Protective Effects of Green Tea Catechins against Asbestos-Induced Cell Injury

Vladimir A. Kostyuk; Alla I. Potapovich; Elena N. Vladykovskaya; Midori Hiramatsu

doi:10.1055/s-2000-9567

Planta Medica, Inhaltsverzeichnis

Planta Med 2000; 66(8): 762-764
DOI: 10.1055/s-2000-9567

Letter

Protective Effects of Green Tea Catechins against Asbestos-Induced Cell Injury

Vladimir A. Kostyuk^1,*, Alla I. Potapovich¹ , Elena N. Vladykovskaya¹ , Midori Hiramatsu²

¹ Laboratory of Bioenergetics, Byelorussian State University, Minsk, Belarus
² Institute for Life Support Technology, Yamagata Technopolis Foundation, Yamagata, Japan

Abstract

Green tea extract was found to provide a strong protective effect against asbestos-induced injury of peritoneal macrophages and red blood cells in vitro. The main polyphenolic constituents of green tea extract, (-)-epicatechin gallate (ECG) and (-)-epigallocatechin gallate (EGCG), were also efficient in preventing injury of cells following exposure to asbestos fibers. The protective efficacies of EGCG and ECG expressed as IC₅₀ values were, respectively, 10 μM and 12 μM if peritoneal macrophages were injured by chrysotile and 4 μM and 5 μM in the case of crocidolite-induced cell injury. Antiradical and chelating properties of ECG and EGCG were evaluated and it was concluded that the protective effect of catechins against asbestos-induced injury may be related to both scavenger properties towards to superoxide anion and the ability to chelate iron ions.

Volltext

Referenzen

References

1 Rom W N,, Travis W D,, Brody A R.. Cellular and molecular basis of asbestos-related diseases. Am. Rev. Respir. Dis.. 1991;; 143 408-22
2 Kamp D W,, Graceffa P,, Pryor W A,, Weitzman S A.. The role of free radicals in asbestos-induced diseases. Free Radic. Biol. Med.. 1992;; 12 293-315
3 Mossman B T,, Kamp D W,, Weitzman S A.. Mechanisms of carcinogenesis and clinical features of asbestos-associated cancers. Cancer Invest.. 1996;; 14 (5) 466-80
4 Velichkovsky B T,, Vladimirov Y uA,, Korkina L G,, Suslova T B.. Physicochemical mechanism of interaction between phagocytic cells and fibrogenic dusts. Vestn. Akad. Med. Nauk SSSR (Russ.). 1981;; 10 45-51
5 Mossman B T,, Landesman J M.. Importance of oxygen-free radicals in asbestos-induced injury to airway epithelial cells. Chest.. 1983;; 83 50-1
6 Kostyuk V A,, Potapovich A I,, Speransky S D,, Maslova G T.. Protective effect of natural flavonoids on rat peritoneal macrophages injury caused by asbestos fibers. Free Radic. Biol. Med.. 1996;; 21 487-93
7 Kostyuk V A,, Potapovich A I.. Antiradical and chelating effects in flavonoids protection against silica-induced cells injury. Arch. Biochem. Biophys.. 1998;; 355 43-8
8 Korkina L G,, Durnev A D,, Suslova T B,, Cheremisina Z P,, Daugel-Dauge N O,, Afanas'ev I B.. Oxygen radical-mediated mutagenic effect of asbestos on human lymphocytes: suppression by oxygen radical scavengers. Mutat. Res.. 1992;; 265 245-53
9 Yoneda T,, Hiramatsu M,, Sakamoto M,, Togasaki K,, Komatsu M,, Yamaguchi K.. Antioxidant effect of “B-catechin”. Biochem. Mol. Biol. Int.. 1995;; 35 995-1008
10 Kumary M VR,, Yoneda T,, Hiramatsu M.. Scavenging activity of “B-catechin” on reactive oxygen species generated by photosensitization of riboflavin. Biochem. Mol. Biol. Int.. 1996;; 38 1163-70
11 Price M L,, Butler L G.. Rapid visual estimation and spectrophotometric determination of tannin in sorghum grain. J. Agric. Food Chem.. 1977;; 25 1268-73
12 Korkina L G,, Suslova T B,, Cheremisina Z P,, Velichkovsky B T.. Catalytic properties of asbestos fibers and their biological activity. Stud. Biophys.. 1988;; 126 99-104
13 Beauchamp C,, Fridovich I.. Superoxide dismutase improved assay applicable to acrylamide gels. Anal. Biochem.. 1971;; 44 276-87

Dr. V. A. Kostyuk

Laboratory of Bioenergetics Byelorussian State University

Scorina St. 4

Minsk

220050 Belarus GUS

eMail: kostyuk@bio.bsu.unibel.by

Telefon: 375 (172) 77-5535