Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q00604 (X-linked)
 16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have compared assays for products of the neutrophil respiratory burst in normal EBV-transformed B cell lines stimulated with agonists of protein kinase C. Those measuring O2- directly or its immediate product, H2O2, were successful. Of these, the most sensitive were the lucigenin- and luminol-based chemiluminescence assays for O2- and H2O2 respectively. Cell lines from CGD patients, with X-linked or autosomal recessive genetic defects in the neutrophil NADPH oxidase, did not respond in these assays, indicative of their inability to produce O2-. The defects in the lines studied encompass both proteins forming the cytochrome b-245 membrane component, and the 47 kDa cytosolic component of the NADPH oxidase. The possession of the disease associated phenotype by these cell lines provides evidence that in the normal situation both neutrophils and B cells produce O2- via the same system.
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PMID:Superoxide production by normal and chronic granulomatous disease (CGD) patient-derived EBV-transformed B cell lines measured by chemiluminescence-based assays. 133 Dec 41

Using flow cytometry, we compared the phagocytic activity of polymorphonuclear leukocytes (PMNs) from healthy donors with that of PMNs from 10 patients with chronic granulomatous disease (CGD), eight carriers of X-linked CGD, and one patient with myeloperoxidase deficiency. Ingestion of fluorescent bacteria by CGD and myeloperoxidase-deficient PMNs was significantly increased, that is, about 1.5 times that of normal controls. In CGD carriers, two PMN populations were found: one population consisted of PMNs with enhanced phagocytosis, and the other consisted of PMNs with normal phagocytic activity. With a two-dimensional analysis, we also demonstrated in CGD carriers that phagocytosis of the PMNs that failed to generate hydrogen peroxide was significantly elevated, as was phagocytosis of PMNs in patients with CGD, while on the other hand, the PMNs that normally produced hydrogen peroxide exhibited a normal phagocytic activity. When sodium azide, an inhibitor of myeloperoxidase and catalase, was added to control and carrier PMNs, phagocytic activity was significantly increased, p less than 0.01 in both, but not to the level seen with CGD PMNs. Phagocytosis of CGD and myeloperoxidase-deficient PMNs, however, remained unchanged by the azide treatment. On the basis of above findings, we speculate that phagocytosis of CGD PMNs is increased because the H2O2-myeloperoxidase-halide system, which may modulate phagocytic activity of PMNs, fails to operate.
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PMID:Increased phagocytic activity of polymorphonuclear leukocytes of chronic granulomatous disease as determined with flow cytometric assay. 184 70

The oxidative metabolic burst of stimulated human polymorphonuclear leukocytes (PMNs) has been evaluated by the measurement of oxygen consumption, chemiluminescence, and oxygen radicals (O2-, H2O2, OH-) derived from activation of the hexose monophosphate shunt (HMPS). PMNs from patients with chronic granulomatous disease (CGD) are shown to lack functional NADPH oxidase and undetectable oxygen radical generation. However, using single cell analysis by flow cytometry and 2',7'-dichlorofluorescin (DCFH) oxidation by H2O2, significant DCFH oxidation by the PMA stimulated CGD PMNs was observed. Furthermore, 1mM potassium cyanide enhanced DCFH oxidation by control and CGD PMNs. DCFH oxidation by cells from an obligate heterozygous mother of an X-linked CGD patient was intermediate. These observations suggest that a PMA induced oxidase enzyme is present in CGD cells.
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PMID:Phorbol myristate acetate induced oxidation of 2',7'-dichlorofluorescin by neutrophils from patients with chronic granulomatous disease. 316 10

We have previously shown that deuterium oxide (D2O) enhances the oxidation of methionine, a myeloperoxidase (MPO) -mediated reaction, by human neutrophils during phagocytosis. However, D2O has no effect on the oxidation of methionine by the purified MPO-H2O2-Cl- system. To explain this observation, we studied the effect of D2O on the oxidative metabolism, phagocytosis, and lysosomal enzyme release by human neutrophils. D2O stimulated the hexose monophosphate shunt (HMS) activity of resting neutrophils in a dose-response fashion. In the presence of latex particles or phorbol myristate acetate (PMA), D2O brought about an exaggerated stimulation of the HMS activity. This enhancement of the HMS activity by D2O was markedly reduced when neutrophils form two patients with X-linked chronic granulomatous disease (CGD) were used, either in the presence or absence of latex particles or PMA. Superoxide and H2O2 production by neutrophils in the presence of latex particles or PMA were also stimulated by D2O. In contrast, D2O inhibited the ingestion of latex particles. D2O enhanced the extracellular release of MPO, but not lactate dehydrogenase, by neutrophils only in the simultaneous presence of cytochalasin B and latex particles. The enhancement of HMS activity and MPO release by D2O was partially inhibited by colchicine. Our results suggest that enhancement of neutrophil oxidative metabolism by D2O may in part explain the stimulation of methionine oxidation by phagocytosing neutrophils.
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PMID:Effect of deuterium oxide on neutrophil oxidative metabolism, phagocytosis, and lysosomal enzyme release. 629 10

