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Sains Malaysiana 43(7)(2014): 1053–1059
Genotoxic Effect of Zinc and Cadmium Following Single and Binary Mixture Exposures in Tilapia (Oreochromis niloticus) Using Micronucleus Test (Kesan Genotoksik Zink dan Cadmium Secara Tunggal dan Campuran Binari dalam Ikan Tilapia
(Oreochromis niloticus) dengan Menggunakan Ujian Mikronukleus)
S.N.N. ABU BAKAR*, A. ASHRIYA, A.S. SHUIB
& S.A. RAZAK
Institute of Biological
Sciences, Faculty of Science, University of Malaya
50603 Kuala Lumpur, Malaysia
Diserahkan: 17 Mei 2013/Diterima: 7 Oktober 2013
ABSTRACT
The aim of this study was to
investigate the genotoxicity effect of Cd and Zn and
their binary mixtures in tilapia fish Oreochromis niloticus using the micronucleus test. Two cytogenetic
end points were considered; the frequencies of micronucleated cells and nuclear abnormalities. Fishes were exposed to 4.63 mg/L Cd, 7.50 mg/L
Zn and 4.63 mg/L Cd + 7.50 mg/L Zn mixture for the period of 24, 48, 72 and 96
h. The results showed that the frequencies of micronuclei and nuclear
abnormalities in the erythrocyte were significantly increased in all groups of
treatments when compared with the control group (0 exposures). In addition, the
highest frequencies of micronucleated and nuclear
abnormalities were obtained after 48 h exposure in almost all cases (except in
the mixture of Cd+Zn) and decreased after 72 and 96 h
exposure. Frequencies of micronuclei and erythrocytes with nuclear
abnormalities exposed to a mixture of Cd+Zn in O. niloticus were always lower at all-time points
(after 24, 48, 72 and 96 h) than that of a single Cd and Zn exposure.
Therefore, the study demonstrated that the genotoxic potential of these metal compounds and the simultaneous treatment of Cd and Zn
suggest the presence of antagonistic interactions.
Keywords: Binary
mixtures; genotoxicity; heavy metals; micronucleus
test; Oreochromis niloticus
ABSTRAK
Kajian ini dilakukan untuk menilai kesan genotoksid Cd dan Zn serta campuran binari dua logam berat tersebut ke atas ikan tilapia, Oreochromis niloticus. Dengan menggunakan ujian mikronukleus, dua jenis kesan sitogenetik ke atas sel darah merah atau eritrosit seperti sel yang mempunyai mikronuklei dan sel yang mempunyai abnormal nuclear telah direkodkan. Ikan telah didedahkan kepada 4.63 mg/L Cd, 7.50 mg/L Zn dan 4.63 mg/L Cd + 7.50 mg/L Zn campuran bagi tempoh 24, 48, 72 dan 96 jam. Keputusan menunjukkan kekerapan mikronuklei dan sel eritrosit yang mempunyai abnormal nuklear telah meningkat dengan ketara dalam kesemua kumpulan rawatan dengan logam berat berbanding kumpulan ikan kawalan. Tambahan lagi, didapati kekerapan sel yang mempunyai mikronuklei yang mempunyai abnormal nuklear menunjukkan jumlah tertinggi selepas 48 jam pendedahan kepada semua kumpulan logam berat (kecuali di dalam kumpulan ikan yang didedahkan kepada campuran Cd+Zn) dan semakin berkurang selepas 72 dan 96 jam. Kehadiran mikronuklei dan sel yang mempunyai abnormal nuklear di dalam kumpulan ikan yang didedahkan kepada campuran Cd+Zn pada setiap masa ujian dilakukan (selepas 24, 48, 72 dan 96 jam) menunjukkan kekerapan yang lebih rendah berbanding dengan kumpulan yang didedahkan kepada Cd atau Zn sahaja. Oleh itu, penemuan ini menunjukkan bahawa logam berat seperti Cd dan Zn berpotensi untuk menghasilkan kesan genotoksid serta pendedahan secara serentak Cd+Zn mencadangkan berlakunya interaksi antagonistik.
Kata kunci: Campuran binari; genotoksid; logam berat; Oreochromis niloticus; ujian mikronukleus
RUJUKAN
Abbas, H.H., Authman, M.M., Abumourad, I.
& El-badawy, A. 2007. Studies on the effect of thiobencarb herbicide on some biological, physiological,
biochemical, histological and genetic aspects of Nile tilapia, Oreochromis niloticus. Egyptian
Journal of Aquatic Biolology and Fisheries 11(1):
123-150.
