Simultaneous presence of p47phox and flavocytochrome b-245, are required for the activation of NADPH oxidase by anionic amphiphiles -: Evidence for an intermediate state of oxidase activation

We have examined the kinetics of NADPH oxidase activation induced by arachidonic acid or SDS in a cell-free system using mixtures of recombinant Phox proteins and purified flavocytochrome b(-245). Activation of oxidase activity required the simultaneous presence of p47(phox), flavocytochrome b(-245), and the anionic amphiphile. The activation of electron transfer reactions was much more rapid when iodonitrotetrazolium violet was used as electron acceptor than when oxygen alone was the acceptor. We propose that this difference represents an intermediate activation state of NADPH oxidase in which electron flow can proceed hom NADPH to enzyme flavin (and hence to iodonitrotetrazolium violet) but not from flavin to heme (or not between the hemes). A model for NADPH oxidase activation is presented that is consistent with these observations.