Gene/Protein
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Symptom
Drug
Enzyme
Compound
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Target Concepts:
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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)
Hydrogen peroxide is the final electron acceptor for the biosynthesis of thyroid hormone catalyzed by thyroperoxidase at the apical surface of thyrocytes. Pig and human thyroid plasma membrane contain a Ca(2+)-dependent
NAD(P)H oxidase
that generates H(2)O(2) by transferring electrons from NAD(P)H to molecular oxygen. We purified from pig thyroid plasma membrane a flavoprotein which constitutes the main, if not the sole, component of the thyroid
NAD(P)H oxidase
. Microsequences permitted the cloning of porcine and human full-length cDNAs encoding, respectively, 1207- and 1210-amino acid proteins with a predicted molecular mass of 138 kDa (p138(Tox)). Human and porcine p138(Tox) have 86.7% identity. The strongest similarity was to a predicted polypeptide encoded by a Caenorhabditis cDNA and with rbohA, a protein involved in the Arabidopsis
NADPH oxidase
. p138(Tox) shows also similarity to the p65(Mox) and to the gp91(Phox) in their C-terminal region and have consensus sequences for FAD- and NADPH-binding sites. Compared with gp91(Phox), p138(Tox) shows an extended N-terminal containing two EF-hand motifs that may account for its calcium-dependent activity, whereas three of four sequences implicated in the interaction of gp91(Phox) with the
p47
(Phox) cytosolic factor are absent in p138(Tox). The expression of porcine p138(Tox) mRNA analyzed by Northern blot is specific of thyroid tissue and induced by cyclic AMP showing that p138(Tox) is a differentiation marker of thyrocytes. The gene of human p138(Tox) has been localized on chromosome 15q15.
...
PMID:Purification of a novel flavoprotein involved in the thyroid NADPH oxidase. Cloning of the porcine and human cdnas. 1060 Dec 91
Deficiencies in neutrophil
NADPH oxidase
proteins have been demonstrated in humans with chronic granulomatous disease. However, no spontaneous mutation in murine
NADPH oxidase
has been reported. In this study we report that neutrophils from the diabetic mouse strains, C57BL/6J-m heterozygous lean (lepr(db/+)) and homozygous obese (lepr(db/db)) mice produced no superoxide on stimulation. An absence of intact
p47
(phox) but not other oxidase proteins was observed in both mouse strains through the use of immunoblotting. Molecular analysis by reverse transcriptase-polymerase chain reaction identified three abnormal p47phox mRNA transcripts. Sequencing of genomic DNA of
p47
(phox) revealed a point mutation at the -2 position of exon 8, which is consistent with aberrant splicing of the
p47
(phox) transcript. These results indicate that the C57BL/6J-m db/db and db/+ mice are the first spontaneously derived murine model of
NADPH oxidase
deficiency involving a
p47
(phox) mutation.
...
PMID:P47(phox)-deficient NADPH oxidase defect in neutrophils of diabetic mouse strains, C57BL/6J-m db/db and db/+. 1067 May 82
Mycobacterium tuberculosis is an important respiratory pathogen the growth of which is controlled primarily by cytokine-activated macrophages. One of the principal mediators of this control is nitric oxide; however, superoxide has recently been shown to be protective in systemic mycobacterial infections. To determine whether superoxide is important in controlling M. tuberculosis during primary pulmonary infection, mice lacking the cytosolic
p47
(phox) gene (which is essential for effective superoxide production by the
NADPH oxidase
) were infected aerogenically. The lack of superoxide during an aerosol infection with M. tuberculosis resulted in a significant increase in bacterial growth over the early period of infection. Once antigen-specific gamma interferon-producing lymphocytes were detected in the draining lymph nodes, however, bacterial growth in the lung stopped. One interesting consequence of the lack of superoxide was an increase in neutrophilic infiltrates within the granuloma. This may be a consequence of increased tissue damage due to more rapid bacterial growth or may reflect a role for superoxide in controlling inflammation.
