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EFEK PERLAKUAN LOGAM BERAT KADMIUM TERHADAP APOPTOSIS MELALUI AKTIVASI CASPASE-3 BULU BABI Deadema setosum: APLIKASI BIOMONITORING PENCEMARAN DI PERAIRAN LAUT (Effect of Cadmium Heavy Metal Treatment Toward Apoptosis Through Caspase-3 Activation of Sea)

https://doi.org/10.22146/jml.18510

Dominggus Rumahlatu(1*), Aloysius Duran Corebima(2), Mohamad Amin(3), Fatchur Rohman(4)

(1) Program Studi Pendidikan Biologi, FKIP Universitas Pattimura, Jl. Dr. Tamaela, Ambon
(2) Jurusan Biologi, Fakultas MIPA, Universitas Negeri Malang, Malang, Jawa Timur
(3) Jurusan Biologi, Fakultas MIPA, Universitas Negeri Malang, Malang, Jawa Timur
(4) Jurusan Biologi, Fakultas MIPA, Universitas Negeri Malang, Malang, Jawa Timur
(*) Corresponding Author

Abstract


ABSTRAK

Kadmium yang terakumulasi pada hewan dapat menyebabkan karsinogenik, mutagenik, dan teratogenik. Pada penelitian ini, dilakukan secara eksperimen nonfaktorial dalam RAL 6 level dengan 7 ulangan selama 4 minggu, untuk mengkaji efek perlakuan logam berat Cd terhadap apoptosis melalui aktivasi protein caspase-3 bulu babi Deadema setosum. Penelitian dilakukan di laboratorium Balai LIPI Ambon dalam 6 bak aquarium berukuran 100 x 60 x 70 cm3.Tiap bak perlakuan diisi 200 L air laut yang diganti satu kali setiap minggu. Konsentrasi perlakuan adalah 0, 1, 3, 6, 9, dan 12 µg/L Cd terlarut. Pada tiap bak diterapkan satu level perlakuan konsentrasi Cd, dan tiap bak itu dihuni oleh 7 individu D. setosum sebagai ulangan. Usia hewan uji sekitar 8 bulan berbobot 90 g dengan lingkar tubuh 15 cm. Hewan uji diberi pakan lamun. Pengukuran konsentrasi protein caspase-3 dilakukan pada organ hepar dengan metode Caspase Colorimetric Assay Kit, sedangkan pemeriksaan apoptosis dilakukan dengan teknik pengecatan Hematoxilen-Eosin (HE). Data penelitian terkait konsentrasi protein caspase-3 dianalisis dengan One Way Anova dan uji lanjut dihitung dengan Duncan 0,05. Hasil penelitian memperlihatkan bahwa perlakuan Cd sangat signifikan meningkatkan kadar protein caspase-3; semakin tinggi kadar Cd, kadar protein caspase-3 juga makin tinggi. Konsentrasi protein caspase-3 pada konsentrasi perlakuan 12 µg/L Cd adalah yang paling tinggi dibanding kontrol. Gambaran histologi hepar D. setosum yang mengalami apoptosis atas dasar pengecatan HE sangat sesuai dengan tiap konsentrasi protein caspase-3 yang terekam. Hasil ini menunjukkan bahwa protein caspase-3 memiliki potensi sebagai satu alternatif biomonitoring pencemaran Cd pada tingkat seluler D. setosum di perairan laut. 

 

ABSTRACT

Cadmium which accumulated in animals could cause carcinogenic, mutagenic and teratogenic. In this research, non factorial experiments conducted in Complete Random Design (CRD) 6 level with 7 replication for 4 weeks, in order to examine effect of Cd heavy metal treatment toward apoptosis through caspase-3 protein activation in sea urchin Deadema setosum.  Research conducted in LIPI Ambon laboratory using 6 aquarium tank size 100 x 60 x 70 cm3. Each tank was filled with 200 litres of sea waters that being replace once a week. Treatment concentrations in tanks  are containing 0.0, 1.0, 3.0, 6.0, 9.0, and 12.0 µg/L dissolved Cd. In each tank there is one level Cd concentration treatment level, and each tank was filled with 7 Deadema setosum individual as replication. The age of animals is approximately 8 month with the weight 90 gram and body circumference 15 cm. These animals were fed with seagrass. Measurement of Caspase-3 protein concentration was conducted in heparin organ using the method Caspase Colorimetric Assay kit, while apoptosis examination was conducted by painting technique using Hematoxilen-Eosin (HE) in Physiology and Histology Laboratory of Medical Faculty Brawijaya University. Research data concerning caspase-3 protein concentration was analyzed by One Way Anova and further test was calculated by  Duncan 0.05. Result of this research showed that Cd treatment is significantly increasing caspase-3 protein content; higher Cd content, caspase-3 protein would essentially higher. Caspase-3 protein concentration in treatment concentration of 12 µg/L is the highest compared to control treatment. Histological description of Deadema setosum heparin organ that experiencing apoptosis based on HE painting is in accord with each recorded caspase-3 protein concentration. This result showed that caspase-3 protein has the potential to become one alternative in Cd pollution biomonitoring at celluler level of Deadema setosum in the sea. 


