Since glutathione transferases (GSTs) are suggested to be involved in the prevention of tissue damage by oxidative stress, quantitative and qualitative alterations of GST forms were examined in rat skin after induction of inflammation by 0.6 and 1% 1-chloro-2, 4-dinitrobenzene (CDNB) treatment. With 0.6% CDNB, the GST activity in supernatant preparations was 1.8-fold higher than that for control skin, with most GSTs in both cases being bound to S-hexyl-GSH-Sepharose. Major GST subunits of control skin were identified as subunits 7, 4 and 2 by HPLC and chromatofocusing at pH11-7. These subunits were increased in inflamed skin by 0.6% CDNB and, in addition, the subunit 1 of the Alpha class and subunit 6, both hardly detectable in control skin, were expressed. The specific activity value for GST 7-7 from the inflamed skin by 0.6% CDNB was 2. 4-fold lower than that from control skin. However, in the case of inflamed skin after application of 1% CDNB, GST activity was decreased to 69% of the control value and most activity was recovered in fractions binding to a GSH-Sepharose but not a S-hexyl-GSH-Sepharose column. GSTs eluted from the former column demonstrated a restored capacity to bind to the latter, suggesting the GSTs in inflamed skin to be partly inactivated and that they regained activity on exposure to GSH. The Km and Vmax values for GSH of GST 4-4 from inflamed skin after 1% CDNB treatment were 6-fold and 2-fold higher, respectively, than those for the enzyme from control skin, suggesting partial enzyme modification. These results suggest that not only quantitative but also qualitative alterations of GST subunits occur with CDNB-induced inflammation in vivo.