Differential Regulation of Bax, Bcl‐2, and Bcl‐X Proteins in Focal Cortical Ischemia in the Rat

Stefan Isenmann; Guido Stoll; Michael Schroeter; Stanislaw Krajewski; John C Reed; Mathias Bähr

doi:10.1111/j.1750-3639.1998.tb00134.x

. 2006 Apr 5;8(1):49–62. doi: 10.1111/j.1750-3639.1998.tb00134.x

Differential Regulation of Bax, Bcl‐2, and Bcl‐X Proteins in Focal Cortical Ischemia in the Rat

Stefan Isenmann ^1,^✉, Guido Stoll ², Michael Schroeter ², Stanislaw Krajewski ³, John C Reed ³, Mathias Bähr ¹

PMCID: PMC8098325 PMID: 9458166

Abstract

Focal ischemia in the parietal cortex of the rat results in massive neuronal death in the infarct zone and penumbra between 12 hours and 6 days after photothrombosis. To examine a possible role of Bcl‐2 family proteins in this process of cell death, we investigated their expression by immunoblot assays and immunocytochemistry, and correlated expression patterns with TUNEL as well as morphological signs indicative of apoptosis. In the center of the lesion Bax immunostaining was increased in many degenerating neurons between 4 hours and 3 days after the induction of photothrombosis. At all time points examined, Bcl‐2 and Bcl‐X protein levels were markedly reduced in injured neurons as compared to the unlesioned side. At the border of the ischemic lesion, two areas were distinguished: 1 – 2 days after induction of photothrombosis, pyknotic cells located immediately adjacent to the lesion core displayed nuclear Bcl‐X and Bax immunoreactivity. In contrast, large, morphologically intact neurons located more towards the healthy brain parenchyma displayed an increase in cytoplasmic Bcl‐2 and Bcl‐X proteins. Double staining for each of the Bcl‐2 family proteins and TUNEL revealed that DNA strand breaks and nuclear fragmentation seen in cells located in the lesion core were often associated with increased levels of Bax, but not with elevated Bcl‐2 or Bcl‐X protein levels, suggesting a role for Bax in the induction of apoptotic death in these cells. The upregulation of Bcl‐2 and Bcl‐X expression in surviving neurons close to the penumbra might reflect an active survival mechanism that protects these neurons from cell death following a sublethal insult.

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References

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[b1] 1. Allsopp TE, Wyatt S, Paterson HF, Davies AM (1993) The proto‐oncogene bcl‐2 can selectively rescue neurotrophic factor‐dependent neurons from apoptosis. Cell 73: 295–307. [DOI] [PubMed] [Google Scholar]

[b2] 2. Baffy G, Miyashita T, Williamson JR, Reed JC (1993) Apoptosis induced by withdrawal of interleukin‐3 (IL‐3) from an IL‐3‐dependent hematopoietic cell line is associated with repartitioning of intracellular calcium and is blocked by enforced Bcl‐2 oncoprotein production. J Biol Chem 268: 6511–6519. [PubMed] [Google Scholar]

[b3] 3. Behl C, Hovey L, Krajewski S, Schubert D, Reed JC (1993) BCL‐2 prevents killing of neuronal cells by glutamate but not by amyloid beta protein. Biochem Biophys Res Com 197: 949–956. [DOI] [PubMed] [Google Scholar]

[b4] 4. Boise LH, Gonzalez‐Garcia M, Postema CE, Ding L, Lindsten T, Turka LA, Mao X, Nunez G, Thompson CB (1993) bcl‐x, a bcl‐2‐related gene that functions as a dominant regulator of apoptotic cell death. Cell 74: 597–608. [DOI] [PubMed] [Google Scholar]

[b5] 5. Braun JS, Jander S, Schroeter M, Witte OW, Stoll G (1996) Spatiotemporal Relationship Of Apoptotic Cell Death to Lymphomonocytic Infiltration In Photochemically Induced Focal Ischemia Of the Rat Cerebral Cortex. Acta Neuropathol 92: 255–263. [DOI] [PubMed] [Google Scholar]

[b6] 6. Bredesen DE (1995) Neural apoptosis. Ann Neurol 38: 839–851. [DOI] [PubMed] [Google Scholar]

[b7] 7. Bursch W, Kleine L, Tenniswood M (1990) The biochemistry of cell death by apoptosis. Biochem Cell Biol 68: 1071–1074. [DOI] [PubMed] [Google Scholar]

[b8] 8. Cervos‐Navarro J, Schubert TEO (1996) Pitfalls in the evaluation of apoptosis using TUNEL. Brain Pathol 6: 347. [PubMed] [Google Scholar]

[b9] 9. Choi DW (1992) Excitotoxic cell death. J Neurobiol 23: 1261–1276. [DOI] [PubMed] [Google Scholar]

[b10] 10. Cotman CW, Anderson AJ (1995) A potential role for apoptosis in neurodegeneration and Alzheimer's disease. Mol Neurobiol 10: 19–45. [DOI] [PubMed] [Google Scholar]

