This is an application for continued support for studies of cell death in the nervous system. The proposal is concerned mainly with the mechanism of action and the therapeutic potential of a cell survival peptide that was identified and synthesized during the previous period of support. This peptide, called Y-P30 because of its amino acid composition, has several interesting and potentially important properties: 1) it promotes the survival of cell lines in vitro and of cortical neurons in vivo after application to cerebral cortex lesions; 2) it inhibits the differentiation of a promonocyte cell line (HL-60) in vitro and CNS monocyte derivatives (macrophages/microglia) in vivo in the cortical lesion model; 3) it binds specifically to membrane-associated calreticulin, a rediscovered calcium binding protein that may be important for Ca signaling associated with integrins and other ligands, including those related to neurotransmission; 4) the peptide may destabilize the calreticulin at membranes via its phosphatase activity causing calreticulin release from cells; 5) intravenous-delivery of Y-P30 inhibits macrophages/microglia cells, promotes neuron survival, and causes calreticulin release from cortical cells in rats with cortical lesions, and in unoperated rats. A model has therefore evolved in which Y-P30 acts to inhibit aspects of the cascade of inflammation-neuron death that characterizes several disorders of primary neuronal degeneration. The proposed experiments will further explore mechanisms related to Y-P30 biological activities, especially as these relate to calreticulin function in the nervous system. First, Y-P30's effects on integrin-mediated functions will be tested in an in vitro chemotaxis chamber with brain and peritoneal macrophages. Second the effects of Y- P30 stimulated release of calreticulin on complement-mediated mechanisms (calreticulin as a Clq receptor homologue) will be determined in human neuroblastoma cells 5Y5Y. Third, Y-P 30 will be tested for its effects on Ca2+ handling in resting 5Y5Y cells and after stimulation with bradykinin. A major part of this research will involve further comparisons of direct application of Y-P30 to intravenous delivery in order to determine dosages and potential for long term and retrograde/transneuronal survival effects in the visual and somatosensory systems. Antibodies to the peptide and to brain calreticulin will be made for use in these studies as well as to investigate the possibility of endogenous peptide like activity in the CNS. It is expected that these experiments will provide further insights into mechanisms and potential therapies for neuron degeneration after CNS injury and in nervous system diseases.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
3R01NS016487-19S1
Application #
6802530
Study Section
Special Emphasis Panel (ZRG1)
Program Officer
Tagle, Danilo A
Project Start
1980-07-01
Project End
2004-08-31
Budget Start
2001-09-01
Budget End
2004-08-31
Support Year
19
Fiscal Year
2003
Total Cost
$25,000
Indirect Cost
Name
Drexel University
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
002604817
City
Philadelphia
State
PA
Country
United States
Zip Code
19104
Cunningham, Timothy J; Greenstein, Jeffrey I; Loewenstern, Joshua et al. (2015) Anti-inflammatory peptide regulates the supply of heat shock protein 70 monomers: implications for aging and age-related disease. Rejuvenation Res 18:136-44
Cunningham, Timothy J; Souayah, Nizar; Jameson, Bradford et al. (2004) Systemic treatment of cerebral cortex lesions in rats with a new secreted phospholipase A2 inhibitor. J Neurotrauma 21:1683-91
Cunningham, Timothy J; Jing, Huiyan; Akerblom, Ingrid et al. (2002) Identification of the human cDNA for new survival/evasion peptide (DSEP): studies in vitro and in vivo of overexpression by neural cells. Exp Neurol 177:32-9
Cunningham, T J; Jing, H; Wang, Y et al. (2000) Calreticulin binding and other biological activities of survival peptide Y-P30 including effects of systemic treatment of rats. Exp Neurol 163:457-68
Cunningham, T J; Hodge, L; Speicher, D et al. (1998) Identification of a survival-promoting peptide in medium conditioned by oxidatively stressed cell lines of nervous system origin. J Neurosci 18:7047-60
Sanner, C A; Cunningham, T J; Goldberger, M E (1994) NMDA receptor blockade rescues Clarke's and red nucleus neurons after spinal hemisection. J Neurosci 14:6472-80
Haun, F; Cunningham, T J (1993) Recovery of frontal cortex-mediated visual behaviors following neurotrophic rescue of axotomized neurons in medial frontal cortex. J Neurosci 13:614-22
Eagleson, K L; Cunningham, T J; Haun, F (1992) Rescue of both rapidly and slowly degenerating neurons in the dorsal lateral geniculate nucleus of adult rats by a cortically derived neuron survival factor. Exp Neurol 116:156-62
Milligan, C E; Levitt, P; Cunningham, T J (1991) Brain macrophages and microglia respond differently to lesions of the developing and adult visual system. J Comp Neurol 314:136-46
Milligan, C E; Cunningham, T J; Levitt, P (1991) Differential immunochemical markers reveal the normal distribution of brain macrophages and microglia in the developing rat brain. J Comp Neurol 314:125-35

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