The NADPH: Sulfite Reductase of Escherichia coli is a Paraquat Reductase

Abstract

The NADPH:sulfite reductase of Escherichia coli is a soluble enzyme that has a subunit structure α₈β₄, where the α subunit is a flavoprotein and the β subunit is a metalloprotein. Overexpression of the holoenzyme in E. coli has greatly simplified the purification of this enzyme. Under aerobic conditions, recombinant sulfite reductase catalyzes the reduction of 1,1′‐dimethyl‐4,4′‐bipyridinium dichloride (paraquat) by NADPH, with K_m values for paraquat and NADPH of approximately 70 μM and 80 μM, respectively. Since pure flavoprotein α subunit, encoded by the cysJ gene, has similar catalytic activities, it is suggested that paraquat receives electrons directly from the α subunit. A mutant strain lacking an active cysJ gene is resistant to paraquat. The NADPH rferredoxin reductase of E. coli is also a paraquat reductase but with much higher K_m values for paraquat and lower enzyme activities. These results suggest that the sulfite reductase is a major paraquat reductase in E. coli and is responsible for the toxic activation of the drug.