A Fluorescently Tagged C-Terminal Fragment of p47phox Detects NADPH Oxidase Dynamics during Phagocytosis

Abstract

The assembly of cytosolic p47phox and p67phox with flavocytochrome b558 at the membrane is crucial for activating the leukocyte NADPH oxidase that generates superoxide for microbial killing. p47phox and p67phox are linked via a high-affinity, tail-to-tail interaction involving a proline-rich region (PRR) and a C-terminal SH3 domain (SH3b), respectively, in their C-termini. This interaction mediates p67phox translocation in neutrophils, but is not required for oxidase activity in model systems. Here we examined phagocytosis-induced NADPH oxidase assembly, showing the sequential recruitment of YFP-tagged p67phox to the phagosomal cup, and, after phagosome internalization, a probe for PI(3)P followed by a YFP-tagged fragment derived from the p47phox PRR. This fragment was recruited in a flavocytochrome b558-dependent, p67phox-specific, and PI(3)P-independent manner. These findings indicate that p47PRR fragment probes the status of the p67phox SH3b domain and suggest that the p47phox/p67phox tail-to-tail interaction is disrupted after oxidase assembly such that the p67phox-SH3b domain becomes accessible. Superoxide generation was sustained within phagosomes, indicating that this change does not correlate with loss of enzyme activity. This study defines a sequence of events during phagocytosis-induced NADPH oxidase assembly and provides experimental evidence that intermolecular interactions within this complex are dynamic and modulated after assembly on phagosomes.