EC:1.6.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.3.1 (NADPH oxidase)
11,281 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

When the neutrophil NADPH oxidase is activated to generate superoxide, the cytosolic components, p47phox, p67phox, and the GTP-binding protein Rac, become stably associated with the plasma membrane. The translocation of p47phox and p67phox is dependent on the presence in the membrane of the flavocytochrome b558, itself composed of two subunits, gp91phox and p22phox. In this study we have quantitated Rac1 and Rac2 in human neutrophils and show that > 96% of the Rac protein is Rac2 and that chronic granulomatous disease (CGD) neutrophils contain normal levels of the protein. We used a cell-free translocation system as well as intact normal and CGD neutrophils to determine whether the translocation of Rac2 is dependent upon the presence of the other oxidase components. When cell-free reactions contained any combination of normal, p47phox-deficient or p67phox-deficient cytosol and normal or flavocytochrome b558-deficient membranes, the GTP gamma S (guanosine 5'-3-O-(thio)triphosphate)-dependent association of Rac2 with the re-isolated membranes was not significantly different from the control mixture of normal membranes and cytosol. In intact CGD neutrophils lacking p47phox or p67phox and stimulated with phorbol myristate acetate the translocation of Rac2 was also normal, and we conclude that Rac translocation can occur independently of the cytosolic NADPH oxidase components. In contrast, in the absence of flavocytochrome b558 from intact X-chromosome linked CGD neutrophils, Rac2 translocation was reduced to only 25% of the control value. On the basis of these observations we propose that while Rac2 can bind to a site distinct from either gp91phox or p22phox, it depends upon an interaction with the flavocytochrome b558 for maximal stability in the membrane.
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PMID:Rac translocates independently of the neutrophil NADPH oxidase components p47phox and p67phox. Evidence for its interaction with flavocytochrome b558. 798 99

CGD is a rare inherited immunodeficiency syndrome, caused by the phagocytes' inability to produce (sufficient) reactive oxygen metabolites. This dysfunction is due to a defect in the NADPH oxidase, the enzyme responsible for the production of superoxide. It is composed of several subunits, two of which, gp91phox and p22phox, form the membrane-bound cytochrome b558, while its three cytosolic components, p47phox, p67phox and p40phox, have to translocate to the membrane upon activation. This is a tightly and intricately controlled process that involves, among others, several low-molecular weight GTP-binding proteins. Gp91phox is encoded on the X-chromosome and p22phox, p47phox and p67phox on different autosomal chromosomes, and a defect in one of these components leads to CGD. This explains the variable mode of inheritance seen in this syndrome. Clinically CGD manifests itself typically already at a very young age with recurrent and serious infections, most often caused by catalase-positive pathogens. Modern treatment options, including prophylaxis with trimethoprim-sulfamethoxazole and rIFN-gamma as well as early and aggressive anti-infection therapy, have improved the prognosis of this disease dramatically. CGD, as a very well-characterized inherited affection of the hematopoietic stem cells, is predestined to be among the first diseases to profit from the advances in cutting-edge therapeutics, such as gene therapy and in utero stem cell transplantation.
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PMID:The molecular basis of chronic granulomatous disease. 961 66

The most common form of chronic granulomatous disease (CGD) is caused by mutations in the CYBB gene that is carried on the X-chromosome and give rise to the X-linked form of the disease. The product of this gene is the large subunit of flavocytochrome b558, gp91phox, the catalytic core of the superoxide-generating enzyme, NADPH oxidase. In the overwhelming majority of cases, mutations are family-specific and occur in the exonic regions of the gene or, less frequently, at the intron/exon borders. In addition, there are large, often multi-gene, deletions. Four mutations have also been found in the promoter regions. In contrast, very few intronic mutations have been reported. Here we describe an unusual intronic mutation that causes CGD. The mutation is the insertion of 12 bp in intron XI, accompanied by the deletion of exon 12. Remarkably, the grandmother of this patient is chimeric, carrying a normal allele, the patient's allele, and an allele with a 4-nucleotide insertion at a site adjacent to the patient's insertion, in combination with a 1.5-kb deletion within intron XI. The patient's mother carries a normal allele and the patient's allele. We propose that an initial mutational event during the grandmother's embryogenesis has undergone unsuccessful DNA repair and has resulted in two aberrant alleles, one of which has been inherited by the patient and his mother. Remarkably, in the only two kindreds that have been examined in detail where deletions originating within introns have led to CGD, both families have contained members with triple somatic mosaicism.
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PMID:A second case of somatic triple mosaicism in the CYBB gene causing chronic granulomatous disease. 1151 30