Aitio, A., Alessio, L., Axelson, O., Coenen, J., De Flora, S., Grandjean,
P., Heinrich, U., Huff, J.E., Ikeda, M., Kavlock, R., Kazantzis, G., Langard, S.,
Levy, L.S., Oberdorster, G., Olin, S., Pearce, N.E., Rossman, T.G., Schaller, K.H. & Shy, C. 1993. IARC
monographs on the evaluation of carcinogenic risks to humans: beryllium,
cadmium, mercury, and exposures in the glass manufacturing industry. IARC
Monographs on the Evaluation of Carcinogenic Risks to Human 58: 1-415.
Almeida,
J.A., Diniz, Y.S., Marques, S.F., Faine,
L.A., Ribas, B.O., Burneiko,
R.C. & Novelli, E.L. 2002. The use of the
oxidative stress responses as biomarkers in Nile tilapia (Oreochromis niloticus) exposed to in vivo cadmium
contamination. Environmental International 27: 673- 679.
Ayllon, F.
& Gracia-Vazquez, E. 2000. Induction of
micronuclei and other nuclear abnormalities in European minnow Phoxinus phoxinusand mollie Poecilia latipina: An assessment of the fish micronucleus test. Mutation
Research 467: 177-186.
Boiler,
K. & Schmid, W. 1970. Chemische Mutagenese beim Saiuger, das Knochenmark des Chinesischen Hamsters als in vivo-Testsystem, H~imatologische Befunde nach Behandlung mit Trenimon. Humangenetik 11:
34-54.
Cavas, T., Garanko, N.N. & Arkhipchuk,
V.V. 2005. Induction of micronuclei and binuclei in blood, gill
and liver cells of fishes subchronically exposed to
cadmium chloride and copper sulphate. Food and
Chemical Toxicology 43: 569-574.
Cooper,
L.N., Bidwell, R.J. & Kumar, A. 2009. Toxicity of copper, lead,
and zinc mixtures to Ceriodaphnia dubiaand Daphnia carinata. Ecotoxicology and Environmental Safety 72: 1523-1528.
Daka, E.R., Ifidi, I. & Braide, S.A.
2006. Accumulation of heavy metals from single and mixed metal solutions by the
gastropod mollusc Tympanotonus fuscatus linnaeusfrom a Niger Delta estuary: Implications for biomonitoring. African Journal of Biotechnology 5(20): 1954-1962.
Fernandes, T.C.C., Mazzeo, D.E.Z. & Marin-Morales, M.A. 2007. Mechanism of
micronuclei formation in polyploidizated cells of Allium cepaexposed to trifluralin herbicide. Pesticide Biochemistry and Physiology 88: 252-259.
Francoise,
V.H., Arini, A. & Catherine, G.F. 2011. Early genotoxic effects in gill cells and haemocytes of Dreissena polymorphaexposed to cadmium, B[a]P and a combination of
B[a]P and Cd. Mutation Research 723: 26-35.
Hooftman, R.N. & de Raat, W.K. 1982. Induction of nuclear abnomalies (micronuclei) in the peripheral blood
erythrocytes of the eastern mudminnow Umbra pygmeaby ethyl methane-sulphonate. Mutation Research 104: 147-152.
Isani, G., Andreani, G., Cocchioni, F., Fedeli, D., Carpene´, E. & Falcioni, G. 2009. Cadmium accumulation
and biochemical responses in Sparus auratafollowing sub-lethal Cd exposure. Ecotoxicology
and Environmental Safety 72: 224-230.
Jacobson, K.B. &
Turner, J.E. 1980. The interaction of cadmium and certain
other metal ions with proteins and nucleic acids. Toxicology 16:
1-37.
Jiraungkoorskul, W., Kosai, P., Sahaphong, S. & Kirtputra, P. 2007. Evaluation of
micronucleus test’s sensitivity in freshwater fish species. Research
Journal of Environmental Sciences 1(2): 56-63.
Lange,
A., Ausseil, O. & Segent,
H. 2002. Alterations of tissue glutathione levels and metallothionein mRNA in rainbow trout during single and
combined exposure to cadmium and zinc. Comparative Biochemistry and
Physiology - Part C 131: 231-243.
Leber, A.P. & Miya, T.S.
1976. A mechanism for cadmium- and zinc induced tolerance to cadmium toxicity:
Involvement of metallothionein. Toxicology and
Applied Pharmacology 37: 403-414.
Lutzen, A., Liberti, S.E. & Rasmussen, L.J. 2004. Cadmium inhibits human
DNA mismatch repair in vivo. Biochemical and Biophysical Reseach Communications 321: 21-25.
Morley, N.J., Crane, M.