...
PMID:Transient loss of resistance to pulmonary tuberculosis in p47(phox-/-) mice. 1067 31
The possibility of gene therapy for inherited diseases with a single gene mutation in Figure 1 had been verified by the successful treatment with bone marrow transplantation. As the gene therapy method and theory has been progressing rapidly, it is expected that gene therapy will overcome the complications of bone marrow transplantation. Of these inherited diseases, chronic granulomatous disease (CGD) is the one of the most expected disease for gene therapy. CGD is an inherited immune deficiency caused by mutations in any of the following four phox genes encoding subunits of the superoxide generating phagocyte
NADPH oxidase
. It consists of membranous cytochrom b558 composed of gp91 phox and p22 phox, and four cytosolic components,
p47
phox, p67 phox, rac p21 and p40 phox, which translocate to the membrane upon activation. In our group study, more than 220 CGD patients has been enrolled. The incidence of CGD patients was estimated as 1 out of 250,000 births. The expected life span of the CGD patients is 25 to 30 years old by the Kaplan Meier analysis. Comparing with the ratio of CGD subtype in US and Europe, that with p47phox deficiency is lower (less than 10%/o vs. 23%) and that of gp91 phox deficiency is higher (more than 75% vs. 60%). Prophylactic administration of ST antibiotics and IFN-gamma and bone marrow transplantation have been successfully employed in our therapeutic strategy. However, it is necessary to develop the gene therapy technology for CGD patients as more promising treatment. In the current study we constructed two retrovirus vectors; MFGS-gp91/293 SPA which contains only the therapeutic gp91 phox gene, a bicistronic retrovirus pHa-MDR-IRES-gp91/PA317 which carries a multi drug resistant gene (MDR1) and the gp91phox gene connected with an internal ribosome entry site (IRES). We demonstrate high efficiency transduction of gp 91 phox to CGD EB virus established cell line with high levels of functional correction of the oxidase by MFGS-gp91 and by pHa-MDR-IRES-gp91, respectively. We also demonstrate sufficient transduction of gp91 phox to CD34+ hematopoietic stem cell from the patients with gp91 phox deficiency by MFGS-gp91/293 SPA. Our current studies suggest that the combination of the 293-SPA packaging system and the bicistronic retrovirus system inserted MDR1 gene make our CGD gene therapy more feasible for clinical application.
...
PMID:[Gene therapy for inherited diseases using heamatopoietic stem cells--gene therapy for patients with chronic granulomatous disease]. 1069 16
Accumulating evidence suggests that neuroepithelial bodies are airway O(2) sensors. Recently, we have established the H-146 small cell lung carcinoma line as a suitable model to study the biochemical basis of neuroepithelial body cell chemotransduction. Here we explore the possibility that hypoxic modulation of K(+) channels is intimately linked to activity of
NADPH oxidase
. Graded hypoxia caused graded inhibition of whole cell K(+) currents, which correlated well with membrane depolarization. Pretreatment with the phorbol ester, 12-O-tetradecanoyl (TPA), inhibited K(+) currents at all potentials. Although 4alpha-phorbol 12,13-didecanoate and TPA in the presence of bisindolylmaleimide were also able to depress K(+) currents, only TPA could significantly ameliorate hypoxic depression of these currents. Thus, protein kinase C (PKC) activation modulates the sensitivity of these cells to changes in pO(2). Furthermore, because the addition of H(2)O(2), a downstream product of
NADPH oxidase
, could only activate K(+) currents during hypoxia (when endogenous H(2)O(2) production is suppressed), it appears likely that PKC modulates the affinity of
NADPH oxidase
for O(2) potentially via phosphorylation of the
p47
(phox) subunit, which is present in these cells. These data show that PKC is an important regulator of the O(2)-transduction pathway and suggests that
NADPH oxidase
represents a significant component of the airway O(2) sensor.
