Journal of Photoscience

Korean Society of Photoscience (한국광과학회)
권호 표지

PREVENTION OF HYDROXYL RADICAL-INDUCED ERYTHROCYTE HEMOLYSIS BY PROTEIN THIOLS

  • Youn, Hong-Duk (Department of Molecular, and Cell Biology, University of California) ;
  • Packer, Lester (Department of Molecular, and Cell Biology, University of California) ;
  • Matsugo, Seiichi (Dept. of Chemistry and Biochemical Engineering, Toyama Univ.)
  • Published : 1997.09.01
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Abstract

A system for studying oxidative hemolysis has been used by controling UV-irradiation and concentration of a novel molecular probe, N,N'-bis(2-hydroperoxy-2-methoxyethyl)-1,4,5,8-naphthalenetetra-carboxylic diimide (NP-III), which generates hydroxyl radical upon longer wavelength photoirradiation (> 350 nm). NP-III induces 25~30% of hemolysis at low concentration (50 $\mu$M) for 3h-irradiation of UVA. The simultaneous treatment of N-ethylmaleimide (NEM) with NP-IH completely hemotyzed erythrocytes under the same conditions as NP-III alone by both decreasing thiol group and increasing lipid peroxidation in erythrocyte membrane. However. thiol-reducing agents prevented the protein-crosslinking and lipid peroxidation on the NEM-synergistic hemolysis by partially scavenging hydroxyl radical and maintaining the thiol group of erythrocyte membrane in the reduced state. In addition, erythrocytes pretreated with 2,2,5,7,8-pentamethyl-6-hydroxychromane (PMC), vitamin E homologue was able to delay and decrease the lipid peroxidation when compared to cells pretreated with both NEM and PMC. We suggest that the presence of reduced thiols in inner membrane protein by GSH can prevent the protein-crosslinking and the lipid peroxidation, and eventually prevent the oxidative hemolysis of erythrocyte.

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References

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