Ascorbate is regenerated by HL-60 cells through the transplasmalemma redox system

Ascorbate was maintained in the media during a long-term culture by HL-60 cells. The chemical oxidation of ascorbate was reversed in vitro by living HL-60 cells and was related to the amount of cells added. The increase of NADH concentration by lactate addition to cells was accompanied by an increas...

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Published inBiochimica et biophysica acta Vol. 1073; no. 2; pp. 380 - 385
Main Authors Alcain, Francisco J., Buron, M. Isabel, Villalba, Jose M., Navas, Placido
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 04.03.1991
Elsevier
Subjects
Ascorbate
Ascorbic Acid - metabolism
Ascorbic Acid - pharmacology
Biological and medical sciences
Cell Count
Cell Division - drug effects
Cell Line
Cell Membrane - metabolism
Cell membranes. Ionic channels. Membrane pores
Cell structures and functions
Concanavalin A - pharmacology
Dehydroascorbic Acid - metabolism
Ferricyanides - metabolism
Free Radicals
Fundamental and applied biological sciences. Psychology
HL-60
Humans
Kinetics
Lactates - metabolism
Lactic Acid
Molecular and cellular biology
NAD - metabolism
NADH, NADPH Oxidoreductases - metabolism
Oxidation-Reduction
Oxygen Consumption
Plasma membrane
Redox system
Wheat Germ Agglutinins - pharmacology
Ascorbate
HL-60
Redox system
AFR
Plasma membrane
Cell culture
Regeneration
Ascorbic acid derivatives
Enzymatic activity
Kinetics
Electron microscopy
Morphometry
Metabolism
Online AccessGet full text
ISSN0304-4165
0006-3002
1872-8006
DOI10.1016/0304-4165(91)90146-8

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Abstract Ascorbate was maintained in the media during a long-term culture by HL-60 cells. The chemical oxidation of ascorbate was reversed in vitro by living HL-60 cells and was related to the amount of cells added. The increase of NADH concentration by lactate addition to cells was accompanied by an increase of both ascorbate regeneration and ferricyanide reduction. Further, plasma membrane enriched fractions from HL-60 cells revealed enhancement of both ascorbate regeneration and ferricyanide reduction in the presence of NADH when previously treated with detergent. The blockage of cell surface carbohydrates by wheat germ agglutinin (WGA) and Concanavalina ensiformis (Con A) lectins significantly inhibited the regeneration of ascorbate caused by the cells. These results support the idea that ascorbate is externally regenerated by the NADH-ascorbate free radical reductase as a part of the transplama membrane redox system.
AbstractList Ascorbate was maintained in the media during a long-term culture by HL-60 cells. The chemical oxidation of ascorbate was reversed in vitro by living HL-60 cells and was related to the amount of cells added. The increase of NADH concentration by lactate addition to cells was accompanied by an increase of both ascorbate regeneration and ferricyanide reduction. Further, plasma membrane enriched fractions from HL-60 cells revealed enhancement of both ascorbate regeneration and ferricyanide reduction in the presence of NADH when previously treated with detergent. The blockage of cell surface carbohydrates by wheat germ agglutinin (WGA) and Concanavalina ensiformis (Con A) lectins significantly inhibited the regeneration of ascorbate caused by the cells. These results support the idea that ascorbate is externally regenerated by the NADH-ascorbate free radical reductase as a part of the transplasma membrane redox system.
Ascorbate was maintained in the media during a long-term culture by HL-60 cells. The chemical oxidation of ascorbate was reversed in vitro by living HL-60 cells and was related to the amount of cells added. The increase of NADH concentration by lactate addition to cells was accompanied by an increase of both ascorbate regeneration and ferricyanide reduction. Further, plasma membrane enriched fractions from HL-60 cells revealed enhancement of both ascorbate regeneration and ferricyanide reduction in the presence of NADH when previously treated with detergent. The blockage of cell surface carbohydrates by wheat germ agglutinin (WGA) and Concanavalina ensiformis (Con A) lectins significantly inhibited the regeneration of ascorbate caused by the cells. These results support the idea that ascorbate is externally regenerated by the NADH-ascorbate free radical reductase as a part of the transplasma membrane redox system.Ascorbate was maintained in the media during a long-term culture by HL-60 cells. The chemical oxidation of ascorbate was reversed in vitro by living HL-60 cells and was related to the amount of cells added. The increase of NADH concentration by lactate addition to cells was accompanied by an increase of both ascorbate regeneration and ferricyanide reduction. Further, plasma membrane enriched fractions from HL-60 cells revealed enhancement of both ascorbate regeneration and ferricyanide reduction in the presence of NADH when previously treated with detergent. The blockage of cell surface carbohydrates by wheat germ agglutinin (WGA) and Concanavalina ensiformis (Con A) lectins significantly inhibited the regeneration of ascorbate caused by the cells. These results support the idea that ascorbate is externally regenerated by the NADH-ascorbate free radical reductase as a part of the transplasma membrane redox system.
Ascorbate was maintained in the media during a long-term culture by HL-60 cells. The chemical oxidation of ascorbate was reversed in vitro by living HL-60 cells and was related to the amount of cells added. The increase of NADH concentration by lactate addition to cells was accompanied by an increase of both ascorbate regeneration and ferricyanide reduction. Further, plasma membrane enriched fractions from HL-60 cells revealed enhancement of both ascorbate regeneration and ferricyanide reduction in the presence of NADH when previously treated with detergent. The blockage of cell surface carbohydrates by wheat germ agglutinin (WGA) and Concanavalina ensiformis (Con A) lectins significantly inhibited the regeneration of ascorbate caused by the cells. These results support the idea that ascorbate is externally regenerated by the NADH-ascorbate free radical reductase as a part of the transplama membrane redox system.
Author Buron, M. Isabel
Alcain, Francisco J.
Navas, Placido
Villalba, Jose M.
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Issue 2
Keywords Ascorbate
HL-60
Redox system
AFR
Plasma membrane
Cell culture
Regeneration
Ascorbic acid derivatives
Enzymatic activity
Kinetics
Electron microscopy
Morphometry
Metabolism
Language English
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Snippet Ascorbate was maintained in the media during a long-term culture by HL-60 cells. The chemical oxidation of ascorbate was reversed in vitro by living HL-60...
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SubjectTerms Ascorbate
Ascorbic Acid - metabolism
Ascorbic Acid - pharmacology
Biological and medical sciences
Cell Count
Cell Division - drug effects
Cell Line
Cell Membrane - metabolism
Cell membranes. Ionic channels. Membrane pores
Cell structures and functions
Concanavalin A - pharmacology
Dehydroascorbic Acid - metabolism
Ferricyanides - metabolism
Free Radicals
Fundamental and applied biological sciences. Psychology
HL-60
Humans
Kinetics
Lactates - metabolism
Lactic Acid
Molecular and cellular biology
NAD - metabolism
NADH, NADPH Oxidoreductases - metabolism
Oxidation-Reduction
Oxygen Consumption
Plasma membrane
Redox system
Wheat Germ Agglutinins - pharmacology
Title Ascorbate is regenerated by HL-60 cells through the transplasmalemma redox system
URI https://dx.doi.org/10.1016/0304-4165(91)90146-8
https://www.ncbi.nlm.nih.gov/pubmed/2009284
https://www.proquest.com/docview/80492661
Volume 1073
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