[b11] 11. Cotman CW, Su JH (1996) Mechanisms Of Neuronal Death In Alzheimers Disease. Brain Pathol 6: 493–506. [DOI] [PubMed] [Google Scholar]

[b12] 12. Deckwerth TL, Elliott JL, Knudson CM, Johnson EM, Snider WD, Korsmeyer SJ (1996) Bax is required for neuronal death after trophic factor deprivation and during development. Neuron 17: 401–411. [DOI] [PubMed] [Google Scholar]

[b13] 13. Dubois‐Dauphin M, Frankowski H, Tsujimoto Y, Huarte J, Martinou JC (1994) Neonatal motoneurons overexpressing the bcl‐2 protooncogene in transgenic mice are protected from axotomy‐induced cell death. Proc Natl Acad Sci USA 91: 3309–3313. [DOI] [PMC free article] [PubMed] [Google Scholar]

[b14] 14. Gavrieli Y, Sherman Y, Ben‐Sasson SA (1992) Identification of Programmed Cell Death In Situ via Specific Labeling of Nuclear DNA Fragmentation. J Cell Biol 119: 493–501. [DOI] [PMC free article] [PubMed] [Google Scholar]

[b15] 15. Gillardon F, Lenz C, Waschke KF, Krajewski S, Reed JC, Zimmermann M, Kuschinsky W (1996) Altered expression of Bcl‐2, Bcl‐X, Bax, and c‐Fos colocalizes with DNA fragmentation and ischemic cell damage following middle cerebral artery occlusion in rats. Mol Brain Res 40: 254–260. [DOI] [PubMed] [Google Scholar]

[b16] 16. Gillardon F, Zimmermann M, Uhlmann E, Krajewski S, Reed JC, Klimaschewski L (1996) Antisense Oligodeoxynucleotides to Bax Mrna Promote Survival Of Rat Sympathetic Neurons In Culture. J Neurosci Res 43: 726–734. [DOI] [PubMed] [Google Scholar]

[b17] 17. Gonzalez‐Garcia M, Garcia I, Ding LY, Oshea S, Boise LH, Thompson CB, Nunez G (1995) Bcl‐X Is Expressed In Embryonic and Postnatal Neural Tissues and Functions to Prevent Neuronal Cell Death. Proc Natl Acad Sci USA 92: 4304–4308. [DOI] [PMC free article] [PubMed] [Google Scholar]

[b18] 18. Hara A, Iwai T, Niwa M, Uematsu T, Yoshimi N, Tanaka T, Mori H (1996) Immunohistochemical Detection Of Bax and Bcl‐2 Proteins In Gerbil Hippocampus Following Transient Forebrain Ischemia. Brain Res 711: 249–253. [DOI] [PubMed] [Google Scholar]

[b19] 19. Hockenbery DM, Oltvai ZN, Yin XM, Milliman CL, Korsmeyer SJ (1993) Bcl‐2 functions in an antioxidant pathway to prevent apoptosis. Cell 75: 241–251. [DOI] [PubMed] [Google Scholar]

[b20] 20. Honkaniemi J, Massa SM, Breckinridge M, Sharp FR (1996) Global ischemia induces apoptosis‐associated genes in hippocampus. Mol Brain Res 42: 79–88. [DOI] [PubMed] [Google Scholar]

[b21] 21. Hossmann KA (1993) Disturbances of cerebral protein synthesis and ischemic cell death. Prog Brain Res 96: 161–177. [DOI] [PubMed] [Google Scholar]

[b22] 22. Isenmann S, Bähr M (1997b) c‐Jun protein is expressed in degenerating retinal ganglion cells after optic nerve lesion in the rat. Exp Neurol 147: 28–36. [DOI] [PubMed] [Google Scholar]

[b23] 23. Isenmann S, Brandner S, Sure U, Aguzzi A (1996) Telencephalic Transplants In Mice ‐ Characterization Of Growth and Differentiation Patterns. Neuropathol Appl Neurobiol 22: 108–117. [PubMed] [Google Scholar]

[b24] 24. Isenmann S, Wahl C, Krajewski S, Reed JC, Bähr M (1997a) Upregulation of Bax Protein in Degenerating Retinal Ganglion Cells precedes Apoptotic Cell Death after Optic Nerve Lesion in the Rat. Eur J Neurosci 9: 1763–1772. [DOI] [PubMed] [Google Scholar]

[b25] 25. Jander S, Kraemer M, Schroeter M, Witte OW, Stoll G (1995) Lymphocytic infiltration and expression of intercellular adhesion molecule‐1 in photochemically induced ischemia of the rat cortex. J Cereb Blood Flow Metab 15: 42–51. [DOI] [PubMed] [Google Scholar]

[b26] 26. Kane DJ, Sarafian TA, Anton R, Hahn H, Gralla EB, Valentine JS, Ord T, Bredesen DE (1993) Bcl‐2 inhibition of neural death: decreased generation of reactive oxygen species. Science 262: 1274–1277. [DOI] [PubMed] [Google Scholar]

