The Role of Intrinsic Pathway Apoptosis via Caspase-9 in Atherogenesis Due To Atherogenic Diet in Sprague Dawley Rats
Yanuartono Yanuartono(1*), Hastari Wuryastuti(2), R Wasito(3), Sri Raharjo(4)
(1) Gadjah Mada University
(2) Gadjah Mada University
(3) Gadjah Mada University
(4) Gadjah Mada University
(*) Corresponding Author
Abstract
Thirty male rats, strain Sprague Dawley were used as experimental animal to study the role of intrinsic (mitochondrial) pathway apoptosis in atherogenesis due to high fat and high cholesterol diet. The rats were randomly alloted into three group (I, II, III) of 15 each. Group I as control was fed normal diet, group II was fed diet containing high fat diet, and group III was fed containing high fat and high cholesterol diet (atherogenic diet). After 6 and 12 weeks on experimental diet, 15 rats were selected randomly (5 rats of each group). All animal were then killed and the aorta were taken out for caspase-9 immunohistochemical analysis. Based on the present study result it can be concluded that high fat diet and high cholesterol diet could induced apoptosis through caspase-9.
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Avula R. C. P., Aman A. K., Lawrence R., and Fernandes G. 1999. Induction of apoptotic mediators in Balb/c splenic lymphocytes by dietary n-3 and n-6 fatty acids. Lipids. 34: 921-927
Cardone M. H. Salvesen G. S., Widmann C., Johnson G., and Frisch S. M. 1997. Cell. 90:315-323
Christ M. Luu B., Mejia J. E., Moosbrugger I., and Bischoff P. 1993. Apoptoses induced by oxysterols in murine lymphoma cells and in normal thymocytes. Immunology. 78: 455-460
De Pablo M. A., Puertollano M. A., and deCienfuegos G. A. 2002. Biological and clinical significance of lipids as modulators of immune system functions. Clin. and Diag. Lab. Immunol. 9: 945-950
De Pablo M. A., Susin S. A., Jacotot E., Larochette N., Costantini P., Ravagnan L., Anami S., and Kroemer G. 1999. Palmitate induces apoptosis via direct effect on mitochondria. Apoptosis 4: 81-87
Duke R. C., Ojcius D. M., and Young J. D. 1996. Cell suicide in health and disease. Sci. Am. 275: 80-87
Gibbons G. H., and Pollman M. J. 2000. Death receptors, Intimal Disease, and Gene Therapy. Are Therapies that Modify cell Fate moving too Fast?. Circ. Res. 86: 1009-1118
Geng Y.J. 2001. Molecular signal transduction in vascular cell apoptosis. Cell Research. 11 (4): 253-264
Jacobson M., Weil M., and Raff L. 1997. Programmed cell death in animal development. Cell. 88: 347-354
Leonarduzzi, G., Sottero B., and Poli, G. 2002. Oxidised Products of Cholesterol: Dietary and Metabolic Origin, and Proatherosclerotic Effects (Review). J. Nutr. Biochem. 13: 700-710
Lim-H. K., Kang H. K., Yoo E. S. 2003. Oxysterols induced apoptosis and accumulation of cell cycle at G2/M phase in the human monocytic THP-1 cell line. Life Sci. 72: 1389-1399
Lizard G., Gueldry, S., Sordet O., Monier, S., Athias A., Miguet, C., Bessede, G., Lemaire, S. SOlary, E. and Gambert, P. 1998. Gluathione is Implied in the Control of 7-Ketocholesterol-Induced Apoptosis, which is associated with Radical Oxygen Species Production. The FASEB Journal. 12:1651-1663
Miguet-Alfonsi, C., Prunet, C. and Monier, S. 2002. Analysis of Oxidative Processes and of Myelin Figure Formation Before and After the Loss of Mitochondria Transmembrane Potential During 7a-Hydroxycholesterol (7a-OH) and 7-Ketocholesterol-Induced Apoptosis: Comparison with Various Pro-Apoptotic Chemicals. Biochem. Pharmacol. 64: 527-541
Panini, S. and Sinensky, M. S. 2001. Mechanism of Oxysterol-Induced Apoptosis. Curr. Opin. Lipidol. 12: 529-533
Rusinol A. E., Thewke D., Liu J., Freeman N., Panini S. R., and SInensky M. S. 2004. AKT/protein kinase B regulation of BCL family members during oxysterol-induced apoptosis. J. Biol. Chem. 279: 1329-1399.
