Oxidative stress in cancer prone xeroderma pigmentosum fibroblasts. Real-time and single cell monitoring of superoxide and nitric oxide production with microelectrodes

doi:10.1093/carcin/bgh046

Carcinogenesis Advance Access published online on December 19, 2003
Carcinogenesis, doi:10.1093/carcin/bgh046
© 2003 by Oxford University Press

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CANCER BIOLOGY

Oxidative stress in cancer prone xeroderma pigmentosum fibroblasts. Real-time and single cell monitoring of superoxide and nitric oxide production with microelectrodes

Stéphane Arbault ¹^*, Neso Sojic ¹, Delphine Bruce ¹, Christian Amatore ¹, Alain Sarasin ², and Monique Vuillaume ³

¹ Département de Chimie, UMR CNRS 8640 PASTEUR, Ecole Normale Supérieure 24 rue Lhomond, 75231 PARIS Cedex 05, France
² Institut Gustave Roussy, PR2, UPR CNRS 2169, 39 rue Camille Desmoulins, 94805 VILLEJUIF, France
³ Département de Chimie, UMR CNRS 8640 PASTEUR, Ecole Normale Supérieure 24 rue Lhomond, 75231 PARIS Cedex 05, France; Institut Gustave Roussy, PR2, UPR CNRS 2169, 39 rue Camille Desmoulins, 94805 VILLEJUIF, France

^* Corresponding author. E-mail: Stephane.Arbault{at}ens.fr.

Received 25 July 2003 ; revised 14 November 2003 ; accepted 30 November 2003

Abstract

Sun exposure is clearly implicated in premature skin ageingand neoplastic development. These features are exacerbated inpatients with Xeroderma Pigmentosum (XP), a hereditary diseaseassociated at the cellular level with DNA-repair defects anda low catalase activity. The implications of oxidative stressin the defects and cancer proneness of XP skin cells (keratinocytes,fibroblasts) are multiple and remain unclear. They were investigatedhere at the level of a single fibroblast by an electrochemicalmethod based on microelectrodes we have previously developed.These microelectrodes permit a real-time quantification andidentification of superoxide and nitric oxide derivatives (H₂O₂,ONOO^-, NO°, NO₂^-) released by a living cell following itsstimulation. Then, the oxidative bursts produced by fibroblastsfrom normal strains were compared to those of fibroblasts fromseveral XP group A (XPA) and XP group D (XPD) strains. All XPAand XPD strains provided responses of higher amplitude and durationthan controls. The XP specific oxidative response could notbe correlated with DNA repair ability since the transductionof XPD strains with the wild type XPD gene did not modify theirproduction of reactive oxygen and nitrogen species. The natureof these species was investigated and revealed that cancer proneXPD fibroblasts produced higher amounts of O₂°^- and H₂O₂and lower amounts of NO° and than normal fibroblasts.

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