[b27] 27. Kawai K, Nitecka L, Ruetzler CA, Nagashima G, Joo F, Mies G, Nowak TS, Jr. , Saito N, Lohr JM, Klatzo I (1992) Global cerebral ischemia associated with cardiac arrest in the rat: I. Dynamics of early neuronal changes. J Cereb Blood Flow Metab 12: 238–249. [DOI] [PubMed] [Google Scholar]

[b28] 28. Kharlamov A, Uz T, Joo JY, Manev H (1996) Pharmacological Characterization Of Apoptotic Cell Death In a Model Of Photothrombotic Brain Injury In Rats. Brain Res 734: 1–9. [PubMed] [Google Scholar]

[b29] 29. Kitada S, Takayama S, De Riel K, Tanaka S, Reed JC (1994) Reversal of chemoresistance of lymphoma cells by antisense‐mediated reduction of bcl‐2 gene expression. Antisense Res Dev 4: 71–79. [DOI] [PubMed] [Google Scholar]

[b30] 30. Knudson CM, Korsmeyer SJ (1997) Bcl‐2 and Bax function independently to regulate cell death. Nat Genet 16: 358–363. [DOI] [PubMed] [Google Scholar]

[b31] 31. Krajewski S, Krajewska M, Ehrmann J, Sikorska M, Lach B, Chatten J, Reed JC (1997) Immunohistochemical analysis of Bcl‐2, Bcl‐X, Mcl‐1, and Bax in tumors of central and peripheral nervous system. Am J Pathol 150: 805–814. [PMC free article] [PubMed] [Google Scholar]

[b32] 32. Krajewski S, Krajewska M, Shabaik A, Miyashita T, Wang HG, Reed JC (1994) Immunohistochemical determination of in vivo distribution of Bax, a dominant inhibitor of Bcl‐2. Am J Pathol 145: 1323–1336. [PMC free article] [PubMed] [Google Scholar]

[b33] 33. Krajewski S, Krajewska M, Shabaik A, Wang HG, Irie S, Fong L, Reed JC (1994) Immunohistochemical analysis of in vivo patterns of Bcl‐X expression. Cancer Res 54: 5501–5507. [PubMed] [Google Scholar]

[b34] 34. Krajewski S, Mai JK, Krajewska M, Sikorska M, Mossakowski MJ, Reed JC (1995) Upregulation Of Bax Protein Levels In Neurons Following Cerebral Ischemia. J Neurosci 15: 6364–6376. [DOI] [PMC free article] [PubMed] [Google Scholar]

[b35] 35. Krajewski S, Tanaka S, Takayama S, Schibler MJ, Fenton W, Reed JC (1993) Investigations of the subcellular distribution of the bcl‐2 oncoprotein: residence in the nuclear envelope, endoplasmatic reticulum, and outer mitochondrial membranes. Cancer Res 53: 4701–4714. [PubMed] [Google Scholar]

[b36] 36. Kreutzberg GW, Klatzo I, Kleihues P (1992) Oskar and Cecile Vogt, Lenin's brain and the bumble‐bees of the Black Forest. Brain Pathol 2: 363–371. [DOI] [PubMed] [Google Scholar]

[b37] 37. Lam M, Dubyak G, Chen L, Nunez G, Miesfeld RL, Distelhorst CW (1994) Evidence that BCL‐2 represses apoptosis by regulating endoplasmic reticulum‐associated Ca2+ fluxes. Proc Natl Acad Sci USA 91: 6569–6573. [DOI] [PMC free article] [PubMed] [Google Scholar]

[b38] 38. Lennon SV, Martin SJ, Cotter TG (1991) Dose‐dependent induction of apoptosis in human tumour cell lines by widely diverging stimuli. Cell Prolif 24: 203–214. [DOI] [PubMed] [Google Scholar]

[b39] 39. Li Y, Chopp M, Jiang N, Yao F, Zaloga C (1995) Temporal profile of in situ DNA fragmentation after transient middle cerebral artery occlusion in the rat. J Cereb Blood Flow Metab 15: 389–397. [DOI] [PubMed] [Google Scholar]

[b40] 40. Linnik MD, Zahos P, Geschwind MD, Federoff HJ (1995) Expression of bcl‐2 from a defective herpes simplex virus‐1 vector limits neuronal death in focal cerebral ischemia. Stroke 26: 1670–1674. [DOI] [PubMed] [Google Scholar]

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Differential Regulation of Bax, Bcl‐2, and Bcl‐X Proteins in Focal Cortical Ischemia in the Rat

Stefan Isenmann

Guido Stoll

Michael Schroeter

Stanislaw Krajewski

John C Reed

Mathias Bähr

Abstract

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PERMALINK

Differential Regulation of Bax, Bcl‐2, and Bcl‐X Proteins in Focal Cortical Ischemia in the Rat

Stefan Isenmann

Guido Stoll

Michael Schroeter

Stanislaw Krajewski

John C Reed

Mathias Bähr

Abstract

Full Text

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