Role for the first SH3 domain of p67 in activation of superoxide-producing NADPH oxidases

The membrane-bound NADPH oxidase in phagocytes, gp91^phox (a.k.a. Nox2), produces superoxide, a precursor of microbicidal oxidants, thereby playing a crucial role in host defense. Activation of gp91^phox/Nox2 requires assembly with the cytosolic proteins p67^phox and p47^phox, each containing two SH3 domains. Although the C-terminal SH3 domain of p67^phox is responsible for binding to p47^phox, little is known about the role for the first (N-terminal) SH3 domain [SH3(N)]. Here we show that truncation of p67^phox-SH3(N), but not substitution of arginine for the invariant residue Trp-277 in SH3(N), results in an impaired activation of gp91^phox/Nox2. The impairment is overcome by higher expression of an SH3(N)-defective p67^phox in cells, suggesting that SH3(N) primarily increases the affinity of p67^phox for the oxidase complex. On the other hand, p67^phox-SH3(N) is not involved in activation of Nox1 and Nox3, closely-related homologues of gp91^phox/Nox2. Thus p67^phox-SH3(N) specifically functions in gp91^phox/Nox2 activation probably via facilitating oxidase assembly.