Calcium CaV1 channel subtype mRNA expression in Parkinson's disease examined by in situ hybridization
Calcium CaV1 channel subtype mRNA expression in Parkinson's disease examined by in situ hybridization
The factors which make some neurons vulnerable to neurodegeneration in Parkinson's disease while others remain resistant are not fully understood. Studies in animal models of Parkinson's disease suggest that preferential use of CaV1.3 subtypes by neurons may contribute to the neurodegenerative process by increasing mitochondrial oxidant stress. This study quantified the level of mRNA for the CaV1 subtypes found in the brain by in situ hybridization using CaV1 subtype-specific [(35)S]-radiolabelled oligonucleotide probes. In normal brain, the greatest amount of messenger RNA (mRNA) for each CaV1 subtype was found in the midbrain (substantia nigra), with a moderate level in the pons (locus coeruleus) and lower quantities in cerebral cortex (cingulate and primary motor). In Parkinson's disease, the level of CaV1 subtype mRNA was maintained in the midbrain and pons, despite cell loss in these areas. In cingulate cortex, CaV1.2 and CaV1.3 mRNA increased in cases with late-stage Parkinson's disease. In primary motor cortex, the level of CaV1.2 mRNA increased in late-stage Parkinson's disease. The level of CaV1.3 mRNA increased in primary motor cortex of cases with early-stage Parkinson's disease and normalized to near the control level in cases from late-stage Parkinson's disease. The finding of elevated CaV1 subtype expression in cortical brain regions supports the view that disturbed calcium homeostasis is a feature of Parkinson's disease throughout brain and not only a compensatory consequence to the neurodegenerative process in areas of cell loss.
Aged, Aged, 80 and over, Calcium Channels, L-Type, Case-Control Studies, Female, Humans, Male, Mesencephalon, Motor Cortex, Organ Specificity, Parkinson Disease, RNA, Messenger, Journal Article, Research Support, Non-U.S. Gov't
715-724
Hurley, Michael J.
07b0180f-8e32-4ce1-8185-e046a42ef15a
Gentleman, Steve M.
d28d75f7-05cf-4bca-8f3a-db15ce846466
Dexter, David T.
a3cacf9a-bf1f-404a-9eca-66e74e27e855
March 2015
Hurley, Michael J.
07b0180f-8e32-4ce1-8185-e046a42ef15a
Gentleman, Steve M.
d28d75f7-05cf-4bca-8f3a-db15ce846466
Dexter, David T.
a3cacf9a-bf1f-404a-9eca-66e74e27e855
Hurley, Michael J., Gentleman, Steve M. and Dexter, David T.
(2015)
Calcium CaV1 channel subtype mRNA expression in Parkinson's disease examined by in situ hybridization.
Journal of Molecular Neuroscience, 55 (3), .
(doi:10.1007/s12031-014-0410-8).
Abstract
The factors which make some neurons vulnerable to neurodegeneration in Parkinson's disease while others remain resistant are not fully understood. Studies in animal models of Parkinson's disease suggest that preferential use of CaV1.3 subtypes by neurons may contribute to the neurodegenerative process by increasing mitochondrial oxidant stress. This study quantified the level of mRNA for the CaV1 subtypes found in the brain by in situ hybridization using CaV1 subtype-specific [(35)S]-radiolabelled oligonucleotide probes. In normal brain, the greatest amount of messenger RNA (mRNA) for each CaV1 subtype was found in the midbrain (substantia nigra), with a moderate level in the pons (locus coeruleus) and lower quantities in cerebral cortex (cingulate and primary motor). In Parkinson's disease, the level of CaV1 subtype mRNA was maintained in the midbrain and pons, despite cell loss in these areas. In cingulate cortex, CaV1.2 and CaV1.3 mRNA increased in cases with late-stage Parkinson's disease. In primary motor cortex, the level of CaV1.2 mRNA increased in late-stage Parkinson's disease. The level of CaV1.3 mRNA increased in primary motor cortex of cases with early-stage Parkinson's disease and normalized to near the control level in cases from late-stage Parkinson's disease. The finding of elevated CaV1 subtype expression in cortical brain regions supports the view that disturbed calcium homeostasis is a feature of Parkinson's disease throughout brain and not only a compensatory consequence to the neurodegenerative process in areas of cell loss.
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e-pub ahead of print date: 31 August 2014
Published date: March 2015
Keywords:
Aged, Aged, 80 and over, Calcium Channels, L-Type, Case-Control Studies, Female, Humans, Male, Mesencephalon, Motor Cortex, Organ Specificity, Parkinson Disease, RNA, Messenger, Journal Article, Research Support, Non-U.S. Gov't
Identifiers
Local EPrints ID: 416277
URI: http://eprints.soton.ac.uk/id/eprint/416277
ISSN: 0895-8696
PURE UUID: f7ff3af3-3710-4dd4-b38d-1249cdf70458
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Date deposited: 11 Dec 2017 17:30
Last modified: 15 Mar 2024 17:13
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Author:
Michael J. Hurley
Author:
Steve M. Gentleman
Author:
David T. Dexter
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