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Scrapie‐specific neuronal lesions are independent of neuronal PrP expression
Author(s) -
Jeffrey Martin,
Goodsir Caroline M.,
Race Richard E.,
Chesebro Bruce
Publication year - 2004
Publication title -
annals of neurology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 4.764
H-Index - 296
eISSN - 1531-8249
pISSN - 0364-5134
DOI - 10.1002/ana.20093
Subject(s) - scrapie , neuropil , pathogenesis , biology , neurodegeneration , hamster , extracellular , genetically modified mouse , pathology , neuroscience , astrocyte , transgene , microbiology and biotechnology , immunology , disease , prion protein , central nervous system , medicine , gene , genetics
In the transmissible spongiform encephalopathies (TSE), accumulation of the abnormal disease‐specific prion protein is associated with neurodegeneration. Previous data suggested that abnormal prion protein (PrP) could induce neuronal pathology only when neurons expressed the normal form of PrP, but conflicting evidence also has been reported. Understanding whether neuronal PrP expression is required for TSE neuropathological damage in vivo is essential for determining the mechanism of TSE pathogenesis. Therefore, these experiments were designed to study scrapie pathogenesis in vivo in the absence of neuronal PrP expression. Hamster scrapie (strain 263K) was used to infect transgenic mice expressing hamster PrP in the brain only in astrocytes. These mice previously were shown to develop clinical scrapie, but it was unclear whether the brain pathology was caused by damage to astrocytes, neurons, or other cell types. In this electron microscopic study, neurons demonstrated TSE‐specific pathology despite lacking PrP expression. Abnormal PrP was identified around astrocytes, primarily in the extracellular spaces of the neuropil, but astrocytes showed only reactive changes and no damage. Therefore, in this model the pathogenesis of the disease appeared to involve neuronal damage associated with extracellular astrocytic accumulation of abnormal PrP acting upon nearby PrP‐negative neurons or triggering the release of non‐PrP neurotoxic factors from astrocytes.

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