Keywords


kadmium; apoptosis; biomonitoring pencemaran; Cadmium; Deadema setosum; apoptosis; Caspase-3; pollution biomonitoring



References

Agnello, M., dan Roccheri, M.C., 2010. Apoptosis: Focus on Sea Urchin Development. Cell death Res. 15(3):322-330. Agnello, M., Filosto, S., Scudiero, R., Rinaldi, A.M., dan Roccheri, M.C., 2007. Cadmium Induces an Apoptotic Response in Sea Urchin Embryos. Cell Stress & Chaperones, 12(1):44–50. Allen, J.I., dan Moore, M.N., 2004. Environmental Prognostics: is The Current Use of Biomarkers Appropriate for Environmental Risk Evaluation. Marine Environ. Res. 58:227-232. Angerer, J., Bird, M.G., Burke, T.A., Doerrer, N.G., Needham, L., Robinson, S.H., Sheldon, L., dan Zenick, H., 2006. Strategic Biomonitoring Initiatives: Moving The Science Forward, Toxicol. Sci. 93:3-10. Ayeni, O.O., Ndakidemi, P.A., Snyman, R.G., dan Odendaal, J.P., 2010. Chemical, Biological and Physiological Indicators of Metal Pollution in Wetlands. Scientific Res. & Essays, 5(15):1938-1949. Bielmyer, G.K., Brix, K.V., Capo, T.R. dan Grosell. G., 2005. The Effects of Metals on Embryo-larval and Adult Life Stages of The Sea Urchin, Deadema antillarum. Aquatic Toxicol. 74:254-263. Caspani, M.L., Savioli, M., Crotti, S., Buzzone, P., dan Gattmoni, L., 2004. Heat Stress: Characteristics, Pathophysiology And Avoidable Mistakes. Minerva Anastesiol., 70: 617-624. Dailianis, S., dan Kaloyianni, M., 2004. Cadmium Induces both Pyruvate Kinase and Na+/H+ Exchanger Activity Through Protein Kinase C Mediated Signal Transduction, in Isolated Digestive Gland Cellss of Mytilus galloprovincialis (L.). J. Exp. Biol., 207:1665-1674. Danis, B., Cotret, O., Teyssié, J.L., Bustamante, P., Fowler, S.W., dan Warnau, M., 2005. Bioaccumulation of PCBs in The Sea Urchin Paracentrotus lividus: Seawater and Food Exposures to a 14C-radiolabelled Congener (PCB#153). Environ. Pollut. 135(1):11-16. Dwipoyono, B., 2007. Aktivitas Caspase 3 sebagai Indikator Apoptosis Pada Sel Kanker Ovarium. Indo. J. Cancer, 2:63-72. El-Maraghy, S.A., Gad, M.Z., Fahim, A.T., dan Hamdy, M.A., 2001. Effect of Cadmium and Aluminum Intake on The Antioxidant Status and Lipid Peroxidation in Rat Tissues. J. Biochem. Mol. Toxicol. 15:207–221. Faix, S., Faixova, Z., Boldizarova, K., dan Javorsky, P., 2005. The Effect of Long-Term High Heavy Metal Intake on Lipid Peroxidation of Gastrointestinal Tissue in Sheep. Vet. Med-Czech, 50(9):401-405. Flammang, P., Warnau, M., Temara, A., Lane, D.J.W., dan Jangoux, M., 1997. Heavy Metals in Deadema setosum (Echinodermata Echinoidea) from Singapore Coral Reefs. J. Sea Res. 38:35-45. Hall, J.L., 2002.Cellular Mechanisms for Heavy Metal Detoxification and Tolerance. J. Exp. Botany, 53(366):1-11. Hall, J.L dan Lorraine, E.W., 2003. Transition Metal Transporters in Plants. J. Exp. Botany, 54(393):2601-2613. Huang, K.L., Wu, C.P., Chen, Y.L., Kang, B.H., dan Lin, Y.C., 2003. Heat Stress Attenuates Air Bubble-Induced Acute Lung Injury: A Novel Mechanism of Diving Acclimatization. J. Appl Physiol. 94:1485-1490. Kamrin, M.A., 2004. Biomonitoring Basics. A Report from biomonitoringinfo.org. Environmental Health Research Foundation. Katschinski, D.M., 2004. On Heat and Cells and Proteins. News Physiol. Sci. 19: 11-15. Nagata, S., 1997. Apoptosis by Death Factor. Cell, 88:355-365. Nordic, N., 2003. Cadmium Review. Denmark: Prepared by COWI A/S on behalf of the Nordic Council of Ministers. Pal, M., Horvarth, E., Janda, T., Paldi, E., dan Szalai, G., 2006. Physiological Changes and Defense Mechanisme Induced by Cadmium Stress in Maize. J. Plant. Nutr. Soil