Ryan L., O'Callaghan Y. C., and OBrien N. M. 2005. Oxidised Products of Cholesterol: Their Role in Apoptosis. Curr. Nutr. And Food Sci. 1: 41-51
Scaffidi, C., Fulda, S., Srinivasan, A., Friesen, C., Li, F., Tomaselli, K. J., Debatin, K. M., Krammer, P. H., and Peter, M. E. 1998. Two CD95 (APO-1/Fas) Signaling Pathways. EMBO J. 17: 1675-1687
Seye, C. I., Knaapen, M. W. M., and Daret, D. 2004 7-Ketocholesterol Induces Reversible Cyochromec Release in Smooth Muscle Cells in Absence of Mitochondrial Swelling. Cardiovasc Res. 64: 144-153
Slee E. A., Harte M. T., Kluck R. M., Wolfe B. B., Casiano, C. A., Newmeyer D. D., Wang H. G., Reed J. C., Nicholson D. W., Alnemri E. S., Green D. R., and Martin S. J. 1999. Ordering the cytochrome c initiated cas[ae cascade: hierarchical activation of caspase-2,-3,-6,-7,-8 and -10 in a caspase-9-dependent manner. J. Cell Biol. 144: 281-292
Srinivasula, S. M., Ahmad, M., Fernandes-Alnemri, E. S. 1998. Autoactivation of procaspase-9 by apaf-1 mediated oligomeraztion. Mol. Cell. 1: 949-957
Thompson, C. B., 1995. Apoptosis in the pathogenesis and treatment and disease. Science. 267: 1456-1462
Trieb, K., Cetin, E., Girsch, W., and Brand, G. 2003. Distinct expression of Apo-1 and caspase-8 in human growth plate. J. European Cells and Materials. 5: supply 57-58
Ucker D. S. 1991. Death by suicide: one way to go in mammalian cellular development? New Biol. 3: 103-109
Vander Heiden, M. G., Chandel, N. S., Williamson E. K., Schumacker P. T., and Thompson C. B., 1997. Bcl-xL regulates the membrane potential and volume homeostasis of mitochondria. Cell 91: 627-637
Walker, N. I., Harmon, B. V., Goobe G. C., and Kerr, J. F. R., 1988. Pattern of cell death. Methods Achieve Exp. Pathol 13: 18-54
Wasito, R. 1997. Immunocytochemistry in diagnostic pathology: Use of immunohistochemical techniques for detecting porcine specific RNA transmissible gastroenteritis virus in vivo. Indon. J. Biotech. June: 121-124
William, G. T. 1991. Programmed cell death: apoptosis and oncogenesis. Cell 65: 1097-1098
Willis S., Day C. L., Hinds M. G., and Huang D. C. S. 2003. Cell Science at a Glance: The Bcl-2-regulated apoptotic pathway. Journal of Cell Science 116: 4053-4056
Wyllie A.H. 1991. cell death: a new classification separating apoptosis from necrosis. Bowen I. D. Lockshin R. A. eds Cell death in biology and pathology, 9-34. Chapman & Hall London and New York
Yang, J., Liu, X., Bhalla K., Kim, C. N., Ibrado, A. M., Cai, J., Peng, T. I., Jones, D. P. and Wang X. 1997. Prevention of Apoptosis by Bcl-2 Release of Cytochrome c from Mitochondria Blocked. Science 275: 1129-1132
Yano M., Kishida E., Iwasaki M., Kojo S., and Masuzawa Y. 2000. Docosahexaenoic acid and vitamin E can reduce human monocytic U937 cell apoptosis induced by tumor necrosis factor. J. of Nutr. 130: 1095-1101
Zeiss C. J. 2003. The apoptosis-Necrosis Continuum: Insights from Genetically Altered Mice. Vet. Pathol. 40: 481-495.
Zou, H., Henzel, W. J., Liu, X., Lutschg, A., and Wang X. 1997. Apaf-1 a human protein homologous to C. elegans CED-4, participates in cyctichrome c-dependant activation of caspase-3. Cell 90: 405-413
DOI: https://doi.org/10.22146/jifnp.32
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