Oxidative stress and activation of proteasome protease during serum deprivation-induced apoptosis in rat hepatoma cells; inhibition of cell death by melatonin (original) (raw)

References

1. Kerr JF, Wyllie AH, Currie AR. Apoptosis: A basic biological phenomenon with wide ranging implications in tissue kinetics. British J Cancer 1972; 26: 239-257.
   Google Scholar
2. Green DR. Apoptotic pathways: Paper wrap stones blunt scissors. Cell 2000; 102: 1-4.
   Google Scholar
3. Jacobson MD, Weil M, Raff MC. Programmed cell death in animal development. Cell 1997; 88: 347-354.
   Google Scholar
4. Ashkenazi A, Dixit VM. Death receptors: Signaling and Modulation. Science 1998; 281: 1305-1308.
   Google Scholar
5. Satoh T, Sakai N, Enokido Y, Uchiyama Y, Hatanaka H. Survival factor-insensitive generation of oxygen species induced by serum-deprivation in neuronal cells. Brain Res 1996; 733: 9-14.
   Google Scholar
6. Evan G, Littlewood T. A matter of life and cell death. Science 1998; 281: 1317-1321.
   Google Scholar
7. Jenner P, Shapira AHV, Marson CD. New insights into the cause of Parkinson's disease. Neurology 1992; 42: 2241-2250.
   Google Scholar
8. MacManus JP, Hill I, Huang Z-G, Resquina I, Xue D, Buchan AM. DNA damage consistant with apoptosis in transient ischemic neurocortex. NeuroReport 1994; 5: 493-496.
   Google Scholar
9. Gervais F, Xu, D, Robertson GS, et al. Involvement of caspases in proteolytic cleavage of alzheimer's amyloid-? precursor protein and amyloidogenic A_?_geptide formation. Cell 1999; 97: 395-406.
   Google Scholar
10. Green D, Reed JC. Mitochondria and apoptosis. Science 1998; 281: 1309-1312.
    Google Scholar
11. Wolf B, Green D. Apoptosis: Letting slip the dogs of war. Current Biol 2002; 12: R177-R179.
    Google Scholar
12. Rukenstein A, Rydel RE, Greene LA. Multiple agents rescue PC12 cells from serum-free cell death by translation and transcription-independent mechanisms. J Neurosci 1991; 11: 2552-2563.
    Google Scholar
13. Navas P, Fernandez-Ayala DM, Martin SF, et al. Ceramidedependent caspase 3 activation is prevented by coenzyme Q from plasma membrane in serum-deprived cells. Free Rad Res 2002; 36: 369–374.
    Google Scholar
14. Colombaioni L, Colombaioni L, Garcia-Gil M. Role of mitochondria in serum withdrawal-induced apoptosis of immortalized neuronal precursors. Brain Res Dev Brain Res 2002; 134: 93-102.
    Google Scholar
15. Joza N, Susin SA, Daugas E, et al. Essential role of the mitochondrial apoptosis-inducing factor in programmed cell death. Nature 2001; 410: 549-554.
    Google Scholar
16. Shea TB, Ekinci FJ, Ortiz D, Dawn-Linsley M, Wilson TO, Nicolosi RJ. Efficacy of vitamin E, phosphatidyl choline, and pyruvate on buffering neuronal degeneration and oxidative stress in cultured cortical neurons and in central nervous tissue of apolipoprotein E-deficient mice. Free Radic Biol Med 2002; 33: 276-282.
    Google Scholar
17. Arlt S, Beisiegel U, Kontush A. Lipid peroxidation in neurodegeneration: New insights into Alzheimer's disease. Curr Opin Lipidol 2002; 13: 289-294.
    Google Scholar
18. Butterfield DA, Drake J, Pocernich C, Castegna A. Evidence of oxidative damage in Alzheimer's disease brain: Central role for amyloid beta-peptide. Trends Mol Med 2001; 7: 548- 554.
    Google Scholar
19. Pandey S, Smith B, Walker PR, Sikorska M. Caspase-dependent and independent cell death in rat hepatoma 5123tc cells. Apoptosis 2000; 5: 265-275.
    Google Scholar
20. Morris HP. Studies on the development, biology and biochemistry of experimental hepatomas. Adv Cancer Res 1965; 9: 227- 302.
    Google Scholar
21. Sirak AG, Pourahmad J, Chan TS, Khon S, O'Brien PJ. Endogenous and endobiotic reactive oxygen species formation by isolated hepetocytes. Free Rad Biol Mad 2002; 32: 2- 10.
    Google Scholar