Most patients with chronic granulomatous disease (CGD) have mutations in the X-linked CYBB gene that encodes gp91phox, a component of the phagocyte NADPH oxidase. The resulting X-linked form of CGD is usually manifested in boys. Rarely, X-CGD is encountered in female carriers with extreme expression of the mutated gene. Here, we report on a woman with a novel mutation in CYBB (CCG[90-92]-->GGT), predicting Tyr30Arg31-->stop, Val in gp91phox, who presented with clinical symptoms at the age of 66. The mutation was present in heterozygous form in genomic DNA from her leukocytes but was fully expressed in mRNA from these cells, indicating that in her leukocytes the X chromosome carrying the nonmutated CYBB allele had been inactivated. Indeed, only 0.4% to 2% of her neutrophils showed NADPH oxidase activity. This extreme skewing of her X-chromosome inactivation was not found in her cheek mucosal cells and is thus not due to a general defect in gene methylation on one X chromosome. Moreover, the CYBB mutation was not present in the DNA from her cheek cells and was barely detectable in the DNA from her memory T lymphocytes. Thus, this patient shows a somatic mosaic for the CYBB mutation, which probably originated during her lifetime in her bone marrow.
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PMID:Unusual late presentation of X-linked chronic granulomatous disease in an adult female with a somatic mosaic for a novel mutation in CYBB. 1530 75

CYBB encodes the gp91-phox protein of the phagocytic NADPH oxidase; the innate immunity-related enzymatic complex responsible for the respiratory burst. Mutations in CYBB can cause chronic granulomatous disease (CGD), a primary immunodeficiency characterized by ineffective microbicidal activity, for which over 150 family-specific mutations have been described. It is also plausible that common SNPs in CYBB alter the expression or function of gp91-phox, determining differences in susceptibility to complex disorders such as autoimmune or infectious diseases. We have resequenced the exons, UTRs, and intronic regions of CYBB in 102 ethnically diverse individuals and genotyped nine tag-SNPs in 942 individuals from 52 worldwide populations. The 28 observed SNPs (none of which nonsynonymous) reside on 28 haplotypes that can be collapsed into five clades. CYBB shows lower diversity than other X-chromosome genes and most of the between-population genetic variance was observed among Africans and non-Africans. The African population shows the highest diversity and the lowest linkage disequilibrium (LD). Because there is extensive shared LD among non-Africans, tag-SNPs can be effectively employed in gene-centric association studies and are portable across Eurasian and Native American populations. Comparison of CYBB coding sequences among mammals evidences the action of long-term purifying selection, which is stronger on the C-terminal cytosolic domain than on the N-terminal transmembrane domain of gp91-phox.
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PMID:CYBB, an NADPH-oxidase gene: restricted diversity in humans and evidence for differential long-term purifying selection on transmembrane and cytosolic domains. 1827 5

Cellular X-chromosome mosaicism, which is unique to females, may be advantageous during pathophysiological challenges compared with the single X-chromosome machinery of males, and it may contribute to gender dimorphism in the inflammatory response. We tested the hypothesis of whether cellular mosaicism for the X-linked gp91phox (NOX2) deficiency, the catalytic component of the superoxide anion-generating NADPH oxidase complex, is advantageous during polymicrobial sepsis. Deficient, wild-type (WT), and heterozygous/mosaic mice were compared following polymicrobial sepsis initiated by cecal ligation and puncture. Compared with WT littermates, sepsis-induced mortality was improved in deficient mice, as well as in mosaic animals carrying both deficient and WT phagocyte subpopulations. In contrast, blood bacterial counts were greatest in deficient mice. Consistent with poor survival, WT mice also showed the most severe organ damage following sepsis. In mosaic animals, the deficient neutrophil subpopulations displayed increased organ recruitment and elevated CD11b membrane expression compared with WT neutrophil subpopulations within the same animal. The dynamics of sepsis-induced blood and organ cytokine content and WBC composition changes, including lymphocyte subsets in blood and bone marrow, showed differences among WT, deficient, and mosaic subjects, indicating that mosaic mice are not simply the average of the deficient and WT responses. Upon oxidative burst, interchange of oxidants between WT and deficient neutrophil subpopulations occurred in mosaic mice. This study suggests that mice mosaic for gp91phox expression have multiple advantages compared with WT and deficient mice during the septic course.
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PMID:Female X-chromosome mosaicism for NOX2 deficiency presents unique inflammatory phenotype and improves outcome in polymicrobial sepsis. 2150 76

