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Amyloid beta-peptide (1-40)-mediated oxidative stress in cultured hippocampal neurons. Protein carbonyl formation, CK BB expression, and the level of Cu, Zn, and Mn SOD mRNA.

Author
Abstract
:

Mechanism of amyloid beta-peptide (A beta) toxicity in cultured neurons involves the development of oxidative stress in the affected cells. A significant increase in protein carbonyl formation was detected in cultured hippocampal neurons soon after the addition of preaggregated A beta(1-40), indicating oxidative damage of proteins. We report that neurons, subjected to A beta(1-40), respond to A beta oxidative impact by activation of antioxidant defense mechanisms and alternative ATP-regenerating pathway. The study demonstrates an increase of Mn SOD gene expression and the restoration of Cu, Zn SOD gene expression to a normal level after temporary suppression. Partial loss of creatine kinase (CK) BB activity, which is the key enzyme for functioning of the creatine/phosphocreatine shuttle, was compensated in neurons surviving the A beta oxidative attack by increased production of the enzyme. As soon as the oxidative attack triggered by the addition of preaggregated A beta (1-40) to rat hippocampal cell cultures has been extinguished, CK BB expression and SOD isoenzyme-specific mRNA levels in surviving neurons return to normal. We propose that the maintenance of a constant level of CK function by increased CK BB production together with the induction of antioxidant enzyme gene expression in A beta-treated hippocampal neurons accounts for at least part of their adaptation to A beta toxicity.

Year of Publication
:
1998
Journal
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Journal of molecular neuroscience : MN
Volume
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10
Issue
:
3
Number of Pages
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181-92
ISSN Number
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0895-8696
URL
:
https://dx.doi.org/10.1007/BF02761773
DOI
:
10.1007/BF02761773
Short Title
:
J Mol Neurosci
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