitosan as immunoadjuvants and non-allergic drug carriers. Marine Drugs, 8: 292–312.
Naito, HK 1985, Cholesterol: review of methods, check sample PTS 85-1, Pp 1-17, Chicago: American Society of Clinical Pathology, USA.
Nazıroglu, M, Karaoglu, A & Aksoy, A 2004, Selenium and high dose vitamin E administration protects cisplatin-induced oxidative damage to renal, liver and lens tissues in rats. Toxicology, 195: 221-230.
Prusty, AK, Kohli, MPS, Sahu, NP, Pal, AK, Saharan, N, Mohapatra, S & Gupta, SK 2011, Effect of short term exposure of fenvalerate on biochemical and hematological responses in Labeo rohita (Hamilton) fingerlings. Pesticide Biochemistry and Physiology, 100:124–129.
Qadir, S, Latif, A, Ali, M & Iqbal, F 2014, Effects of Imidacloprid on the Hematological and Serum Biochemical Profile of Labeo rohita. Pakistan Journal of Zoology, 46: 1085-1090.
Reinhold, JG 1953, Manual determination of serum total protein, albumin and globulin fractions by biuret method. Standard Methods of Clinical Chemistry, 1: 88.
Rifai, N, Bachorik, PS & Albers, JJ 1991, Lipids, lipoproteins and apolipoproteins, In: Burtis CA, Ashwood ER, editors, Tietz Textbook of Clinical Chemistry. 3rd ed., WB Saunders Company, Philadelphia, Pennsylvania, pp. 809-861.
Saffari, S, Keyvanshokooh, S, Zakeri, M, Johari, S & Pasha Zanoosi, H 2017, Effects of different dietary selenium sources (sodium selenite, selenomethionine and nanoselenium) on growth performance, muscle composition, blood enzymes and antioxidant status of common carp (Cyprinus carpio). Aquaculture Nutrition, 23: 611-617.
Santhosh, S, Sini, T, Anandan, R & Mathew, P, 2006, Effect of chitosan supplementation on ant tubercular drugs-induced hepatotoxicity in rats. Toxicology, 219: 53-59.
Saurabh, S & Sahoo, PK 2008, Lysozyme: an important defence molecule of fish innate immune system. Aquaculture Research, 39: 223-239.
Sharifinasab, Z, Banaee, M, Mohiseni, M & Noori, A 2016, Vitamin C and chitosan alleviate toxicity effects of paraquat on some biochemical parameters in hepatocytes of common carp. Iranian journal of toxicology, 10: 31-40.
Shi, LG, Yang, RJ, Yue, WB, Xun, WJ, Zhang, CX, Ren, YS, Shi, L & Lei, FL 2010, Effect of elemental nano-selenium on semen quality, glutathione peroxidase activity, and testis ultrastructure in male Boer goats. Animal Reproduction Science, 118: 248–254.
Svobodova, Z, Pravda, D & Palackova, J 1991, Unified methods of haematological examination of fish. Research Institute of Fish Culture and Hydrobiology, Vodnany Methods, 20: 31.
Vani, T, Saharan, N, Mukherjee, SC, Ranjan, R, Kumar, R & Brahmchari, RK 2011, Deltamethrin induced alterations of hematological and biochemical parameters in fingerlings of Catla catla (Ham.) and their amelioration by dietary supplement of vitamin C. Pesticide Biochemistry and Physiology, 101: 16–20.
Venkataramana, GV, Rani, PN & Murthy, P S, 2006, Impact of malathion on the biochemical parameters of gobiid fish, Glossogobius giuris (Ham). Journal of Environmental Biology, 27: 119–122.
Wang, Y, Yan, X & Fu, L 2013, Effect of selenium nanoparticles with different sizes in primary cultured intestinal epithelial cells of crucian carp, Carassius auratus gibelio. International Journal of Nanomedicine. 8: 4007-4013.
Wang, Y, Xu, W, Zuo, R, Zhou, H, Bai, Y, Mai, K, Wang, D & Ai, Q 2016, Effect of dietary chitosan oligosaccharide complex with Ce (IV) on growth, immunity and disease resistance against Vibrio splendidus of sea cucumber, Apostichopus japonicas, Aquaculture Research, 48: 1158-1167.
Wootton, IDP 1964, Enzymes in blood, In: Churchill J, Churchill A, editors, Microanalysis in medical biochemistry. 4th ed., London (UK) Churchill, pp. 101-107.
Wroblewski, L & Ladue, JS 1955, Lactic dehydrogenase activity in blood. Proceedings of the Society for Experimental Biology and Medecine. 90: 210–213.
Yonar, ME, Yonar, SM & Silici, S 2011, Protective effect of propolis against oxidative stress and immunosuppression induced by oxytetracycline in rain bow trout (Oncorhynchus mykiss, W). Fish & Shellfish Immunology, 31: 318–325.
Yonar, ME & Sakin, F 2011, Ameliorative effect of lycopene on antioxidant status in Cyprinus carpio during pyrethroid deltamethrin exposure. Pesticide Biochemistry and Physiology, 99: 226–231.
Yonar, ME, Yonar, SM, Ural, MS, Silici, S & Düşükcan, M 2012, Protective role of propolis in chlorpyrifos-induced changes in the haematological parameters and the oxidative/ antioxidative status of Cyprinus carpio. Food and Chemical Toxicology, 50: 2703–2708.
Yonar, SM, Ural, MS, Silici, S & Yonar, ME, 2014, Malathion-induced changes in the haematological profile, the immune response, and the oxidative/antioxidant status of Cyprinus carpio: Protective role of propolis. Ecotoxicology and Environmental Safety, 102: 202–209.
Yonar, SM, Yonar, ME & Ural, M 2017, Antioxidant effect of curcumin against exposure to malathion in Cyprinus carpio. Cellular and Molecular Biology, 63: 68-72.
Yousef, MI, El-Demerdash, FM, Kamel, KI & Al-Salhin, KS 2003, Changes in some haematological and biochemical indices of rabbit induced by isoflavenes and cypermethrin. Toxicology, 189: 223–234. | ||
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