Brain region specific pre-synaptic and post-synaptic degeneration are early components of neuropathology in prion disease
Brain region specific pre-synaptic and post-synaptic degeneration are early components of neuropathology in prion disease
Synaptic abnormalities, one of the key features of prion disease pathogenesis, gives rise to functional deficits and contributes to the devastating clinical outcome. The synaptic compartment is the first to succumb in several neurodegenerative diseases linked with protein misfolding but the mechanisms underpinning this are poorly defined. In our current study we document that a focal intrahippocampal injection of the mouse-adapted 22L scrapie strain produces a complex, region-specific pathology in the brain. Our findings reveal that early synaptic changes in the stratum radiatum of the hippocampus, identical to those observed with the ME7 strain, occur when 22L strain is introduced into the hippocampus. The pathology was defined by degenerating Type I pre-synaptic elements progressively enveloped by the post-synaptic density of the dendritic spine. In contrast, the pathology in the cerebellum suggested that dendritic disintegration rather than pre-synaptic abnormalities dominate the early degenerative changes associated with the Purkinje cells. Indeed, both of the major synaptic inputs into the cerebellum, which arise from the parallel and climbing fibers, remained intact even at late stage disease. Immunolabeling with pathway selective antibodies reinforced these findings. These observations demonstrate that neuronal vulnerability to pathological protein misfolding is strongly dependent on the structure and function of the target neurons.
Šišková, Zuzana
517d75b4-f152-4232-9e0a-2bc600ac022f
Reynolds, Richard A.
759e6564-c400-49c4-b245-2e6a85583947
O'Connor, Vincent
8021b06c-01a0-4925-9dde-a61c8fe278ca
Perry, V. Hugh
8f29d36a-8e1f-4082-8700-09483bbaeae4
30 January 2013
Šišková, Zuzana
517d75b4-f152-4232-9e0a-2bc600ac022f
Reynolds, Richard A.
759e6564-c400-49c4-b245-2e6a85583947
O'Connor, Vincent
8021b06c-01a0-4925-9dde-a61c8fe278ca
Perry, V. Hugh
8f29d36a-8e1f-4082-8700-09483bbaeae4
Šišková, Zuzana, Reynolds, Richard A., O'Connor, Vincent and Perry, V. Hugh
(2013)
Brain region specific pre-synaptic and post-synaptic degeneration are early components of neuropathology in prion disease.
PLoS ONE, 8 (1), [e55004].
(doi:10.1371/journal.pone.0055004).
Abstract
Synaptic abnormalities, one of the key features of prion disease pathogenesis, gives rise to functional deficits and contributes to the devastating clinical outcome. The synaptic compartment is the first to succumb in several neurodegenerative diseases linked with protein misfolding but the mechanisms underpinning this are poorly defined. In our current study we document that a focal intrahippocampal injection of the mouse-adapted 22L scrapie strain produces a complex, region-specific pathology in the brain. Our findings reveal that early synaptic changes in the stratum radiatum of the hippocampus, identical to those observed with the ME7 strain, occur when 22L strain is introduced into the hippocampus. The pathology was defined by degenerating Type I pre-synaptic elements progressively enveloped by the post-synaptic density of the dendritic spine. In contrast, the pathology in the cerebellum suggested that dendritic disintegration rather than pre-synaptic abnormalities dominate the early degenerative changes associated with the Purkinje cells. Indeed, both of the major synaptic inputs into the cerebellum, which arise from the parallel and climbing fibers, remained intact even at late stage disease. Immunolabeling with pathway selective antibodies reinforced these findings. These observations demonstrate that neuronal vulnerability to pathological protein misfolding is strongly dependent on the structure and function of the target neurons.
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Published date: 30 January 2013
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Local EPrints ID: 479128
URI: http://eprints.soton.ac.uk/id/eprint/479128
ISSN: 1932-6203
PURE UUID: 190f1b61-f1e3-4c7c-8354-80b6bcb54599
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Date deposited: 20 Jul 2023 16:36
Last modified: 17 Mar 2024 02:50
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Author:
Zuzana Šišková
Author:
Richard A. Reynolds
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