Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.1.25 (triphosphatase)
 1,529 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The formation of microbicidal oxidants by stimulated phagocytes is a major mechanism of host defence against infection and may also cause unwanted damage to host tissues in the setting of inappropriate inflammation. Recently, the molecular basis for oxidant production has been defined by elucidating the structure, biochemistry and regulation of the phagocyte NADPH oxidase, a multicomponent enzyme that uses NADPH to reduce molecular oxygen to superoxide anion which is then converted to hydrogen peroxide. Many of the advances resulted from the study of phagocytes obtained from patients with inherited abnormalities of the NADPH oxidase system, known as the chronic granulomatous diseases of childhood (CGD). These patients are susceptible to life-threatening infections. The NADPH oxidase is a complex enzyme system that has been shown to contain cytosolic and membrane components that assemble at the plasma membrane with cell activation. These components include a membrane NADPH-binding flavoprotein, cytochrome b558, the cytosolic proteins p47phox, p67phox and a small ras-related guanosine triphosphatase or rac protein that confers guanosine triphosphate sensitivity to the NADPH oxidase. Clinically, the NADPH oxidase system can be stimulated with interferon-gamma, resulting in reduced infections in patients with CGD. In addition, the recent incorporation of genes for the components of the NADPH oxidase into retrovirus vectors has resulted in successful transduction of these genes into blood stem cells from CGD patients with correction of the functional defect. This suggests that gene therapy for correction of CGD will be possible in the near future.
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PMID:Delineation of the phagocyte NADPH oxidase through studies of chronic granulomatous diseases of childhood. 818 51

Reactive oxygen species (ROS) function as signaling molecules to mediate various biological responses, including cell migration, growth, and gene expression. ROS are diffusible and short-lived molecules. Thus, localizing the ROS signal at the specific subcellular compartment is essential for activating redox signaling events after receptor activation. NADPH (nicotinamide adenine dinucleotide phosphate) oxidase is one of the major sources of ROS in vasculature; it consists of a catalytic subunit (Nox1, Nox2, Nox3, Nox4, or Nox5), p22phox, p47phox, p67phox, and the small guanosine triphosphatase Rac1. Targeting of NADPH oxidase to focal complexes in lamellipodia and membrane ruffles through the interaction of p47phox with the scaffold proteins TRAF4 and WAVE1 provides a mechanism for achieving localized ROS production, which is required for directed cell migration. ROS are believed to inactivate protein tyrosine phosphatases, which concentrate in specific subcellular compartments, thereby establishing a positive feedback system that activates redox signaling pathways to promote cell movement. Additionally, ROS production may be localized through interactions of NADPH oxidase with signaling platforms associated with lipid rafts and caveolae, as well as with endosomes. There is also evidence that NADPH oxidase is found in the nucleus, indicating its involvement in redox-responsive gene expression. This review focuses on targeting of NADPH oxidase to discrete subcellular compartments as a mechanism of localizing ROS and activation of downstream redox signaling events that mediate various cell functions.
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PMID:Localizing NADPH oxidase-derived ROS. 1692 63

The phagocyte nicotinamide adenine dinucleotide phosphate (NADPH) oxidase plays a crucial role in host defense by neutrophils and macrophages. When cells ingest invading microbes, this enzyme becomes activated to reduce molecular oxygen to superoxide, a precursor of microbicidal oxidants, in the phagosome. The catalytic core of the oxidase is membrane-bound cytochrome b558, which comprises gp91phox and p22phox. gp91phox belongs to the NADPH oxidase (Nox) family, which contains the entire electron-transporting apparatus from NADPH to molecular oxygen. In resting neutrophils, cytochrome b558 is mainly present in the membrane of the specific granule, an intracellular component, and is targeted to the phagosomal membrane during phagocytosis. Activation of gp91phox involves the integrated function of cytoplasmic proteins such as p47phox, p67phox, p40phox, and the small guanosine triphosphatase Rac; these proteins translocate to the phagosomal membrane to interact with cytochrome b558, leading to superoxide production. Here we describe a current molecular model for phagocytosis-coupled activation of the NADPH oxidase.
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PMID:Phagocytosis-coupled activation of the superoxide-producing phagocyte oxidase, a member of the NADPH oxidase (nox) family. 1705 Jan 90