Abstract

HIV encephalitis is remarkable for neuronal damage and loss in the absence of significant HIV infection of neuroglial cells. Neuronal cell death is believed to be mediated by activated, HIV-infected macrophagesecreted products including chemokines, cytokines, neurotrophic factors (NTF), and quinolinic acid. Several of these factors including NTF have the ability to induce changes in the cell cycle regulatory machinery. We have observed changes in expression and subcellular localization of three key regulators of the cell cycle, pRb. E2F1, and p53, in models for HIV encephalitis (HIVE). This has led us to propose the hypothesis that neuronal degeneration observed in HIVE is caused by changes in activity of cell cycle machinery in terminally differentiated neurons. Activation of cytokine, chemokine, and neurotrophic factor receptors in non-neuronal systems results in second messenger cascade, which result in phosphorylation of pocket proteins like the retinoblastoma susceptibility gene product, pRb. Phosphorylation of these proteins leads to deregulation of proteins controlling gene expression, most notably E2F1. Since pRb, E2F1 and p53 control the two key pathways determining cell survival, we hypothesize that changes in activity of these proteins will alter neuronal viability. Using both retrospective autopsy studies and an in vitro model of HIVE, we will study the activity and expression of members of these two pathways and their effects on survival of neuronal and glial elements.
Our first aim focuses on determining the regulation of pRb and its family members by phosphorylation in response to macrophage secreted factors.
Specific Aim 2 will determine if E2F1 activity is altered by macrophage secreted factor signaling and study the impact of activated E2F1 on neuronal and glial survival. Finally specific aim 3 will address the contribution of p53 to neuronal and glial survival in response to macrophage secreted factors.
These specific aims will help define the role of cell cycle regulators in neuronal and glial survival during HIVE and define therapeutic targets to disrupt the molecular cascade leading to the associated neurodegenerative disease.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
3R01NS041202-01S1
Application #
6503798
Study Section
Special Emphasis Panel (ZRG1 (01))
Program Officer
Kerza-Kwiatecki, a P
Project Start
2001-02-01
Project End
2001-08-31
Budget Start
2001-02-01
Budget End
2001-08-31
Support Year
1
Fiscal Year
2001
Total Cost
$50,000
Indirect Cost

  Institution

Name
University of Pittsburgh
Department
Pathology
Type
Schools of Medicine
DUNS #
053785812
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213

  Publications

Jackson, Dan P; Ting, Jenhao H; Pozniak, Paul D et al. (2018) Identification and characterization of two novel alternatively spliced E2F1 transcripts in the rat CNS. Mol Cell Neurosci 92:1-11
Gannon, Patrick J; Akay-Espinoza, Cagla; Yee, Alan C et al. (2017) HIV Protease Inhibitors Alter Amyloid Precursor Protein Processing via ?-Site Amyloid Precursor Protein Cleaving Enzyme-1 Translational Up-Regulation. Am J Pathol 187:91-109
Zyskind, Jacob W; Wang, Ying; Cho, Giyong et al. (2015) E2F1 in neurons is cleaved by calpain in an NMDA receptor-dependent manner in a model of HIV-induced neurotoxicity. J Neurochem 132:742-55
Colacurcio, Daniel J; Zyskind, Jacob W; Jordan-Sciutto, Kelly L et al. (2015) Caspase-dependent degradation of MDMx/MDM4 cell cycle regulatory protein in amyloid ?-induced neuronal damage. Neurosci Lett 609:182-8
Ting, Jenhao H; Marks, David R; Schleidt, Stephanie S et al. (2014) Targeted gene mutation of E2F1 evokes age-dependent synaptic disruption and behavioral deficits. J Neurochem 129:850-63
Colacurcio, Daniel J; Yeager, Alyssa; Kolson, Dennis L et al. (2013) Calpain-mediated degradation of MDMx/MDM4 contributes to HIV-induced neuronal damage. Mol Cell Neurosci 57:54-62
Wang, Ying; Zyskind, Jacob W; Colacurcio, Daniel J et al. (2012) Differential roles for caspase-mediated and calpain-mediated cell death in 1- and 3-week-old rat cortical cultures. Neuroreport 23:1052-8
Akay, C; Lindl, K A; Shyam, N et al. (2012) Activation status of integrated stress response pathways in neurones and astrocytes of HIV-associated neurocognitive disorders (HAND) cortex. Neuropathol Appl Neurobiol 38:175-200
Akay, C; Lindl, K A; Wang, Y et al. (2011) Site-specific hyperphosphorylation of pRb in HIV-induced neurotoxicity. Mol Cell Neurosci 47:154-65
White, Michael G; Wang, Ying; Akay, Cagla et al. (2011) Parallel high throughput neuronal toxicity assays demonstrate uncoupling between loss of mitochondrial membrane potential and neuronal damage in a model of HIV-induced neurodegeneration. Neurosci Res 70:220-9

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