Abstract

The goal of this COBRE is to develop a multi-disciplinary, highly interactive and collaborative Research Center focused on developing new strategies to facilitate CNS repair and regeneration. This COBRE brings together 5 presently non-funded Principal Investigators, 4 on the UofL faculty and one to be recruited, whose research focuses on various aspects of CNS injury and repair, from 4 Departments: Neurological Surgery, Anatomical Sciences & Neurobiology, Pediatrics, and Pharmacology & Toxicology. This COBRE represents a true Research Center, not a collection of individual projects, as the expertise of these Investigators is broad based and the success of individual projects will depend on strong collaborations with other Projects and Cores.
The Specific Aims of this COBRE are: 1. To develop successful independent research projects for each of the 5 Principal Investigators in the COBRE that will ultimately lead to extramurally funded R01 grants. 2. To establish the University of Louisville Center for CNS Injury and Repair, with multiple Core facilities to support all Investigators. The Center and its Core facilities would not be limited to the Investigators on this COBRE, but would be open to all UofL faculty with similar research interests. 3. Using the """"""""Faculty Expansion"""""""" provisions of this COBRE, we will recruit a strong junior investigator in the areas of neuroimmunology, neuroprotection, and/or apoptosis. This will be Project 5. 4. To facilitate collaborative research projects between the COBRE Principal Investigators as well as other UofL faculty that will lead to further extramural support. 5. To become a leading Center, recognized both nationally and internationally, in the field of CNS Injury and Repair, and develop a reputation that will attract graduate students, post-doctoral fellows, and additional faculty. 6. To develop new therapeutic approaches to the treatment of CNS injury that will ultimately be utilized clinically. The projects in this COBRE are: Project 1: Signaling pathways in neuronal susceptibility to hypoxia, Evelyne Gozal, Ph.D., PI, Project 2: Reconstructing locomoter circuitry after spinal cord injury, David S.K., Magnuson, Ph.D., Project 3: Adult human olfactory epithelium as a source of multi-potential stem cells for CNS repair, Fred J. Roisen, Ph.D., PI Project 4: Functional regeneration of sensory pathways after spinal cord injury, Stephen M. Onifer, Ph.D., PI.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Exploratory Grants (P20)
Project #
5P20RR015576-04
Application #
6619719
Study Section
Special Emphasis Panel (ZRR1-RCMI-2 (02))
Program Officer
Gorospe, Rafael
Project Start
2000-09-15
Project End
2005-06-30
Budget Start
2003-08-01
Budget End
2004-06-30
Support Year
4
Fiscal Year
2003
Total Cost
$1,663,041
Indirect Cost

  Institution

Name
University of Louisville
Department
Neurosurgery
Type
Schools of Medicine
DUNS #
057588857
City
Louisville
State
KY
Country
United States
Zip Code
40292

  Publications

Kuypers, Nicholas J; Bankston, Andrew N; Howard, Russell M et al. (2016) Remyelinating Oligodendrocyte Precursor Cell miRNAs from the Sfmbt2 Cluster Promote Cell Cycle Arrest and Differentiation. J Neurosci 36:1698-710
Myers, Scott A; Bankston, Andrew N; Burke, Darlene A et al. (2016) Does the preclinical evidence for functional remyelination following myelinating cell engraftment into the injured spinal cord support progression to clinical trials? Exp Neurol 283:560-72
Ward, P J; Herrity, A N; Harkema, S J et al. (2016) Training-Induced Functional Gains following SCI. Neural Plast 2016:4307694
May, Zacnicte; Fouad, Karim; Shum-Siu, Alice et al. (2015) Challenges of animal models in SCI research: Effects of pre-injury task-specific training in adult rats before lesion. Behav Brain Res 291:26-35
Jagadapillai, Rekha; Mellen, Nicholas M; Sachleben Jr, Leroy R et al. (2014) Ceftriaxone preserves glutamate transporters and prevents intermittent hypoxia-induced vulnerability to brain excitotoxic injury. PLoS One 9:e100230
Nielson, Jessica L; Guandique, Cristian F; Liu, Aiwen W et al. (2014) Development of a database for translational spinal cord injury research. J Neurotrauma 31:1789-99
Ward, Patricia J; Herrity, April N; Smith, Rebecca R et al. (2014) Novel multi-system functional gains via task specific training in spinal cord injured male rats. J Neurotrauma 31:819-33
Kuypers, Nicholas J; James, Kurtis T; Enzmann, Gaby U et al. (2013) Functional consequences of ethidium bromide demyelination of the mouse ventral spinal cord. Exp Neurol 247:615-22
Schultz, R L; Kullman, E L; Waters, R P et al. (2013) Metabolic adaptations of skeletal muscle to voluntary wheel running exercise in hypertensive heart failure rats. Physiol Res 62:361-9
Burke, Darlene A; Whittemore, Scott R; Magnuson, David S K (2013) Consequences of common data analysis inaccuracies in CNS trauma injury basic research. J Neurotrauma 30:797-805

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