Abstract

Neurons deprived of access to neurotrophic factors undergo programmed cell death (PCD). We and others have hypothesized that PCD is caused by the expression of a specific genetic program whose function is to bring about physiologically appropriate death. We have recently provided the first evidence for the increased expression of a specific gene in neurons undergoing PCD. That gene is cyclin D1, a molecule whose only known function is in progression through the Go-G1/S transition of the cell cycle. Based on this and other similarities of PCD with mitosis, we shall test the general hypothesis that neuronal PCD involves an aborted attempt of the cell to enter the cell cycle and the specific hypothesis that an increased expression of cyclin D1 us a critical event in neuronal PCD. Toward this objective, we shall further analyze NGF-deprived sympathetic neurons in vitro for expression of other cell cycle-related genes and for biochemical events normally associated with mitosis. We shall examine the expression of cell cycle-related genes in other cell types, thymocytes and prostate epithelium, undergoing PCD. We shall prepare specific cyclin D1 antibodies to examine the expression, posttranslational modification, and subcellular localization, of cyclin D1 in dying neurons. We shall also look for evidence for association of cyclin D1 with other proteins in dying neurons. We shall examine the expression and localization of cyclin D1 in vivo in neurons undergoing naturally occurring or experimentally induced PCD. Last, we shall utilize Herpes Simplex vectors to assess directly the role of cyclin D1, and other cell cycle-related genes in neuronal PCD. These studies should either prove or disprove the working hypotheses that cyclin D1 specifically is involved in neuronal PCD and that PCD represents an aborted attempt of the neuron to enter the cell cycle. The work will further our long-term goals of elucidating the molecular mechanism of neuronal PCD, of developing the means to manipulate the process pharmacologically, and of determining whether the inappropriate expression of PCD after the period of naturally occurring, physiologically appropriate, neuronal death might underlie human neurodegenerative conditions.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
2R01NS024679-08
Application #
2265309
Study Section
Neurology B Subcommittee 2 (NEUB)
Project Start
1987-04-01
Project End
1998-03-31
Budget Start
1994-04-15
Budget End
1995-03-31
Support Year
8
Fiscal Year
1994
Total Cost
Indirect Cost

  Institution

Name
Washington University
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
062761671
City
Saint Louis
State
MO
Country
United States
Zip Code
63130

  Publications

Werth, J L; Deshmukh, M; Cocabo, J et al. (2000) Reversible physiological alterations in sympathetic neurons deprived of NGF but protected from apoptosis by caspase inhibition or Bax deletion. Exp Neurol 161:203-11
Franklin, J L; Johnson, E M (1998) Control of neuronal size homeostasis by trophic factor-mediated coupling of protein degradation to protein synthesis. J Cell Biol 142:1313-24
Easton, R M; Johnson, E M; Creedon, D J (1998) Analysis of events leading to neuronal death after infection with E1-deficient adenoviral vectors. Mol Cell Neurosci 11:334-47
Easton, R M; Deckwerth, T L; Parsadanian, A S et al. (1997) Analysis of the mechanism of loss of trophic factor dependence associated with neuronal maturation: a phenotype indistinguishable from Bax deletion. J Neurosci 17:9656-66
Miller, T M; Moulder, K L; Knudson, C M et al. (1997) Bax deletion further orders the cell death pathway in cerebellar granule cells and suggests a caspase-independent pathway to cell death. J Cell Biol 139:205-17
Creedon, D J; Johnson, E M; Lawrence, J C (1996) Mitogen-activated protein kinase-independent pathways mediate the effects of nerve growth factor and cAMP on neuronal survival. J Biol Chem 271:20713-8
Deckwerth, T L; Elliott, J L; Knudson, C M et al. (1996) BAX is required for neuronal death after trophic factor deprivation and during development. Neuron 17:401-11
Miller, T M; Johnson Jr, E M (1996) Metabolic and genetic analyses of apoptosis in potassium/serum-deprived rat cerebellar granule cells. J Neurosci 16:7487-95
Deshmukh, M; Vasilakos, J; Deckwerth, T L et al. (1996) Genetic and metabolic status of NGF-deprived sympathetic neurons saved by an inhibitor of ICE family proteases. J Cell Biol 135:1341-54
Bullock, E D; Johnson Jr, E M (1996) Nerve growth factor induces the expression of certain cytokine genes and bcl-2 in mast cells. Potential role in survival promotion. J Biol Chem 271:27500-8

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