The underlying hypothesis of this Program Project application is that bone marrow stromal cells (MSCs) delivered to brain via an intravenous route can be employed to improve functional outcome after neural injury, specifically, stroke and traumatic brain injury. Three complementary projects and two supporting cores are proposed: Project 1 Treatment of Stroke with MSCs; Project 2/Treatment of Traumatic Brain Injury with MSCs; Project 3/Analysis of MSC Interaction with Tissue. Core A provides the administrative and biostatistical support for the Program Project, and Core B provides the outcome measures of function and behavior after stroke and trauma, measures of cellular and molecular responses to injury and treatment, and the preparation of cells to be employed for treatment. Projects 1 and 2, will determine the optimal means of applying MSC therapy to experimental models in the rat and the mouse of stroke (young and old animals, male, female) and traumatic brain injury (young male), respectively, with safety as an overriding consideration. The hypothesis to be tested is that MSCs in brain evoke the production of trophic factors that alter injured brain to promote functional benefit. Marrow stromal ceils administered to animals intravenously find their way to ischemic or damaged cerebral tissue and foster functional improvement. Thus, under the clinically relevant conditions of intravenous administration, Projects 1 (stroke) and 2 (traumatic brain injury) will optimize and define the boundaries of therapeutic intervention, measure specific neurotrophic factors and structural and morphological changes in treated brain and clarify how the injured brain responds to MSC treatment. Project 3, will employ antibodies, and genetically modified mice and an array of novel technologies to investigate the mechanisms by which treatment of stroke and trauma with MSCs provides functional improvement. A specific set of neurotrophic factors i.e. VEGF, bFGF and BDNF are identified (in Projects I and 2) as key mediators of MSC therapeutic benefit. In Project 3, these factors are manipulated in the MSC treated mouse to determine their roles in MSC therapy of stroke and trauma, with an emphasis on how these factors induced in injured tissue by MSC treatment, promote plasticity and neuroprotection. The long-term goal of this Program Project application is to translate our finding of therapeutic benefit after treatment of experimental stroke and traumatic brain injury with MSCs to the patient.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Program Projects (P01)
Project #
5P01NS042345-05
Application #
7263882
Study Section
Special Emphasis Panel (ZNS1-SRB-R (01))
Program Officer
Owens, David F
Project Start
2003-07-15
Project End
2009-05-31
Budget Start
2007-06-01
Budget End
2009-05-31
Support Year
5
Fiscal Year
2007
Total Cost
$1,208,801
Indirect Cost
Name
Henry Ford Health System
Department
Type
DUNS #
073134603
City
Detroit
State
MI
Country
United States
Zip Code
48202
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Ning, Ruizhuo; Xiong, Ye; Mahmood, Asim et al. (2011) Erythropoietin promotes neurovascular remodeling and long-term functional recovery in rats following traumatic brain injury. Brain Res 1384:140-50
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Jiang, Quan; Qu, Changsheng; Chopp, Michael et al. (2011) MRI evaluation of axonal reorganization after bone marrow stromal cell treatment of traumatic brain injury. NMR Biomed 24:1119-28
Qu, Changsheng; Mahmood, Asim; Liu, Xian Shuang et al. (2011) The treatment of TBI with human marrow stromal cells impregnated into collagen scaffold: functional outcome and gene expression profile. Brain Res 1371:129-39

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