Sci. 159:230-246. Roccheri, M.C., Agnello, M., Bonaventura, R., dan Matranga, V., 2004. Cadmiun Induces The Expression of Specific Stress Proteins in Sea Urchin Embryos. Elsevier. (online). www.elsevier.com. Diakses 4 September 2010. Rumahlatu, D., 2011. Konsentrasi Logam Berat Kadmium Pada Air, Sedimen, dan Deadema setosum (Echinodermata; Echinoidea) di Perairan Pulau Ambon. Ilmu Kelautan-Indo. J. Marine Sci. 16(2):78-85. Rainbow, P.S., Wolowicz, M., Fialkowski, W., Smith, B.D., dan Sokolowski, A., 2000. Biomonitoring of Trace Metals in The Gulf of Gdansk, Using Mussels (Mytilus trossulus) and Barnacles (Balanus improvisus). Water Res., 34:1823-1829. Russo, R., Bonaventura, R., Zito, F., Schroder, H., Muller, I., Muller, W.E.G., dan Matranga, V., 2003. Stress to Cadmium Monitored by Metallothionein Gene Induction in Paracentrotus Lividus Embryos. Cell Stress & Chaperones, 8(3):232-231. Saputra, D., Astuti, E.R., dan Budhy, T.I., 2012. Apoptosis and Necrotic Oral Mucosa Cell Induced by Conventional Dental X-Ray Radiation. Dental Journal, 3(1):36-40. Schoettger, R.A., 1996. Problems of Aquatic Toxicology, Biotesting and Water Quality Management. Proceedings of USA-Rusia Symposium, Borok, Jaroslavl Oblast, Juli 21-23 1996. Published by Ecosytems Research Division Athens. Slee, E.A., Harte, M.T., Kluck, R.M., Wolf, B.B., Casiano, C.A., Newmeyer, D.D., Wang, H.G., Reed, J.C., Nicholson, D.W., Alnemri, E.S., Green D.R., dan Martin, S.J., 1999. Ordering the Cytochrome Cinitiated Caspase Cascade: Hierarchical Activation of Caspase-2, -3, -6, -7, -8, and -10 in A Caspase-9-Dependent Manner. J. Cell Biol. 144:281-292. Smiri, M., Chaoui, A., dan Ferjani, E.E., 2010. Interaction between Heavy Metals and Thiol-Linked Redox Reactions in Germination. Pakistan J. Biol. Sci., 13(18):877-883. Soualili, D., Dubois, P., Gosselin, P., Pernet, P., dan Guillou, M. 2007. Assessment of Seawater Pollution by Heavy Metals in the Neighbourhood of Algiers: Use of Sea Urchin, Paracentrotus lividus, as Bioindicator. Email: mgluillou@univ-brest.fr. Diakses 8 September 2010. Temara, A., Skei, J.M., Gillan, D., Warnau, M., Jangoux, M., dan Dubois, P., 1998. Validation of the Asteroid Asterias rubens (Echinodermata) as A Bioindicator of Spatial and Temporean Trends of Pb, Cd, and Zn Contamination in the Field. Marine Environ. Res., 45(4/5):341-356. Tosepu, R., 2012, Laju Penurunan Logam Berat Plumbum (Pb) dan Cadmium (Cd) oleh Eichornia crassipes dan Cyperus papyrus. Jurnal Manusia dan Lingkungan, 19(1):37-45. Warnau, M., Ledent, G., Temara, A., Bouquegneau, J.M., Jangoux, M., dan Dubois, P., 1995. Heavy Metals in Posidonia oceanic and Paracentrotus lividus from Seagrass Beds of Northwestern Mediterranean. Sci. Total Environ., 171:95-99. Wlostowski, T., Krasowska A., dan Bonda E., 2003. An Ironrich Diet Protects The Liver and Kidneys Against Cadmium-Induced Injury in The Bank Vole (Clethrionomys glareolus). Ecotoxicol. & Environ. Safety, 54:194-198. Zhang, X., Chen, J., Graham, S.H., Du, L., Kochanek, P.M., Draviam, R., Guo, F., Nathaniel, P.D., Szabo, C., dan Watkins, S.C., 2002. Intranuclear Localization of Apoptosis-Inducing Factor (AIF) and Large Scale DNA Fragmentation after Traumatic Brain Injury in Rats and in Neuronal Cultures Exposed to Peroxynitrite. J. Neurochem., 82:181-191. Zhou, Q., Zhang, J., Fu, J., Shi, J., dan Jiang, G. 2008. Biomonitoring: An Appealing Tool for Assessment of Metal Pollution in The Aquatic Ecosystem. Anal. Chim. Acta, 606:135–150.



DOI: https://doi.org/10.22146/jml.18510

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