Chronic granulomatous disease (CGD) is a rare syndrome, found predominantly in male children and characterized by life-threatening, recurrent infections. The superoxide (O2-)/hydrogen peroxide (H2O2) generating system in the granulocytes and monocytes of CGD patients is completely defective. Furthermore, a novel type of cytochrome b, detected by the optical spectrum of phagocytes from healthy subjects, is lacking in those of most male CGD patients. In female CGD patients, the cytochrome b is present, but cannot, as in normal cells, be reduced on metabolic stimulation of the phagocytes in anaerobic conditions. Here, to demonstrate the importance of cytochrome b in this system and to investigate the genetic background of the various forms of CGD, we have hybridized monocytes from a cytochrome b negative, X-linked male CGD patient with monocytes from a cytochrome b positive, male CGD patient with unknown genetic background. Monocytes were used because they are the only blood phagocytes that show an active protein synthesis, whereas fibroblasts or lymphocytes do not express the O2-/H2O2 generating system. The heterologous hybrids were positive in the nitroblue tetrazolium (NBT) slide test, indicating the complementation of the O2-/H2O2 generating system, whereas the homologous hybrids remained negative, as did the non-fused cells of these patients. We thus conclude that cytochrome b is part of the O2-/H2O2 generating system and that somatic cell hybridization experiments with monocytes provide a means of studying the genetic background of CGD patients. We believe this to be the first report of genetic complementation by somatic cell hybridization experiments using monocytes instead of fibroblasts.
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PMID:Complementation in monocyte hybrids revealing genetic heterogeneity in chronic granulomatous disease. 632 13

Glucose 6-phosphate dehydrogenase (G6PD) is a housekeeping enzyme encoded in mammals by an X-linked gene. It has important functions in intermediary metabolism because it catalyzes the first step in the pentose phosphate pathway and provides reductive potential in the form of NADPH. In human populations, many mutant G6PD alleles (some present at polymorphic frequencies) cause a partial loss of G6PD activity and a variety of hemolytic anemias, which vary from mild to severe. All these mutants have some residual enzyme activity, and no large deletions in the G6PD gene have ever been found. To test which, if any, function of G6PD is essential, we have disrupted the G6PD gene in male mouse embryonic stem cells by targeted homologous recombination. We have isolated numerous clones, shown to be recombinant by Southern blot analysis, in which G6PD activity is undetectable. We have extensively characterized individual clones and found that they are extremely sensitive to H2O2 and to the sulfydryl group oxidizing agent, diamide. Their markedly impaired cloning efficiency is restored by reducing the oxygen tension. We conclude that G6PD activity is dispensable for pentose synthesis, but is essential to protect cells against even mild oxidative stress.
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PMID:Targeted disruption of the housekeeping gene encoding glucose 6-phosphate dehydrogenase (G6PD): G6PD is dispensable for pentose synthesis but essential for defense against oxidative stress. 748 10

Neutrophils from 50 pediatric patients with normal phagocyte functions, from 150 healthy adults, from 10 chronic granulomatous disease (CGD)-patients (4 CGD+), and from 18 X-linked carriers for CGD have been tested for their production of H2O2 using staining with dihydrorhodamine 123 and subsequent flow cytometry. Additionally, neutrophils from three patients with myeloperoxidase deficiency were assessed. Cells were activated to produce H2O2 by the phorbol ester phorbol-myristate-acetate (PMA) and by phagocytosis of Escherichia coli bacteria. To evaluate the sensitivity of the method, H2O2-production by neutrophils which was inhibited by different concentrations of diphenyljodonium (DPI) was measured. The results were compared to those from other methods (NBT-testing, cytochrome c-reduction, and especially chemiluminescence). Normal values and ranges of scatter profile were evaluated in terms of peak channel fluorescence: 97% > 700, x = 840 +/- 59 (S.D.), 97% < 890, for pediatric patients. Normal quantitative values also resulted from small blood samples of infants (< 1 year, n = 6, x = 830 +/- 52). For CGD+ (n = 4) the results were clearly far below the normal range. In indicating decreased production of reactive oxygen intermediates the method was at least as sensitive as lucigenin enhanced chemiluminescence. Cytochrome b558-expression of neutrophils from patients and healthy controls was established by flow cytometry following staining with the monoclonal antibody 7D5. The normal range was 97% > 485, 97% < 680, peak channel fluorescence. We conclude that flow cytometric routine diagnostics of CGD can easily enhance the reliability of recognition and the yield of information about this disease compared to conventional methods.
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PMID:Evaluation of flow cytometric methods for diagnosis of chronic granulomatous disease variants under routine laboratory conditions. 781 34

