Spontaneous mutagenesis and oxidative damage to DNA in Salmonella typhimurium.

Abstract

Salmonella typhimurium strains containing deletions of oxyR, a positive regulator of defenses against oxidative stress, show 10- to 55-fold higher frequencies of spontaneous mutagenesis compared to otherwise isogenic oxyR+ control strains. The high spontaneous-mutation frequency in oxyR deletion strains is decreased by a factor of 3 when the strains are grown anaerobically. oxyR deletion strains show an increase in small deletion mutations and at least three of the six possible base-substitution mutations (T .cntdot. A to A .cntdot. T, C .cntdot. G to T .cntdot. A, and C .cntdot. G to A .cntdot. T). However, the largest increase in mutation frequency is observed for T .cntdot. A to A .cntdot. T transversions (40- to 146-fold), the base-substitution mutation most frequently caused by chemical oxidants. The introduction into oxyR deletion strains of multicopy plasmids carrying the oxyR-regulated genes for catalase (katG) or alkyl hydroperoxide reductase (ahp) results in overexpression of the respective enzyme activities and decreases the number of spontaneous mutants to wild-type levels. The introduction into oxyR deletions of a plasmid carrying the gene for superoxide dismutase (sodA) decreases the mutation frequency by a factor of 5 in some strain backgrounds. Strains that contain a dominant oxyR mutation and overexpress proteins regulated by oxyR show lower spontaneous-mutation frequencies by a factor of 2. These results indicate that oxyR and oxyR-regulated genes play a significant role in defense against spontaneous oxidative DNA damage. The role of oxidative damage to DNA in "spontaneous" mutagenesis is discussed.