The phosphoinositide-binding protein p40phox activates the NADPH oxidase during Fc{gamma}IIA receptor-induced phagocytosis

doi:10.1084/jem.20052085

Published online 31 July 2006 doi:10.1084/jem.20052085
Rockefeller University Press, 0022-1007 $8.00
JEM, Volume 203, Number 8, 1915-1925

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The phosphoinositide-binding protein p40^phox activates the NADPH oxidase during Fc ${gamma}$ IIA receptor–induced phagocytosis

Chang-Il Suh¹, Natalie D. Stull¹, Xing Jun Li¹, Wei Tian¹, Marianne O. Price¹^,3, Sergio Grinstein⁵, Michael B. Yaffe⁶, Simon Atkinson⁴, and Mary C. Dinauer¹^,2^,3

¹ Department of Pediatrics (Hematology/Oncology), Herman B Wells Center for Pediatric Research, Riley Hospital for Children, ² Department of Microbiology/Immunology, ³ Department of Medical and Molecular Genetics, and ⁴ Department of Medicine (Nephrology), Indiana University School of Medicine, Indianapolis, IN 46202
⁵ Division of Cell Biology, Hospital for Sick Children, Toronto, Ontario M5G 1X8, Canada
⁶ Department of Biology, Center for Cancer Research, Massachusetts Institute of Technology, Cambridge, MA 02139

CORRESPONDENCE Mary C. Dinauer: mdinauer{at}iupui.edu

Superoxide produced by the phagocyte reduced nicotinamide adeninedinucleotide phosphate (NADPH) oxidase is essential for hostdefense. Enzyme activation requires translocation of p67^phox,p47^phox, and Rac-GTP to flavocytochrome b₅₅₈ in phagocyte membranes.To examine the regulation of phagocytosis-induced superoxideproduction, flavocytochrome b₅₅₈, p47^phox, p67^phox, and theFc ${gamma}$ IIA receptor were expressed from stable transgenes in COS7cells. The resulting COS^phoxFc ${gamma}$ R cells produce high levels ofsuperoxide when stimulated with phorbol ester and efficientlyingest immunoglobulin (Ig)G-coated erythrocytes, but phagocytosisdid not activate the NADPH oxidase. COS7 cells lack p40^phox,whose role in the NADPH oxidase is poorly understood. p40^phoxcontains SH3 and phagocyte oxidase and Bem1p (PB1) domains thatcan mediate binding to p47^phox and p67^phox, respectively, alongwith a PX domain that binds to phosphatidylinositol-3-phosphate(PI(3)P), which is generated in phagosomal membranes. Expressionof p40^phox was sufficient to activate superoxide productionin COS^phoxFc ${gamma}$ R phagosomes. Fc ${gamma}$ IIA-stimulated NADPH oxidase activitywas abrogated by point mutations in p40^phox that disrupt PI(3)Pbinding, or by simultaneous mutations in the SH3 and PB1 domains.Consistent with an essential role for PI(3)P in regulating theoxidase complex, phagosome NADPH oxidase activation in primarymacrophages ingesting IgG-coated beads was inhibited by phosphatidylinositol3 kinase inhibitors to a much greater extent than phagocytosisitself. Hence, this study identifies a role for p40^phox andPI(3)P in coupling Fc ${gamma}$ R-mediated phagocytosis to activation ofthe NADPH oxidase.

Abbreviations used: EYFP, enhanced yellow fluorescence protein;NADPH, reduced nicotinamide adenine dinucleotide phosphate;NBT, nitroblue tetrazolium; PB1, phagocyte oxidase and Bem1p;PEM, peritoneal exudate macrophage; PI3, phosphoinositide 3;PI(3)P, phosphatidylinositol-3-phosphate; PRR, proline-richregion.

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Neutrophils from p40^phox–/– mice exhibit severe defects in NADPH oxidase regulation and oxidant-dependent bacterial killing: Chris D. Ellson, Keith Davidson, G. John Ferguson, Rod O'Connor, Len R. Stephens, and Phillip T. Hawkins
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