Chronic granulomatous disease (CGD) is a rare recessive disorder caused by defects in the NADPH oxidase enzyme complex of phagocytes (neutrophils, eosinophils and monocytes). CGD phagocytes fail to produce superoxide and other reactive oxygen species following cell activation (Malech, 1993). The products of oxidase activation can be measured in individual cells by flow cytometry using specific fluorescent probes that increase fluorescence upon oxidation (Trinkle et al., 1987). This approach can be used to confirm a diagnosis of CGD, and to detect the normal/abnormal phagocyte mixture that characterizes the X-linked CGD carrier state. Three fluorescent probes have been described as useful for this purpose: 2'7'-dichlorofluorescin diacetate (DCF) (Bass et al., 1983), 5,6-carboxy-2'7'-dichlorofluorescein diacetate, bis(acetoxymethyl) ester (C-DCF) (Hockenbery et al., 1993) and dihydrorhodamine 123 (DHR) (Rothe et al., 1988; Kinsey et al., 1987). A direct comparison between these three probes has not been reported. In this study we performed a direct comparison between these three probes, evaluating their ability in flow cytometric analysis to maximize fluorescent separation between activated CGD patient and normal granulocytes. Using a whole blood technique with phorbol myristate acetate (PMA) as an activator, it was found that DHR loaded normal granulocytes had a fluorescence intensity which, upon activation, was 48-fold higher than that of C-DCF loaded granulocytes and seven-fold higher than DCF loaded granulocytes (P < 0.001). Use of sodium azide to decrease the catabolism of H2O2 enhanced the fluorescence of DCF by 140%, C-DCF by 45% and DHR by 25%, suggesting that DCF is primarily sensitive to H2O2. DCF and DHR were then evaluated for sensitivity in the detection of small percentages of normal cells in a CGD/normal granulocyte mixture. Normal sub-populations as small as 0.1% could clearly be distinguished using DHR, while DCF was insensitive at this level. Based on these findings, we used DHR in an effort to detect normal granulocytes in a CGD patient following therapeutic granulocyte transfusion. We were able to detect normal granulocytes in the circulation for up to 18 h after transfusion. With these data we show that DHR is the most sensitive flow cytometric indicator for the detection of oxygen reactive species in activated granulocytes and is the best probe for evaluating CGD patients and carriers. In addition, our data suggest that DHR is a useful tool for monitoring circulating normal granulocytes in CGD patients following transfusion, and potentially will be a sensitive probe for assessing the success of such future technologies as gene therapy for CGD.
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PMID:Flow cytometric analysis of the granulocyte respiratory burst: a comparison study of fluorescent probes. 782 69

Chronic granulomatous disease is an inherited disease characterized by the inability of phagocytes to generate normal amounts of superoxide, leaving patients susceptible to opportunistic, life-threatening infections. In the majority of cases, cytochrome b558 is absent in the X-chromosomal form of CGD. However, the neutrophils from six of nine X-linked CGD patients, reported here, expressed normal or decreased amounts of this cytochrome and are referred to as "variant" forms. In three of these six variant patients, a roughly proportional decrease in cytochrome b558 expression and production of H2O2 were found. In two cases this phenotype could be well explained by special splice mutations, whereas in the third case it was caused by a missense mutation, predicting Ser 193-->Phe. In the other three variant patients, cytochrome b558 expression and H2O2 production were clearly disproportionate as the generation of H2O2 was much more decreased than cytochrome expression. Missense mutations also were found in these cases. One of these mutations, predicting Leu 546-->Pro and affecting the putative nicotinamide adenine dinucleotide phosphate binding site, led to normal levels of cytochrome b558 expression and reduced H2O2 production. In the other two mutations, predicting Pro 339-->His and His 338-->Tyr, the putative flavin adenine dinucleotide binding site was affected. This could explain the corresponding uncommon phenotypes, characterized by zero or trace amounts of H2O2 production and the expression of relatively high amounts of nonfunctional or low functional cytochrome b558, respectively. The only missense mutation found that prevented the expression of any cytochrome b558 was caused by a predicted His 222-->Arg exchange in one of the three classic cases. The two other classic phenotypes were caused by splice mutations.
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PMID:Uncommon missense and splice mutations and resulting biochemical phenotypes in German patients with X-linked chronic granulomatous disease. 1008 13

During the preimplantation period, in vitro cultured males have a higher metabolic rate, different gene expression, and grow faster than females. It has been suggested that under some stress conditions male embryos are more vulnerable than females; however, the biological fragility of male embryos is little understood. Since many forms of stress result in the overproduction of cellular reactive oxygen species (ROS), we addressed the hypothesis that the connection between female advantage during early developmental stages and heat stress involves ROS and differential gene expression of G6PD, an X-linked gene related to oxidative stress. We have found that after compaction, female heat-stressed embryos have less relative amounts of H2O2 than males, and female embryos survive better than males under in vivo or in vitro heat stress situations. In addition, in vitro produced female embryos grow slower than male embryos, have differential mRNA transcription of G6PD and also of some genes situated on autosomal-chromosomes (Sox, Bax, and Oct-4). Moreover, by inhibiting G6PD, all differences generated by oxidative stress between male and female embryos disappear. For the first time, we provide an experimental demonstration of a mechanism that explains why following exposure to heat stress-induced ROS, female preimplantation embryos are more resistant than males.
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PMID:Differential sensitivity of male and female mouse embryos to oxidative induced heat-stress is mediated by glucose-6-phosphate dehydrogenase gene expression. 1614 81


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