The modulation of the HDL receptor scavenger receptor B1 (SRB1) was evaluated in skin fibroblasts isolated from Rett syndrome (RTT) patients, a rare neurodevelopmental disorder affecting almost exclusively females associated in up to 95% of cases to de novo loss-of-function mutations in the X-chromosome-linked gene encoding the methyl-CpG-binding protein 2 (MeCP2). Patients showed an altered plasma lipid profile, while their skin fibroblasts showed a dramatic reduction in SRB1 (immunogold, Western blot and immunohistochemistry). The decreased SRB1 levels were demonstrated to be the consequence of its binding with 4-hydroxy-2-nonenal (4HNE), a product of lipid peroxidation, and its increased ubiquitination. Therefore the loss of SRB1 in RTT cells is a consequence of the chronic oxidative stress status present in RTT. In addition RTT fibroblast presented high intracellular levels of H2O2 and 4HNE protein adducts. This finding was correlated with the constitutive activation of NADPH oxidase (NOX) and was reverted by DPI (NOX inhibitor) or Desferal (Iron chelator) pre-treatment. To confirm the alteration of status redox in RTT cells, the activity of several enzymes involved in protecting the cell from OS was also evaluated. Glutathione peroxidase (GPx), Supeoxide dismutase and Glucose-6-phosphate dehydrogenase (G6PDH) activity were decreased respect to control. These data paralleled with a constitutive activation of NRF2 and elevated gene expression of Heme oxigenase-1 (HO-1) and NAD(P)H dehydrogenase quinone 1 (NQO-1). Of note, when NRF2 pathway was stimulated via exogenous oxidants, RTT fibroblast did not respond as the control cells.
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PMID:Scavenger Receptor B1 oxidative post-translational modifications are responsible for its loss in Rett syndrome. 2646 Dec 80

Recurrent severe bacterial and fungal infections are characteristic features of the rare genetic immunodeficiency disorder chronic granulomatous disease (CGD). The disease usually manifests within the first years of life with an incidence of 1 in approximately 200,000 live births. The incidence is higher in Iran and Morocco where it reaches 1.5 per 100,000 live births. Mutations have been described in the 5 subunits of NADPH oxidase, mostly in gp91phox and p47phox, with fewer mutations reported in p67phox, p22phox, and p40phox. These mutations cause loss of superoxide production in phagocytic cells. CYBB, the gene encoding the large gp91phox subunit of the transmembrane component cytochrome b558 of the NADPH oxidase complex, is localized on the X-chromosome. Genetic defects in CYBB are responsible for the disease in the majority of male CGD patients. CGD is associated with the development of granulomatous reactions in the skin, lungs, bones, and lymph nodes, and chronic infections may be seen in the liver, gastrointestinal tract, brain, and eyes. There is usually a history of repeated infections, including inflammation of the lymph glands, skin infections, and pneumonia. There may also be a persistent runny nose, inflammation of the skin, and inflammation of the mucous membranes of the mouth. Gastrointestinal problems can also occur, including diarrhea, abdominal pain, and perianal abscesses. Infection of the bones, brain abscesses, obstruction of the genitourinary tract and/or gastrointestinal tract due to the formation of granulomatous tissue, and delayed growth are also symptomatic of CGD. The prevention of infectious complications in patients with CGD involves targeted prophylaxis against opportunistic microorganisms such as Staphylococcus aureus, Klebsiella spp., Salmonella spp. and Aspergillus spp. In this review, we provide an update on organ involvement and the association with specific isolated microorganisms in CGD patients.
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PMID:Common Infections and Target Organs Associated with Chronic Granulomatous Disease in Iran. 3090 13

Chronic granulomatous disease (CGD) is a primary immunodeficiency caused by defective phagocytic NADPH oxidase, causing a complete lack or significant decrease in the production of microbicidal reactive oxygen metabolites. It mainly affects male children; however, there are scarce reports of adult females diagnosed with X-linked-CGD attributed to an extremely skewed X-chromosome inactivation. This condition is characterized by severe and recurrent infections that usually develop after childhood. In clinical practice, physicians who usually confront these patients should suspect this entity and differentiate it from a secondary immunodeficiency. Here, we report a 38-year-old Mexican female with juvenile-onset X linked-CGD, caused by a de novo mutation and extremely skewed X-inactivation, whose clinical features were similar to those in patients with classic X-linked-CDG.
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PMID:Skewed X-inactivation in a Female Carrier with X-linked Chronic Granulomatous Disease. 3152 53