22. Wagner BA, Britigan BE, Reszka KJ, McCormick ML, Burns CP. Hydrogen peroxide-induced apoptosis of HL-60 human leukemia cells is mediated by the oxidants hypochlorous acid and chloramines. Arch Biochem Biophys 2002; 401: 223- 234.
    Google Scholar
23. Greenlund LJS, Deckwerth TL, Johnson Jr. EM. Superoxide dismutase delays neuronal apoptosis: A role for reactive oxygen species in programmed cell death. Neuron 1995; 14: 303- 315.
    Google Scholar
24. Almeida A, Delgado-Esteban M, Bolanos JP, Medina JM. Oxygen and glucose deprivation induces mitochondrial dysfunction and oxidative stress in neurons but not in astrocytes in primary culture. J Neurochem 2002; 81: 207-217.
    Google Scholar
25. Fiers W, Beyaert W, Vandenabeele P. More than one way to die: Apoptosis, necrosis and reactive oxygen damage. Oncogene 1999; 18: 7719-7730.
    Google Scholar
26. Ishikawa A, Kubota Y, Murayama T, Nomura Y. Cell death by 1-chloro-2,4-dinitrobenzene, an inhibitor of thioredoxin reductase and its dual regulation by nitric oxide in rats. Neurosci Lett 1999 24; 277: 99-102.
    Google Scholar
27. Andoh T, Chok PB, Chiueh CC. The role of Thioredoxin in protection against oxidative stress induced apoptosis in Sh-SY5Y cells. J Biol Sci 2002; 277: 9655-9660.
    Google Scholar
28. Beswick RA, Dorrance AM, Leite R, Webb RC. NADH/NADPH oxidase and enhanced superoxide production in the mineralocorticoid hypertensive rat. Hypertension 2001; 38: 1107-1111.
    Google Scholar
29. Tsujimato Y, Hashizume H, Yamazaki M. Superoxide radical scavenging activity of phenolic compounds. Int J Biochem 1993; 25: 491-494.
    Google Scholar
30. Reiter RJ, Tan DX, Manchester LC, Qi W. Biochemical reactivity of melatonin with reactive oxygen and nitrogen species: A review of the evidence. Cell Biochem. Biophys 2001; 34: 237-256.
    Google Scholar
31. Reiter RJ, Tan DX, Burkhardt S. Reactive oxygen and nitrogen species and cellular and organismal decline: Amelioration with melatonin. Mech Aging Develop 2002; 123: 1007-1019.
    Google Scholar
32. Okatani Y, Wakatsuki A, Reiter RJ, Miyahara Y. Melatonin reduces oxidative damage of neural lipid in senescenceaccelerated mouse. Neurobiol Aging 2002; 23: 639-644.
    Google Scholar
33. McGowan AJ, Fernandes RS, Samali A, Cotter G. Antioxidants and apoptosis. Biochem Soc Trans 1996; 24: 229-233.
    Google Scholar
34. Luo Y, Umegaki H, Wang X, Abe R, Roth GS. Dopamine induces apoptosis through an oxidation-involved SAPK/JNK activation pathway. J Biol Chem 1998; 273(6): 3756-3764.
    Google Scholar
35. Hockenbery DM, Oltavi ZN, Yin XM, Miliman CL, Korsmeyer SJ. Bcl-2 function in an anti-oxidant pathway to prevent apoptosis. Cell 1993; 75: 241-251.
    Google Scholar
36. Kane DJ, Sarafian, TA, Anton R, et al. Bcl-2 inhibition of neural death: Decreased generation of reactive oxygen species. Science 1993; 262: 1274-1277.
    Google Scholar
37. Milligan CM, Prevette D, Yaginuma, H, et al. Peptide inhibitor of ICE protease family arrest programmed cell death of motoneurons in vivo and in vitro. Neuron 1995; 15: 385-393.
    Google Scholar
38. Grimm LM, Goldberg AL, Poirier GG, Schwartz, LM, Osborne BA. Proteasomes play an essential role in thymocyte apoptosis. EMBO J 1996; 15: 3835-3844.
    Google Scholar
39. Yang QA, Fang S, Jenson, JP, Weissman AM, Ashwell, JD. Ubiqutin protein ligase activity of IAPs and their degradation in proteasome in response to apoptotic stimuli. Science 2000; 288: 874-877.
    Google Scholar
40. Rodgers KJ, Wang H, Fu S, Dean RT. Biosynthetic incorporation of oxidized amino acids into proteins and their cellular proteolysis. Free Rad Biol Med 2002; 32: 766-775.
    Google Scholar
41. Gajendran N, Tanaka K, Kamada N. Comet assay to sense neutron fingerprint. Mutation Research 2000; 452: 179-187.
    Google Scholar

Download references