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Neurodegeneration and oxidative stress: prion disease results from loss of antioxidant defence Brown DRFolia Neuropathol 2005[]; 43 (4): 229-43Prion diseases or transmissible spongiform encephalopathies (TSEs) are rare neurodegenerative disorders that can be acquired either by direct transmission, inherited through dominant mutations in the prion protein gene or via an unknown sporadic cause. This latter group constitutes the vast majority of cases. Like many neurodegenerative diseases the hallmarks of oxidative damage can be readily detected throughout the brain of the affected individual. However, unlike most other neurodegenerative diseases, prion diseases are connected with a dramatic loss of antioxidant defence. As abnormal protein accumulates in the diseased brain there is both an increase of oxidative substances and a loss of the defences that keep them in check. In particular the normal cellular prion protein has been shown to be an antioxidant. Conversion of this protein to the protease resistant isoform is accompanied by a loss of this antioxidant activity. This change creates a paradox as the loss of activity is not accompanied by a loss of protein expression. It is likely that this prevents other cellular defences from responding sufficiently to protect neurons from the heightened oxidative burden. Recent experiments with transgenic mice have shown that when prion protein expression is switched off during the course of prion disease, cell death is dramatically halted and the mouse recovers from the disease. This result clearly illustrates that the continued expression of non-function prion protein is essential for disease progression. This implies that the presence of this abnormal protein during prion disease causes a failure of cellular antioxidant defence. This failed defence is the fundamental cause of the massive neurodegeneration that results in the fatal nature of TSEs. The role of oxidative stress in TSEs and other neurodegenerative disorders are discussed in this review.|Animals[MESH]|Antioxidants/pharmacology[MESH]|Brain/drug effects/metabolism/*pathology[MESH]|Humans[MESH]|Mutation[MESH]|Nerve Degeneration/drug therapy/*metabolism[MESH]|Neurodegenerative Diseases/drug therapy/*metabolism[MESH]|Oxidative Stress/drug effects/*physiology[MESH]|PrPC Proteins/physiology[MESH]|PrPSc Proteins/metabolism[MESH]|Prion Diseases/drug therapy/*metabolism[MESH] |
