Abstract

Autosomal dominant inheritance of mutations in PS1 and PS2 cause early-onset familial forms of AD. A series of neuropathological studies of humans and transgenic mice expressing FAD-linked PS1 have revealed that these mutant polypeptides likely cause AD by elevating production of amyloidogenic AB42 (43) species, thus fostering AB deposition. Despite the strengths of these conclusions, it is not clear that FAD-linked mutant PS1 exerts pathophysiological effects solely by promoting deposition of AB peptides. We propose investigations that address the function of PS1 and FAD-linked PS1 variants in neuronal physiology that are independent of AB42 production and deposition.
In Specific Aim 1, we propose a series of electrophysiological, pharmacological and imaging studies in cultured neurons from wt and PS1-deficient mice to identify the mechanism(s) that underlie our observations that PS1 influences glutamatergic neurotransmission at both pre-and post-synaptic sites.
In Specific Aim 2, we propose electrophysiological studies in hippocampal slices from transgenic mice expressing wt or FAD-linked mutant PS1 to assess the mechanism(s) underlying our demonstration that expression of mutant PS1 potentiates long-term potentiation (LTP) at Schaffer collateral CA1 synapses. In addition, we will examine LTP in hippocampal slices from mice with selective forebrain ablation of PS1, using a conditional gene knockout strategy.
In Specific Aim 3, we propose to test the hypothesis that expression of mutant PS1 alters the threshold for vulnerability to lesion-induced excitotoxicity, or other insults. For these studies, we will exploit a perforant path lesion paradigm to examine neuronal vulnerability in the entorhinal cortex of mice expressing wt or FAD-linked mutant PS1. In addition, we will extend our intriguing observation that dentate neurogenesis is markedly elevated following perforant path lesions and examine the influence of PS1 and mutant PS1 in these processes.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Project (R01)
Project #
5R01AG021494-04
Application #
6871239
Study Section
Special Emphasis Panel (ZAG1-ZIJ-9 (O1))
Program Officer
Snyder, Stephen D
Project Start
2002-05-01
Project End
2007-04-30
Budget Start
2005-05-01
Budget End
2006-04-30
Support Year
4
Fiscal Year
2005
Total Cost
$425,455
Indirect Cost

  Institution

Name
University of Chicago
Department
Biology
Type
Schools of Medicine
DUNS #
005421136
City
Chicago
State
IL
Country
United States
Zip Code
60637

  Publications

Zhang, Xulun; Yu, Chunjiang J; Sisodia, Sangram S (2015) The topology of pen-2, a ?-secretase subunit, revisited: evidence for a reentrant loop and a single pass transmembrane domain. Mol Neurodegener 10:39
Veeraraghavalu, Karthikeyan; Zhang, Can; Zhang, Xiaoqiong et al. (2014) Age-dependent, non-cell-autonomous deposition of amyloid from synthesis of ?-amyloid by cells other than excitatory neurons. J Neurosci 34:3668-73
Veeraraghavalu, Karthikeyan; Choi, Se Hoon; Zhang, Xiaoqiong et al. (2013) Endogenous expression of FAD-linked PS1 impairs proliferation, neuronal differentiation and survival of adult hippocampal progenitors. Mol Neurodegener 8:41
Veeraraghavalu, Karthikeyan; Sisodia, Sangram S (2013) Mutant presenilin 1 expression in excitatory neurons impairs enrichment-mediated phenotypes of adult hippocampal progenitor cells. Proc Natl Acad Sci U S A 110:9148-53
Zhang, Xulun; Garbett, Krassimira; Veeraraghavalu, Karthikeyan et al. (2012) A role for presenilins in autophagy revisited: normal acidification of lysosomes in cells lacking PSEN1 and PSEN2. J Neurosci 32:8633-48
Brunholz, Silke; Sisodia, Sangram; Lorenzo, Alfredo et al. (2012) Axonal transport of APP and the spatial regulation of APP cleavage and function in neuronal cells. Exp Brain Res 217:353-64
Veeraraghavalu, Karthikeyan; Choi, Se Hoon; Zhang, Xiaoqiong et al. (2010) Presenilin 1 mutants impair the self-renewal and differentiation of adult murine subventricular zone-neuronal progenitors via cell-autonomous mechanisms involving notch signaling. J Neurosci 30:6903-15
Zigmond, Michael J; Cameron, Judy L; Leak, Rehana K et al. (2009) Triggering endogenous neuroprotective processes through exercise in models of dopamine deficiency. Parkinsonism Relat Disord 15 Suppl 3:S42-5
Choi, Se Hoon; Veeraraghavalu, Karthikeyan; Lazarov, Orly et al. (2008) Non-cell-autonomous effects of presenilin 1 variants on enrichment-mediated hippocampal progenitor cell proliferation and differentiation. Neuron 59:568-80
Lazarov, Orly; Morfini, Gerardo A; Pigino, Gustavo et al. (2007) Impairments in fast axonal transport and motor neuron deficits in transgenic mice expressing familial Alzheimer's disease-linked mutant presenilin 1. J Neurosci 27:7011-20

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