Principal Investigator/Program Director (Last, first, middle): DeGracia, Donald, James RESEARCH &RELATED Other Project Information 1. * Are Human Subjects Involved? m Yes l No 1.a. If YES to Human Subjects Is the IRB review Pending? m Yes m No IRB Approval Date: Exemption Number: 1 2 3 4 5 6 Human Subject Assurance Number 2. * Are Vertebrate Animals Used? l Yes m No 2.a. If YES to Vertebrate Animals Is the IACUC review Pending? m Yes l No IACUC Approval Date: 03-30-2006 Animal Welfare Assurance Number A3310-01 3. * Is proprietary/privileged information m Yes l No included in the application? 4.a.* Does this project have an actual or potential impact on m Yes l No the environment? 4.b. If yes, please explain: 4.c. If this project has an actual or potential impact on the environment, has an exemption been authorized or an environmental assessment (EA) or environmental impact statement (EIS) been performed? m Yes m No 4.d. If yes, please explain: 5.a.* Does this project involve activities outside the U.S. or m Yes l No partnership with International Collaborators? 5.b. If yes, identify countries: 5.c. Optional Explanation: 6. * Project Summary/Abstract 7588-a6._abstract.pdf Mime Type: application/pdf 7. * Project Narrative 4028-a7_Project_Narrative.pdf Mime Type: application/pdf 8. Bibliography &References Cited 7817-a8._Bibliography.pdf Mime Type: application/pdf 9. Facilities &Other Resources 5350-a9._Don_resources_A2.pdf Mime Type: application/pdf 10. Equipment 8046-a10._Don_Equipment_A2.pdf Mime Type: application/pdf Tracking Number: Other Information Page 5 OMB Number: 4040-0001 Expiration Date: 04/30/2008 Principal Investigator/Program Director (Last, first, middle): DeGracia, Donald, James ABSTRACT Ischemia and reperfusion (I/R) injury of the brain occurs following resuscitation from cardiac arrest and stroke, and results in high morbidity and mortality. There is no clinically effective treatment because of an incomplete understanding of the cellular injury cascades leading to cell death. The long- term goal of my laboratory is to investigate the mechanisms of neuronal death caused by brain I/R to allow for the development of effective treatments. There is a striking correlation between protein synthesis inhibition and the selective death of hippocampal CA1 pyramidal neurons following transient global brain I/R. The mechanism of this irreversible translation arrest and its relationship to cell death is unknown. Stress granules are cytoplasmic particles that sequester inactive translational machinery during cellular stress. We present compelling evidence that stress granule alterations are central to persistent translation arrest in ischemic-vulnerable hippocampal CA1 neurons.
Our Specific Aims are: 1. To investigate the mechanism of irreversible translation arrest. We will analyze the functional composition of stress granules utilizing complementary microscopic and biochemical approaches. We will compare stress granules in ischemic resistant CA3 and ischemic vulnerable CA1 from early reperfusion to the point of cell death of vulnerable neurons. 2. To identify the effect of ischemic preconditioning (IPC) on stress granule composition and behavior in reperfused neurons. IPC prevents both cell death and persistent translation arrest in vulnerable CA1 neurons. We will assess the effect of IPC on stress granule behavior and composition, protein synthesis rates, and cell death in CA1 neurons. 3. To show that persistent translation arrest is causally related to neuronal death following brain I/R. Antibiotic protein synthesis inhibitors will be used to predictably alter stress granules in reperfused hippocampal neurons, and we will examine the effect on protein synthesis rates, stress granule composition and behavior and cell death in reperfused hippocampal neurons. By providing an integrated examination of the relationship between persistent translation arrest and I/R-induced cell death, our Specific Aims address a problem that has been a barrier to progress in the field: how irreversible inhibition of protein synthesis in reperfused neurons causes cell death. Project Description Page 6

National Institute of Health (NIH)
National Institute of Neurological Disorders and Stroke (NINDS)
Research Project (R01)
Project #
Application #
Study Section
Brain Injury and Neurovascular Pathologies Study Section (BINP)
Program Officer
Jacobs, Tom P
Project Start
Project End
Budget Start
Budget End
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Fiscal Year
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Wayne State University
Schools of Medicine
United States
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Lewis, Monique K; Jamison, Jill T; Dunbar, Joseph C et al. (2013) mRNA redistribution during permanent focal cerebral ischemia. Transl Stroke Res 4:604-17
Szymanski, Jeffrey J; Wang, Haihui; Jamison, Jill T et al. (2013) HuR function and translational state analysis following global brain ischemia and reperfusion. Transl Stroke Res 4:589-603
DeGracia, Donald J (2013) A program for solving the brain ischemia problem. Brain Sci 3:460-503
Szymanski, Jeffrey J; Jamison, Jill T; DeGracia, Donald J (2012) Texture analysis of poly-adenylated mRNA staining following global brain ischemia and reperfusion. Comput Methods Programs Biomed 105:81-94
DeGracia, Donald J; Huang, Zhi-Feng; Huang, Sui (2012) A nonlinear dynamical theory of cell injury. J Cereb Blood Flow Metab 32:1000-13
Jamison, J T; Szymanski, J J; Degracia, D J (2011) Organelles do not colocalize with mRNA granules in post-ischemic neurons. Neuroscience 199:394-400
Jamison, Jill T; Lewis, Monique K; Kreipke, Christian W et al. (2011) Polyadenylated mRNA staining reveals distinct neuronal phenotypes following endothelin 1, focal brain ischemia, and global brain ischemia/ reperfusion. Neurol Res 33:145-61
Degracia, Donald J (2010) Towards a dynamical network view of brain ischemia and reperfusion. Part I: background and preliminaries. J Exp Stroke Transl Med 3:59-71
Degracia, Donald J (2010) Towards a dynamical network view of brain ischemia and reperfusion. Part III: therapeutic implications. J Exp Stroke Transl Med 3:90-103
Degracia, Donald J (2010) Towards a dynamical network view of brain ischemia and reperfusion. Part II: a post-ischemic neuronal state space. J Exp Stroke Transl Med 3:72-89

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