Cellular Oxidant Stress and Advanced Glycation Endproducts of Albumin: Caveats of the Dichlorofluorescein Assay

In order to understand the mechanism by which advanced glycation endproducts (AGEs) elicit oxidative stress, macrophage-like RAW264.7 cells were exposed to various AGE-albumins, and oxidant stress was estimated from the fluorescence of oxidized dichlorofluorescein using the microtiter plate assay. S...

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Bibliographic Details
Published in:Archives of biochemistry and biophysics 2002-04, Vol.400 (1), p.15-25
Main Authors: Subramaniam, Ram, Fan, Xing-Jun, Scivittaro, Vincenzo, Yang, Jianqi, Ha, Chung-Eun, Petersen, Charles E., Surewicz, Witold K., Bhagavan, Nadhipuram V., Weiss, Miriam F., Monnier, Vincent M.
Format: Article
Language:English
Subjects:
albumin
Animals
Arginine - chemistry
Calcium - metabolism
Calcium Chloride - metabolism
Cell Line
Chickens
Circular Dichroism
Copper - metabolism
dichlorofluorescein
Dose-Response Relationship, Drug
Fluoresceins - pharmacology
Fluorescent Dyes - pharmacology
glycation
Glycation End Products, Advanced - chemistry
Glycation End Products, Advanced - metabolism
Hydrolysis
Iron - metabolism
methylglyoxal
Mice
Mutagenesis, Site-Directed
Mutation
Oxidative Stress
Oxygen - metabolism
Protein Binding
Protein Conformation
Protein Structure, Tertiary
Reactive Oxygen Species
Recombinant Proteins - metabolism
Serum Albumin, Bovine - chemistry
Serum Albumin, Bovine - metabolism
Spectrometry, Fluorescence
Structure-Activity Relationship
Time Factors
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Summary:In order to understand the mechanism by which advanced glycation endproducts (AGEs) elicit oxidative stress, macrophage-like RAW264.7 cells were exposed to various AGE-albumins, and oxidant stress was estimated from the fluorescence of oxidized dichlorofluorescein using the microtiter plate assay. Strongest fluorescence was observed with methylglyoxal modified albumin (MGO–BSA) compared with native albumin. Similar effects that were prevented by arginine coincubation were seen with phenylglyoxal-BSA. MGO–BSA had increased affinity for Cu2+ and Ca2+, but was conformationally similar to native albumin. Surprisingly, the mere addition of unmodified albumin to cells suppressed the fluorescence of oxidized DCF. While, several site-directed mutants of human serum albumin (HSA), including C34S and recombinant domains II and III retained fluorescence suppressing activity, proteolytic digests, recombinant domain I, and several nonalbumin proteins failed to suppress. Kinetic and ANS binding studies suggested albumin quenches DCF fluorescence by binding to hydrophobic pockets in domains II and III and that MGO–BSA is less hydrophobic than BSA. Finally, BSA also prevented H2O2 catalyzed DCF fluorescence more potently than MGO–BSA. These studies reveal important caveats of the widely used dichlorofluorescein assay and suggest methods other than the microtiter plate assay are needed to accurately assess cellular oxidant stress in presence of native or modified albumin.
ISSN:0003-9861
1096-0384
DOI:10.1006/abbi.2002.2776