BETA-AMYLOID PEPTIDE-DERIVED, OXYGEN-DEPENDENT FREE-RADICALS INHIBIT GLUTAMATE UPTAKE IN CULTURED ASTROCYTES - IMPLICATIONS FOR ALZHEIMERS-DISEASE

被引:114
作者
HARRIS, ME
CARNEY, JM
COLE, PS
HENSLEY, K
HOWARD, BJ
MARTIN, L
BUMMER, P
WANG, YN
PEDIGO, NW
BUTTERFIELD, DA
机构
[1] UNIV KENTUCKY,DEPT CHEM,LEXINGTON,KY 40506
[2] UNIV KENTUCKY,DEPT PHARMACOL,LEXINGTON,KY 40506
[3] UNIV KENTUCKY,DIV MED CHEM & PHARMACEUT,LEXINGTON,KY 40506
[4] UNIV KENTUCKY,CTR MEMBRANE SCI,LEXINGTON,KY 40506
[5] UNIV KENTUCKY,SANDERS BROWN CTR AGING,LEXINGTON,KY 40506
来源
NEUROREPORT | 1995年 / 6卷 / 14期
关键词
ALZHEIMERS DISEASE; GLUTAMATE UPTAKE; EXCITOTOXICITY; EPR SPIN TRAPPING; OXYRADICALS; CIRCULAR DICHROISM;
D O I
10.1097/00001756-199510020-00013
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
beta-AMYLOID (A beta), the central constituent of senile plaques in Alzheimer's disease (AD) brains, was shown by us recently to generate free radicals in an oxygen dependent mechanism. A beta-derived free radicals were detected directly using electron paramagnetic resonance (EPR) spin trapping techniques employing the spin trap phenyl-alpha-tert-butylnitrone (PEN). We have extended these studies to investigate the nature of the oxyradicals derived from A beta peptides, and we show that these free radicals are able to inhibit glutamate uptake in cultured astrocytes. An implication of inhibited astrocyte glutamate uptake in brain is increased extracellular levels of glutamate, which is excitotoxic to neurons. These results support the hypothesis that A beta neurotoxicity in AD may be due in part to A beta-derived, oxygen-dependent free radical inhibition of glutamate uptake.
引用
收藏
页码:1875 / 1879
页数:5
相关论文
共 24 条
[1]   HYDROGEN-PEROXIDE MEDIATES AMYLOID-BETA PROTEIN TOXICITY [J].
BEHL, C ;
DAVIS, JB ;
LESLEY, R ;
SCHUBERT, D .
CELL, 1994, 77 (06) :817-827
[2]   BETA-AMYLOID NEUROTOXICITY IN HUMAN CORTICAL CULTURE IS NOT MEDIATED BY EXCITOTOXINS [J].
BUSCIGLIO, J ;
YEH, J ;
YANKNER, BA .
JOURNAL OF NEUROCHEMISTRY, 1993, 61 (04) :1565-1568
[3]   BETA-AMYLOID PEPTIDE FREE-RADICAL FRAGMENTS INITIATE SYNAPTOSOMAL LIPOPEROXIDATION IN A SEQUENCE-SPECIFIC FASHION - IMPLICATIONS TO ALZHEIMERS-DISEASE [J].
BUTTERFIELD, DA ;
HENSLEY, K ;
HARRIS, M ;
MATTSON, M ;
CARNEY, J .
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1994, 200 (02) :710-715
[4]   CHARACTERIZATION OF GLUTAMATE UPTAKE SYSTEMS IN ASTROCYTE PRIMARY CULTURES FROM RAT-BRAIN [J].
FLOTT, B ;
SEIFERT, W .
GLIA, 1991, 4 (03) :293-304
[5]   NORDIHYDROGUAIARETIC ACID PROTECTS HIPPOCAMPAL-NEURONS AGAINST AMYLOID BETA-PEPTIDE TOXICITY, AND ATTENUATES FREE-RADICAL AND CALCIUM ACCUMULATION [J].
GOODMAN, Y ;
STEINER, MR ;
STEINER, SM ;
MATTSON, MP .
BRAIN RESEARCH, 1994, 654 (01) :171-176
[6]   STAUROSPORINE AND K-252 COMPOUNDS PROTECT HIPPOCAMPAL-NEURONS AGAINST AMYLOID BETA-PEPTIDE TOXICITY AND OXIDATIVE INJURY [J].
GOODMAN, YD ;
MATTSON, MP .
BRAIN RESEARCH, 1994, 650 (01) :170-174
[7]   DIRECT EVIDENCE OF OXIDATIVE INJURY PRODUCED BY THE ALZHEIMERS BETA-AMYLOID PEPTIDE (1-40) IN CULTURED HIPPOCAMPAL-NEURONS [J].
HARRIS, ME ;
HENSLEY, K ;
BUTTERFIELD, DA ;
LEEDLE, RA ;
CARNEY, JM .
EXPERIMENTAL NEUROLOGY, 1995, 131 (02) :193-202
[8]  
HARRIS ME, 1994, NEUROBIOL AGING, V15, pS116
[9]  
HARRIS ME, 1995, THESIS U KENTUCKY LE
[10]   A MODEL FOR BETA-AMYLOID AGGREGATION AND NEUROTOXICITY BASED ON FREE-RADICAL GENERATION BY THE PEPTIDE - RELEVANCE TO ALZHEIMER-DISEASE [J].
HENSLEY, K ;
CARNEY, JM ;
MATTSON, MP ;
AKSENOVA, M ;
HARRIS, M ;
WU, JF ;
FLOYD, RA ;
BUTTERFIELD, DA .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1994, 91 (08) :3270-3274
123