Asad N R, Leitão A C
Departamento de Radiobiologia, Instituto de Biofísica Carlos, Chagas Filho, Universidade Federal de Rio de Janeiro, Brazil.
J Bacteriol. 1991 Apr;173(8):2562-8. doi: 10.1128/jb.173.8.2562-2568.1991.
In order to study the role of metallic ions in the H2O2 inactivation of Escherichia coli cells, H2O2-sensitive mutants were treated with metal ion chelators and then submitted to H2O2 treatment. o-Phenanthroline, dipyridyl, desferrioxamine, and neocuproine were used as metal chelators. Cell sensitivity to H2O2 treatment was not modified by neocuproine, suggesting that copper has a minor role in OH production in E. coli. On the other hand, prior treatment with iron chelators protected the cells against the H2O2 lethal effect, indicating that iron participates in the production of OH. However, analysis of DNA sedimentation profiles and DNA degradation studies indicated that these chelators did not completely block the formation of DNA single-strand breaks by H2O2 treatment. Thiourea, a scavenger of OH, caused a reduction in both H2O2 sensitivity and DNA single-strand break production. The breaks observed after treatment with metal chelators and H2O2 were repaired 60 min after H2O2 elimination in xthA but not polA mutant cells. Therefore, we propose that there are at least two pathways for H2O2-induced DNA lesions: one produced by H2O2 through iron oxidation and OH production, in which lesions are repaired by the products of the xthA and polA genes, and the other produced by an iron-independent pathway in which DNA repair requires polA gene products but not those of the xthA gene.
为了研究金属离子在大肠杆菌细胞过氧化氢(H₂O₂)失活过程中的作用,对过氧化氢敏感的突变体先用金属离子螯合剂处理,然后进行过氧化氢处理。邻菲罗啉、联吡啶、去铁胺和新铜试剂用作金属螯合剂。新铜试剂处理并未改变细胞对过氧化氢处理的敏感性,这表明铜在大肠杆菌中羟基(OH)生成过程中的作用较小。另一方面,用铁螯合剂预处理可保护细胞免受过氧化氢的致死效应,这表明铁参与了羟基的生成。然而,DNA沉降图谱分析和DNA降解研究表明,这些螯合剂并未完全阻止过氧化氢处理导致的DNA单链断裂的形成。硫脲作为一种羟基清除剂,可降低细胞对过氧化氢的敏感性以及DNA单链断裂的产生。在用金属螯合剂和过氧化氢处理后观察到的断裂在去除过氧化氢60分钟后,在xthA突变体细胞中得到修复,但在polA突变体细胞中未得到修复。因此,我们提出过氧化氢诱导的DNA损伤至少有两条途径:一条是过氧化氢通过铁氧化和羟基生成产生的损伤,这种损伤可由xthA和polA基因的产物修复;另一条是不依赖铁的途径,其中DNA修复需要polA基因产物,但不需要xthA基因的产物。