Chronic glial activation, neurodegeneration, and APP immunoreactive deposits following acute administration of double-stranded RNA
Chronic glial activation, neurodegeneration, and APP immunoreactive deposits following acute administration of double-stranded RNA
Several neurodegenerative disorders, including Alzheimer's and Parkinson's diseases, are associated with immunocompetent microglia, leading to the suggestion that chronic glial-mediated inflammation contributes to the neurodegeneration seen in these diseases. Little direct evidence supports this hypothesis, and no suitable rodent models exist that do not involve the use of blunt trauma or ischaemia, events that are infrequently encountered in the human disease state. In the present study, we report that administration of double-stranded RNA, a classical inducer of interferon-? (IFN-?), causes rapid and persistent activation of microglia and astrocytes, as well as induction of interleukin-?1 (IL-?) and nitric oxide synthase. In close temporal succession to glial activation, there is neurodegeneration, with neuron loss involving apoptosis in selected brain regions including the septal nucleus, hippocampus, cortex and thalamus, along with hippocampal atrophy. This neuronal loss is accompanied by punctate deposits of material that are immunoreactive for amyloid precursor protein, ?-amyloid peptide (A?), and apolipoprotein E. The findings may have clinical relevance, since the administration of the nonsteroidal antiinflammatory agent (NSAID) ibuprofen markedly reduces the neurodegeneration observed in the absence of significant glial inhibition. These findings may be relevant to the pathogenesis of Alzheimer's disease in particular, and to other neurodegenerative diseases involving inflammation.
microglia, astrocytes, apoptosis, inflammation, amyloid precursor protein, rat
1-12
Melton, Lisa M.
42834e30-04c6-4b96-b3b1-fbe7615fa385
Keith, Alexander B.
3350beba-5cb4-45f3-893b-fb687086bf27
Davis, Sue
fbc00485-23b4-44a9-bfff-3ee0cfe4ade2
Oakley, Arthur E.
f1ec28ab-f499-48fd-8d78-7d67afcc258b
Edwardson, James A.
3ef52de8-6b5f-4fa3-95aa-e75d8b819979
Morris, Christopher M.
e5a286e3-30c6-401c-9c51-3a9d0a359423
October 2003
Melton, Lisa M.
42834e30-04c6-4b96-b3b1-fbe7615fa385
Keith, Alexander B.
3350beba-5cb4-45f3-893b-fb687086bf27
Davis, Sue
fbc00485-23b4-44a9-bfff-3ee0cfe4ade2
Oakley, Arthur E.
f1ec28ab-f499-48fd-8d78-7d67afcc258b
Edwardson, James A.
3ef52de8-6b5f-4fa3-95aa-e75d8b819979
Morris, Christopher M.
e5a286e3-30c6-401c-9c51-3a9d0a359423
Melton, Lisa M., Keith, Alexander B., Davis, Sue, Oakley, Arthur E., Edwardson, James A. and Morris, Christopher M.
(2003)
Chronic glial activation, neurodegeneration, and APP immunoreactive deposits following acute administration of double-stranded RNA.
GLIA, 44 (1), .
(doi:10.1002/glia.10276).
Abstract
Several neurodegenerative disorders, including Alzheimer's and Parkinson's diseases, are associated with immunocompetent microglia, leading to the suggestion that chronic glial-mediated inflammation contributes to the neurodegeneration seen in these diseases. Little direct evidence supports this hypothesis, and no suitable rodent models exist that do not involve the use of blunt trauma or ischaemia, events that are infrequently encountered in the human disease state. In the present study, we report that administration of double-stranded RNA, a classical inducer of interferon-? (IFN-?), causes rapid and persistent activation of microglia and astrocytes, as well as induction of interleukin-?1 (IL-?) and nitric oxide synthase. In close temporal succession to glial activation, there is neurodegeneration, with neuron loss involving apoptosis in selected brain regions including the septal nucleus, hippocampus, cortex and thalamus, along with hippocampal atrophy. This neuronal loss is accompanied by punctate deposits of material that are immunoreactive for amyloid precursor protein, ?-amyloid peptide (A?), and apolipoprotein E. The findings may have clinical relevance, since the administration of the nonsteroidal antiinflammatory agent (NSAID) ibuprofen markedly reduces the neurodegeneration observed in the absence of significant glial inhibition. These findings may be relevant to the pathogenesis of Alzheimer's disease in particular, and to other neurodegenerative diseases involving inflammation.
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Published date: October 2003
Keywords:
microglia, astrocytes, apoptosis, inflammation, amyloid precursor protein, rat
Identifiers
Local EPrints ID: 60811
URI: http://eprints.soton.ac.uk/id/eprint/60811
ISSN: 0894-1491
PURE UUID: e416a692-a26b-4904-920a-981bd6e5ad71
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Date deposited: 30 Sep 2008
Last modified: 15 Mar 2024 11:20
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Contributors
Author:
Lisa M. Melton
Author:
Alexander B. Keith
Author:
Sue Davis
Author:
Arthur E. Oakley
Author:
James A. Edwardson
Author:
Christopher M. Morris
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