Induction of hyperphosphorylated tau in living slices of rat hippocampal formation and subsequent detection using an ELISA
Induction of hyperphosphorylated tau in living slices of rat hippocampal formation and subsequent detection using an ELISA
Although hyperphosphorylated tau is an established feature of Alzheimer's Disease, its role in the disease process is poorly understood, partly because of lack of suitable animal models. We describe the use of living slices of rat hippocampal formation to study tau phosphorylation. Using the AT8 antibody in an ELISA, phosphorylated tau was detected in freshly frozen slices and it increased significantly in slices that were incubated in an electrophysiological recording chamber; the amount detected was greatest when the homogenisation buffer contained phosphatase and kinase inhibitors. The phosphorylated tau content of the slices increased significantly after exposure to the phosphatase 1 and 2A inhibitor okadaic acid (OA) -1.5 M. Electrophysiological recordings confirmed that slices were alive and that OA had no acute toxic effect. In control slices phosphorylated tau, detected immunohistochemically, was mainly in the somatodendritic compartment of neurones; in OA treated slices, there was an apparent decrease in somatodendritic AT8 staining and an increase in neuropil staining. Our system enables the induction of hyperphosphorylated tau within living slices, in an experimental environment that can be used to study the biological consequences of such a change, and may therefore help further our understanding of the significance of hyperphosphorylated tau in Alzheimer's Disease.
Tau protein, Phosphorylation, hippocampus, histological section, Okadaic acid, preparation, Alzheimer disease, rat, brain (vertebrata), central nervous system, methodology, nervous system diseases, central nervous system disease, Cerebral disorder, Degenerative disease, Rodentia, Mammalia, Vertebrata
15-25
Mudher, A.K.
ce0ccb35-ac49-4b6c-92b4-8dd5e78ac119
Woolley, S.T.
2fca6a92-2b40-4e08-b74d-34a6aa64aa10
Perry, V.H.
6bfbe108-cb31-40bf-846e-edfe718dcdaa
Greene, J.R.T.
b7eea969-7be7-49f0-8788-5df4f5bab21e
1 April 1999
Mudher, A.K.
ce0ccb35-ac49-4b6c-92b4-8dd5e78ac119
Woolley, S.T.
2fca6a92-2b40-4e08-b74d-34a6aa64aa10
Perry, V.H.
6bfbe108-cb31-40bf-846e-edfe718dcdaa
Greene, J.R.T.
b7eea969-7be7-49f0-8788-5df4f5bab21e
Mudher, A.K., Woolley, S.T., Perry, V.H. and Greene, J.R.T.
(1999)
Induction of hyperphosphorylated tau in living slices of rat hippocampal formation and subsequent detection using an ELISA.
Journal of Neuroscience Methods, 88 (1), .
(doi:10.1016/S0165-0270(99)00006-0).
Abstract
Although hyperphosphorylated tau is an established feature of Alzheimer's Disease, its role in the disease process is poorly understood, partly because of lack of suitable animal models. We describe the use of living slices of rat hippocampal formation to study tau phosphorylation. Using the AT8 antibody in an ELISA, phosphorylated tau was detected in freshly frozen slices and it increased significantly in slices that were incubated in an electrophysiological recording chamber; the amount detected was greatest when the homogenisation buffer contained phosphatase and kinase inhibitors. The phosphorylated tau content of the slices increased significantly after exposure to the phosphatase 1 and 2A inhibitor okadaic acid (OA) -1.5 M. Electrophysiological recordings confirmed that slices were alive and that OA had no acute toxic effect. In control slices phosphorylated tau, detected immunohistochemically, was mainly in the somatodendritic compartment of neurones; in OA treated slices, there was an apparent decrease in somatodendritic AT8 staining and an increase in neuropil staining. Our system enables the induction of hyperphosphorylated tau within living slices, in an experimental environment that can be used to study the biological consequences of such a change, and may therefore help further our understanding of the significance of hyperphosphorylated tau in Alzheimer's Disease.
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Published date: 1 April 1999
Keywords:
Tau protein, Phosphorylation, hippocampus, histological section, Okadaic acid, preparation, Alzheimer disease, rat, brain (vertebrata), central nervous system, methodology, nervous system diseases, central nervous system disease, Cerebral disorder, Degenerative disease, Rodentia, Mammalia, Vertebrata
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Local EPrints ID: 56143
URI: http://eprints.soton.ac.uk/id/eprint/56143
ISSN: 0165-0270
PURE UUID: b888b4eb-e77d-42fd-8b7c-59aa1e1d4961
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Date deposited: 21 Aug 2008
Last modified: 15 Mar 2024 10:59
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Author:
S.T. Woolley
Author:
V.H. Perry
Author:
J.R.T. Greene
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