Abstract

Neuronal death in prion disorders is believed to result from a conformationally transformed, scrapie isoform (PrPSc) of the normal host prion protein (PrPC). The high correlation between PrPSc deposits and neurodegeneration has led to a cause and effect hypothesis. However, presence of neurodegeneration and transmission of prion diseases without detectable PrPSc suggest the presence of alternative mechanisms of neuronal death. Our long-term goal is to investigate potentially neurotoxic pathways of metabolism of normal and mutant PrP that initiate neurotoxicity without significant prpSC deposition. Recently, we have identified novel pathways of processing and turnover of mutant PrP with a stop codon at residue 145 (PrP'45), associated with a familial prion disorder. We believe that PrP'45 is neurotoxic through intracellular pathways. In particular, our data show that PrPi45 is degraded by the proteasomal pathway, and aggregates intracellularly. Surprisingly, a significant amount of PrP'45 is also rnistargeted to the nucleus. We hypothesize that cytotoxicity in this case is caused by perturbation of cellular metabolism by these unconventional pathways of PrP metabolism. Since fragments similar to PrP'45 are also generated by atypical processing of prpc and other mutant PrPs, the central goal of the present proposal is to analyze the cellular events leading to neurotoxicity by the abnormal accumulation of PrPt4s in the nucleus, and pathways of generation of similar PrP fragments in neuronal cells. In the first aim, we will identify specific nuclear localization signal(s) and the mechanism of transport of PrP'45 to the nucleus.
The second aim will focus on whether accumulated PrP in the nucleus alters transcriptional activity that is physiologically relevant. In the third aim, we will determine if rnistargeted PrP is bound to specific nuclear proteins, and whether this association is biologically significant, and finally, we will analyze the mechanism(s) of generation of PrP fragments similar to PrPt45 from prpc or other mutant PrPs, since these would cause neurotoxicity in a manner similar to PrP'45. The experiments designed will use a variety of cell- and molecular biology techniques. In vitro nuclear transport, cell viability assays, in vitro translation, co-immunoprecipitation, Western blots, confocal immunomicroscopy and cell sorting will be used for the studies proposed in specific aims 1 and 2.
For aims 3 and 4, Far Western analysis, electrophoretic mobility shift assay, in vitro transcriptional run-off assay, and differential mRNA display will be carried out. Our studies will provide a cell biological explanation for neurotoxicity of PrP that operates either concomitant with, or prior to PrPSc deposition, and help in developing strategies to disrupt these abnormal pathways of PrP metabolism.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
1R01NS039089-01A1
Application #
6131089
Study Section
Special Emphasis Panel (ZRG1-BDCN-1 (06))
Program Officer
Kerza-Kwiatecki, a P
Project Start
2000-09-01
Project End
2005-08-31
Budget Start
2000-09-01
Budget End
2001-08-31
Support Year
1
Fiscal Year
2000
Total Cost
$186,536
Indirect Cost

  Institution

Name
Case Western Reserve University
Department
Pathology
Type
Schools of Medicine
DUNS #
077758407
City
Cleveland
State
OH
Country
United States
Zip Code
44106

  Publications

Singh, Ajay; Mohan, Maradumane L; Isaac, Alfred Orina et al. (2009) Prion protein modulates cellular iron uptake: a novel function with implications for prion disease pathogenesis. PLoS One 4:e4468
Singh, Ajay; Isaac, Alfred Orina; Luo, Xiu et al. (2009) Abnormal brain iron homeostasis in human and animal prion disorders. PLoS Pathog 5:e1000336
Singh, Ajay; Kong, Qingzhong; Luo, Xiu et al. (2009) Prion protein (PrP) knock-out mice show altered iron metabolism: a functional role for PrP in iron uptake and transport. PLoS One 4:e6115
Gu, Yaping; Singh, Ajay; Bose, Sharmila et al. (2008) Pathogenic mutations in the glycosylphosphatidylinositol signal peptide of PrP modulate its topology in neuroblastoma cells. Mol Cell Neurosci 37:647-56
Gu, Yaping; Verghese, Susamma; Bose, Sharmila et al. (2007) Mutant prion protein D202N associated with familial prion disease is retained in the endoplasmic reticulum and forms 'curly'intracellular aggregates. J Mol Neurosci 32:90-6
Basu, Subhabrata; Mohan, Maradumane L; Luo, Xiu et al. (2007) Modulation of proteinase K-resistant prion protein in cells and infectious brain homogenate by redox iron: implications for prion replication and disease pathogenesis. Mol Biol Cell 18:3302-12
Gu, Yaping; Luo, Xiu; Basu, Subhabrata et al. (2006) Cell-specific metabolism and pathogenesis of transmembrane prion protein. Mol Cell Biol 26:2697-715
Gu, Yaping; Singh, Neena (2004) Doxycycline and protein folding agents rescue the abnormal phenotype of familial CJD H187R in a cell model. Brain Res Mol Brain Res 123:37-44
Mishra, Ravi Shankar; Basu, Subhabrata; Gu, Yaping et al. (2004) Protease-resistant human prion protein and ferritin are cotransported across Caco-2 epithelial cells: implications for species barrier in prion uptake from the intestine. J Neurosci 24:11280-90
Mishra, Ravi Shankar; Bose, Sharmila; Gu, Yaping et al. (2003) Aggresome formation by mutant prion proteins: the unfolding role of proteasomes in familial prion disorders. J Alzheimers Dis 5:15-23

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