Abstract

One molecule known to initiate programmed cell death in a variety of cell types in normal and pathologic conditions is the cell-surface receptor Fas. Fas is activated by another membrane protein, the Fas-ligand (FasL). Data from our and other laboratories demonstrate that Fas expression is increased and caspase-8 is cleaved and activated after trauma both in rodent models and in human TBI specimens. We have used two endogenous molecules that inhibit Fas-mediated cell death, Bcl-xL and cFLIP-L, to develop novel means of inhibiting Fas-mediated cell death. Therefore, the hypothesis to betested is that Fasis activated by FasL after trauma and initiates programmed cell death of neurons and worsens functional outcome. The following specific aims will be addressed:
Aim 1. Test whether FasL function contributes to neuronal death and behavioral dysfunction after controlled cortical impact (CCI) in vivo by testing mice with a loss-of-function mutation in FasL (gld). Determine how the loss of FasL function effects the downstream events that execute programmed cell death afterCCI.
Aim 2. Test whether the Fas pathway contributes to neuronal death after CCI in vivo by overexpression of cFLIP-L, a dominant negative inhibitor of Fas-mediated cell death, using an adeno- associated viral (AAV) vector.
Aim 3. Test whether overexpression of Bcl-xL in neurons by systemic infusion of Bcl-xL-TAT fusion protein prior to and after injury protects mouse brain againstCCI.
Aim 4. Determine if changes in Fas,FasL, Bid and caspase-8 occur in brain and CSF samples from patients with TBI and if these changes correlate with long-term outcome. Determine if increased expression of Fas is associated with (3-amyloid (Af3) deposition. The broad long-term objective of this project is to elucidate the molecular mechanisms of neuronal cell death after trauma by studying the role of the cell-death receptor Fas and related death-regulated gene products. Thus, this project may contribute to a better understanding of not only the mechanisms of neuronal cell death in TBI, but also suggest new treatment approaches.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Specialized Center (P50)
Project #
5P50NS030318-15
Application #
7551874
Study Section
National Institute of Neurological Disorders and Stroke Initial Review Group (NSD)
Project Start
Project End
Budget Start
2007-07-01
Budget End
2008-06-30
Support Year
15
Fiscal Year
2007
Total Cost
$153,206
Indirect Cost

  Institution

Name
University of Pittsburgh
Department
Type
DUNS #
004514360
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213

  Publications

Ikonomovic, Milos D; Mi, Zhiping; Abrahamson, Eric E (2017) Disordered APP metabolism and neurovasculature in trauma and aging: Combined risks for chronic neurodegenerative disorders. Ageing Res Rev 34:51-63
Osier, Nicole D; Bales, James W; Pugh, Bunny et al. (2017) Variation in PPP3CC Genotype Is Associated with Long-Term Recovery after Severe Brain Injury. J Neurotrauma 34:86-96
Jackson, Edwin K; Kotermanski, Shawn E; Menshikova, Elizabeth V et al. (2017) Adenosine production by brain cells. J Neurochem 141:676-693
Willyerd, F Anthony; Empey, Philip E; Philbrick, Ashley et al. (2016) Expression of ATP-Binding Cassette Transporters B1 and C1 after Severe Traumatic Brain Injury in Humans. J Neurotrauma 33:226-31
Janata, Andreas; Magnet, Ingrid A M; Uray, Thomas et al. (2014) Regional TNF? mapping in the brain reveals the striatum as a neuroinflammatory target after ventricular fibrillation cardiac arrest in rats. Resuscitation 85:694-701
Drabek, Tomas; Janata, Andreas; Wilson, Caleb D et al. (2014) Minocycline attenuates brain tissue levels of TNF-? produced by neurons after prolonged hypothermic cardiac arrest in rats. Resuscitation 85:284-91
Alexander, Sheila A; Ren, Dianxu; Gunn, Scott R et al. (2014) Interleukin 6 and apolipoprotein E as predictors of acute brain dysfunction and survival in critical care patients. Am J Crit Care 23:49-57
Conley, Yvette P; Okonkwo, David O; Deslouches, Sandra et al. (2014) Mitochondrial polymorphisms impact outcomes after severe traumatic brain injury. J Neurotrauma 31:34-41
Abrahamson, Eric E; Foley, Lesley M; Dekosky, Steven T et al. (2013) Cerebral blood flow changes after brain injury in human amyloid-beta knock-in mice. J Cereb Blood Flow Metab 33:826-33
Cousar, J'mir L; Conley, Yvette P; Willyerd, F Anthony et al. (2013) Influence of ATP-binding cassette polymorphisms on neurological outcome after traumatic brain injury. Neurocrit Care 19:192-8

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