William M. Nauseef scite author profile

MPO activity is critical for optimal microbicidal activity of normal PMNs. In the absence of MPO, auxiliary mechanisms protect most MPO-deficient hosts from clinically significant sequelae, except for some persons with diabetes mellitus who suffer severe candidal disease. However, given our limited knowledge of the clinical impact of MPO deficiency, histochemical staining of peripheral blood smears or MPO activity of isolated leukocytes should be assessed in patients with unexplained fungal disease or with suspected impaired host defenses. Recently isolated cDNA probes provide important tools for dissecting the molecular and cell biology underlying hereditary MPO deficiency and the link between MPO gene expression and myeloid differentiation.

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The NADPH‐Dependent Oxidase of Phagocytes

Nauseef

1999

Proc Assoc American Phys

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Polymorphonuclear leukocytes (PMNs) represent a prominent cellular element in the innate immune system, serving to ingest exogenous particles and microbes and to kill phagocytosed microorganisms. The microbicidal activity of PMNs depends on the interactions of a broad array of potent systems, including relatively stable degradative proteins as well as labile reactive radicals. These systems can be categorized as oxygen-dependent and nonoxidative mechanisms, although the physiologically relative activity depends on the precisely orchestrated interplay between both systems. The enzyme complex responsible for the activity of the oxygen-dependent system is the respiratory burst oxidase and its important contribution to host defense is best illustrated by the frequent and severe infections seen in individuals whose PMNs lack oxidase activity, namely patients with chronic granulomatous disease (CGD). Multiple elements comprise the oxygen-dependent system, and significant advances have been made in the past decade in understanding the protein components of the respiratory burst oxidase, their subcellular distribution in resting PMNs, and their agonist-dependent assembly into a functional system at phagosomal and plasma membranes. In parallel, substantial insights into the molecular bases of CGD have likewise been made. Nonetheless there remain significant gaps in our understanding of the precise functional contributions of particular components of the system, the molecular mechanisms that regulate their coordinated assembly, and the role of related proteins in nonphagocytic cells.

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Transient Association of the Nicotinamide Adenine Dinucleotide Phosphate Oxidase Subunits p47phox and p67phox With Phagosomes in Neutrophils From Patients With X-Linked Chronic Granulomatous Disease

Allen

DeLeo

Gallois

et al. 1999

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Optimal microbicidal activity of polymorphonuclear leukocytes (PMNs) requires recruitment of a functional nicotinamide adenine dinucleotide phosphate (NADPH) oxidase to the phagosome. In this study, we used a synchronized phagocytosis assay and immunofluorescence microscopy (IFM) to examine the association of cytosolic NADPH oxidase subunits with phagosomes containing opsonized zymosan (OpZ). Ingestion of OpZ began within 30 seconds of particle binding and forming phagosomes were enriched for both F-actin and the actin-binding protein p57. NADPH oxidase subunits p47phox and p67phox were also recruited to forming phagosomes and were retained on mature phagosomes for at least 15 minutes. Colocalization of F-actin, p57, and p47phox on phagosomes was confirmed by immunoblotting. Translocation of p67phox, but not p57, to forming phagosomes was deficient in PMNs lacking p47phox. Surprisingly, we found that in PMNs from six individuals with X-linked chronic granulomatous disease (CGD), p47phox and p67phox accumulated in the periphagosomal area during ingestion of OpZ. However, in marked contrast to normal PMNs, p47phox and p67phox were shed from nascent phagosomes along with F-actin and p57 once OpZ was internalized (≈5 minutes). These data support a model in which flavocytochrome b is required for stable membrane binding of p47phox and p67phox, but not their association with the cytoskeleton or transport to the cell periphery.

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