Literature DB >> 1657590

Reaction of chromium(VI) with glutathione or with hydrogen peroxide: identification of reactive intermediates and their role in chromium(VI)-induced DNA damage.

J Aiyar1, H J Berkovits, R A Floyd, K E Wetterhahn.   

Abstract

The types of reactive intermediates generated upon reduction of chromium(VI) by glutathione or hydrogen peroxide and the resulting DNA damage have been determined. In vitro, reaction of chromium(VI) with glutathione led to formation of two chromium(V) complexes and the glutathione thiyl radical. When chromium(VI) was reacted with DNA in the presence of glutathione, chromium-DNA adducts were obtained, with no DNA strand breakage. The level of chromium-DNA adduct formation correlated with chromium(V) formation. Reaction of chromium(VI) with hydrogen peroxide led to formation of hydroxyl radical. No chromium(V) was detectable at 24 degrees C (297 K); however, low levels of the tetraperoxochromium(V) complex were detected at 77 K. Reaction of chromium(VI) with DNA in the presence of hydrogen peroxide produced significant DNA strand breakage and the 8-hydroxydeoxyguanosine adduct, whose formation correlated with hydroxyl radical production. No significant chromium-DNA adduct formation was detected. Thus, the nature of chromium(VI)-induced DNA damage appears to be dependent on the reactive intermediates, i.e. chromium(V) or hydroxyl radical, produced during the reduction of chromium(VI).

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Year:  1991        PMID: 1657590      PMCID: PMC1519390          DOI: 10.1289/ehp.919253

Source DB:  PubMed          Journal:  Environ Health Perspect        ISSN: 0091-6765            Impact factor:   9.031


  28 in total

1.  Site-specific oxidative DNA damage at polyguanosines produced by copper plus hydrogen peroxide.

Authors:  J L Sagripanti; K H Kraemer
Journal:  J Biol Chem       Date:  1989-01-25       Impact factor: 5.157

2.  Generation of PM2 DNA breaks in the course of reduction of chromium(VI) by glutathione.

Authors:  A Kortenkamp; Z Ozolins; D Beyersmann; P O'Brien
Journal:  Mutat Res       Date:  1989-02       Impact factor: 2.433

3.  Chromium (VI)-induced DNA damage in chick embryo liver and blood cells in vivo.

Authors:  J W Hamilton; K E Wetterhahn
Journal:  Carcinogenesis       Date:  1986-12       Impact factor: 4.944

4.  Mechanism of DNA cleavage induced by sodium chromate(VI) in the presence of hydrogen peroxide.

Authors:  S Kawanishi; S Inoue; S Sano
Journal:  J Biol Chem       Date:  1986-05-05       Impact factor: 5.157

5.  Vitamin B2-enhancement of sodium chromate (VI)--Induced DNA single strand breaks: ESR study of the action of vitamin B2.

Authors:  M Sugiyama; A Ando; R Ogura
Journal:  Biochem Biophys Res Commun       Date:  1989-03-31       Impact factor: 3.575

6.  Influence of vitamin B2 on formation of chromium(V), alkali-labile sites, and lethality of sodium chromate(VI) in Chinese hamster V-79 cells.

Authors:  M Sugiyama; A Ando; K Nakao; H Ueta; T Hidaka; R Ogura
Journal:  Cancer Res       Date:  1989-11-15       Impact factor: 12.701

7.  Characterization of DNA-protein complexes induced in intact cells by the carcinogen chromate.

Authors:  C A Miller; M Costa
Journal:  Mol Carcinog       Date:  1988       Impact factor: 4.784

8.  Hydroxyl free radical mediated formation of 8-hydroxyguanine in isolated DNA.

Authors:  R A Floyd; M S West; K L Eneff; W E Hogsett; D T Tingey
Journal:  Arch Biochem Biophys       Date:  1988-04       Impact factor: 4.013

9.  Toxic DNA damage by hydrogen peroxide through the Fenton reaction in vivo and in vitro.

Authors:  J A Imlay; S M Chin; S Linn
Journal:  Science       Date:  1988-04-29       Impact factor: 47.728

10.  Misreading of DNA templates containing 8-hydroxydeoxyguanosine at the modified base and at adjacent residues.

Authors:  Y Kuchino; F Mori; H Kasai; H Inoue; S Iwai; K Miura; E Ohtsuka; S Nishimura
Journal:  Nature       Date:  1987 May 7-13       Impact factor: 49.962
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  21 in total

1.  Environmental Presence of Hexavalent but Not Trivalent Chromium Causes Neurotoxicity in Exposed Drosophila melanogaster.

Authors:  Pallavi Singh; D Kar Chowdhuri
Journal:  Mol Neurobiol       Date:  2016-05-11       Impact factor: 5.590

2.  Chromate reduction by a chromate-resistant bacterium, Microbacterium sp.

Authors:  Zhaoming Liu; Yan Wu; Chengfeng Lei; Pengming Liu; Meiying Gao
Journal:  World J Microbiol Biotechnol       Date:  2011-12-09       Impact factor: 3.312

3.  In vivo reduction of chromium (VI) and its related free radical generation.

Authors:  K J Liu; X Shi
Journal:  Mol Cell Biochem       Date:  2001-06       Impact factor: 3.396

4.  Effects of glutathione on chromium-induced DNA crosslinking and DNA polymerase arrest.

Authors:  T O'Brien; J Xu; S R Patierno
Journal:  Mol Cell Biochem       Date:  2001-06       Impact factor: 3.396

5.  Effects of hexavalent chromium on phytoplankton and bacterioplankton of the Río de la Plata estuary: an ex-situ assay.

Authors:  María Belén Sathicq; Nora Gómez
Journal:  Environ Monit Assess       Date:  2018-03-17       Impact factor: 2.513

6.  NAD(P)H-dependent chromium (VI) reductase of Pseudomonas ambigua G-1: a Cr(V) intermediate is formed during the reduction of Cr(VI) to Cr(III).

Authors:  T Suzuki; N Miyata; H Horitsu; K Kawai; K Takamizawa; Y Tai; M Okazaki
Journal:  J Bacteriol       Date:  1992-08       Impact factor: 3.490

Review 7.  Serendipitous findings while researching oxygen free radicals.

Authors:  Robert A Floyd
Journal:  Free Radic Biol Med       Date:  2009-02-12       Impact factor: 7.376

8.  In vitro studies on the DNA impairments induced by Cr(III) complexes with cellular reductants.

Authors:  B Gulanowski; M Cieślak-Golonka; K Szyba; J Urban
Journal:  Biometals       Date:  1994-04       Impact factor: 2.949

9.  Role of Bacillus subtilis error prevention oxidized guanine system in counteracting hexavalent chromium-promoted oxidative DNA damage.

Authors:  Fernando Santos-Escobar; J Félix Gutiérrez-Corona; Mario Pedraza-Reyes
Journal:  Appl Environ Microbiol       Date:  2014-06-27       Impact factor: 4.792

10.  Chromium (VI) induces both bulky DNA adducts and oxidative DNA damage at adenines and guanines in the p53 gene of human lung cells.

Authors:  Hirohumi Arakawa; Mao-Wen Weng; Wen-Chi Chen; Moon-shong Tang
Journal:  Carcinogenesis       Date:  2012-07-12       Impact factor: 4.944
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