& Lewis, J.W. 2001. Toxicity of cadmium and zinc to encystment and in vitro excystment of Parorchis acanthus (Digenea: Philophthalmidae). Parasitology 1: 75-79.
Muranli, F.D.G. & Guner, U. 2011. Induction of micronuclei
and nuclear abnormalities in erythrocytes of mosquito fish (Gambusia affinis) following exposure to the pyrethroid insecticide lambda-cyhalothrin. Mutation Research 726: 104-108.
Nehls, S. & Segner, H. 2004. Detection of DNA damage in two cell lines
from rainbow trout, RTG-WI, using the comet assay. Environmental
Toxicology 16: 321-329.
Nzenguea, Y., Candeiasa, S.M., Sauvaigoa, S., Doukia, T., Faviera, A., Rachidi, W. & Guiraud, P.
2011. The toxicity redox mechanisms of cadmium alone or together with copper
and zinc homeostasis alteration: Its redox biomarkers. Journal of Trace Elements
in Medicine and Biology 25(3): 171-180.
Obiakor, M.O., Okonkwo, J.C., Ezeonyejiaku, C.D. & Ezenwelu,
C.O. 2010. Genotoxicology: Single and joint action of
copper and zinc to Synodontis clariasand Tilapia nilotica. Journal of Applied Sciences and Environmental Management 14(3): 59-64.
Otitoloju, A.A. 2002. Evaluation of the joint-action toxicity of binary mixtures of heavy
metals against the mangrove periwinkle Tympanotonus fuscatus var radula (L.). Ecotoxicology and Environmental Safety 53: 404-415.
Özkan, F., Gül Gunduz, S., Berkoz, M. & Özluer, A.H.
2011. Induction of micronuclei and other nuclear abnormalities in peripheral
erythrocytes of Nile tilapia, Oreochromis niloticus, following exposure to sublethal cadmium doses. Turkish Journal of Zoology 35(4): 585-592.
Parizek, J. 1957. The destructive effect of cadmium ion on testicular tissue and its
prevention by zinc. Journal of Endocrinology 15: 56-63.
Rainbow,
P.S. 1997. Trace metal accumulation in marine invertebrates: Marine biology or marine
chemistry. Journal of Marine Biological Association of United Kingdom 77: 195-210.
Sanchez-Galan,
S., Linde, A.R., Ayllon, F.
& Garcia-Vazquez, E. 2001. Induction of micronuclei in
eel (Anguilla anguillaL.) by heavy metals. Ecotoxicology and Environmental Safety 49: 139-143.
Shimizu,
N., Itoh, N., Utiyama, H.
& Vahl, G.M. 1998. Selective entrapment
of extrachromosomally DNA by nuclear budding and micronucleation during the S-phase. The Journal
of Cell Biology 140: 1307-1320.
Stohs, S.J.
& Bagchi, D. 1995. Oxidative
mechanisms in the toxicity of metal ions. Free Radical Biology and
Medicine 18: 321-336.
Thorp, V.J. & Lake,
P.S. 1974. Toxicity bioassays of cadmium on selected freshwater invertebrates
and shrimp, Paratya tasmaniensis(Riek). Australian Journal of Marine and
Freshwater Research 25: 98-104.
Udroiu, I. 2006. The micronucleus test in piscine erythrocytes. Aquatic
Toxicology 79: 201-204.
Ventura, B.C., Angelis,
D.F. & Marin-Morales, M.A. 2008. Mutagenic and genotoxic effects of the Atrazine herbicide in Oreochromis niloticus(Perciformes, Cichlidae) detected by the micronuclei test and the
comet assay. Pesticide Biochemistry and Physiology 90: 42-51.
Wang, J. 1992. Trace Elements in Life Science. Beijing: China
Meteorological Press. pp. 188-207.
Webb, M. 1972. Protection by zinc against cadmium toxicity. Biochemical
Pharmacology 21: 2767-2771.
Xie, H., Holmes, A.L.,
Young, J.L., Qin, Q., Joyce, K., Pelsue, S.C., Peng,
C., Wise, S.S., Jeevarajan, A.S., Wallace, W.T.,
Hammond, D. & Wise Jr. J.P. 2009. Zinc chromate induces chromosome
instability and DNA double strand breaks in human lung cells. Toxicology and
Applied Pharmacology 234(3): 293-299.
Zhang, Y. & Xiao, H.
1998. Antagonistic effect of calcium, zinc and selenium against cadmium induced
chromosomal aberrations and micronuclei in root cells of Hordeum Íulgare. Mutation Research 420: 1-6.
*Pengarang untuk surat-menyurat; email: nurnadea@gmail.com
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