Butterfield_1999_Life.Sci_65_1883

Reference

Title : Elevated oxidative stress in models of normal brain aging and Alzheimer's disease - Butterfield_1999_Life.Sci_65_1883
Author(s) : Butterfield DA , Howard B , Yatin S , Koppal T , Drake J , Hensley K , Aksenov M , Aksenova M , Subramaniam R , Varadarajan S , Harris-White ME , Pedigo NW, Jr. , Carney JM
Ref : Life Sciences , 65 :1883 , 1999
Abstract :

Age-associated neurodegenerative disorders are becoming more prevalent as the mean age of the population increases in the United States over the next few decades. Both normal brain aging and Alzheimer's disease (AD) are associated with oxidative stress. Our laboratory has used a wide variety of physical and biochemical methods to investigate free radical oxidative stress in several models of aging and AD. Beta-amyloid (A beta), the peptide that constitutes the central core of senile plaques in AD brain, is associated with free radical oxidative stress and is toxic to neurons. This review summarizes some of our studies in aging and A beta-associated free radical oxidative stress and on the modulating effects of free radical scavengers on neocortical synaptosomal membrane damage found in aging and A beta-treated systems.

PubMedSearch : Butterfield_1999_Life.Sci_65_1883
PubMedID: 10576432

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Citations formats

Butterfield DA, Howard B, Yatin S, Koppal T, Drake J, Hensley K, Aksenov M, Aksenova M, Subramaniam R, Varadarajan S, Harris-White ME, Pedigo NW, Jr., Carney JM (1999)
Elevated oxidative stress in models of normal brain aging and Alzheimer's disease
Life Sciences 65 :1883

Butterfield DA, Howard B, Yatin S, Koppal T, Drake J, Hensley K, Aksenov M, Aksenova M, Subramaniam R, Varadarajan S, Harris-White ME, Pedigo NW, Jr., Carney JM (1999)
Life Sciences 65 :1883