Heterologous expression of carbonyl reductase: demonstration of prostaglandin 9-ketoreductase activity and paraquat resistance.

Transfection of murine NIH3T3 fibroblasts with a pSV2-derived eukaryotic expression vector for human cytosolic carbonyl reductase (E.C. 1.1.1.141) resulted in clones with increased carbonyl reductase activity as demonstrated by an elevation in cellular NADPH-dependent alcohol (menadione) reductase activity. Prostaglandin 9-ketoreductase (9KR) activity, previously noted only in purified enzyme preparations, was also elevated. Although the cellular molar capacity of 9KR activity was less than menadione reductase activity (picomoles versus nanomoles per mg of protein), when compared to endogenous activity there was a greater relative increase in 9KR activity as compared to menadione activity (10 fold increase versus 3 fold). Thus, the 9KR properties of carbonyl reductase may have a physiologic role in prostaglandin regulation. Most transgenic clones lost their enhanced carbonyl reductase activity despite continuous selection, but two clones retained enhanced enzyme activity. RNA analysis indicated that these two murine clones expressed human carbonyl reductase mRNA. These two clones overexpressing carbonyl reductase did not display resistance to menadione, in agreement with a previous report. There was, however, a demonstrable increase in resistance to paraquat of a magnitude similar to that previously noted with transgenic cell lines overexpressing manganese superoxide dismutase.