...
PMID:O(2) sensing by airway chemoreceptor-derived cells. Protein kinase c activation reveals functional evidence for involvement of NADPH oxidase. 1071 79
Chronic granulomatous disease (CGD) is an inherited disorder of the
NADPH oxidase
in which phagocytes are defective in generating superoxide and downstream microbicidal reactive oxidants, leading to recurrent life-threatening bacterial and fungal infections. Xanthine oxidase (XO) is another enzyme known to produce superoxide in many tissues. Using the
p47
(phox-/-) mouse model of CGD, we evaluated the residual antibacterial activity of XO. Clearance of Burkholderia cepacia, a major pathogen in CGD, was reduced in
p47
(phox-/-) mice compared to that in wild-type mice and was further inhibited in
p47
(phox-/-) mice by pretreatment with the specific XO inhibitor allopurinol. Hepatic B. cepacia burden was similar in the two genotypes, but allopurinol significantly reduced net hepatic killing and killing efficiency only in
p47
(phox-/-) mice. Clearance and killing of intravenous Escherichia coli was intact in
p47
(phox-/-) mice and was unaffected by pretreatment with allopurinol. In CGD, XO may contribute to host defense against a subset of reactive oxidant-sensitive pathogens.
...
PMID:Xanthine oxidase contributes to host defense against Burkholderia cepacia in the p47(phox-/-) mouse model of chronic granulomatous disease. 1072 48
NADPH oxidase
is a multi-subunit enzyme complex responsible for superoxide generation in many cells, for example, B-lymphocytes and osteoclasts.
NADPH oxidase
is localized on the cell surface and generates superoxide extracellularly. After synthesis, components of this oxidase are transported to the cell membrane where the functional
NADPH oxidase
complex is assembled. The mechanism by which the membrane-bound components are transported to the cell surface of osteoclasts remains unclear. In this study, we examined the role of tyrosine kinase activity in the transport of
NADPH oxidase
components. When B-lymphocytes and osteoclasts were treated with herbimycin A, a specific inhibitor of tyrosine kinase, superoxide production was significantly decreased. The amount of p91, the catalytic subunit of
NADPH oxidase
, was decreased in the cellular membrane of herbimycin A treated cells compared to untreated controls. Similar results were obtained for the movement of a regulatory subunit of the
NADPH oxidase
complex,
p47
, in B-lymphocytes. Thus, inhibition of tyrosine kinase decreases superoxide production by disrupting the translocation of the
NADPH oxidase
complex.
...
PMID:Superoxide generation and tyrosine kinase. 1073 59
The superoxide-producing phagocyte
NADPH oxidase
can be activated by arachidonic acid (AA) or by phosphorylation of
p47
(phox) under cell-free conditions. The molecular mechanism underlying the activation, however, has remained largely unknown. Here we demonstrate that AA, at high concentrations (50-100 micrometer), induces direct interaction between the oxidase factors
p47
(phox) and p22(phox) in parallel with superoxide production. The interaction, being required for the oxidase activation, is mediated via the Src homology 3 (SH3) domains of
p47
(phox) (
p47
-(SH3)(2)), which are intramolecularly masked in a resting state. We also show that AA disrupts complexation of
p47
-(SH3)(2) with its intramolecular target fragment (amino acids 286-340) without affecting association of
p47
-(SH3)(2) with p22(phox), indicating that the disruption plays a crucial role in the induced interaction with p22(phox). Phosphorylation of
p47
(phox) by protein kinase C partially replaces the effects of AA; treatment of the SH3 target fragment with PKC in vitro results in a completely impaired interaction with
p47
-(SH3)(2), and the same treatment of the full-length
p47
(phox) leads to both interaction with p22(phox) and oxidase activation without AA, but to a lesser extent. Furthermore, phosphorylated
p47
(phox) effectively binds to p22(phox) and activates the oxidase in the presence of AA at low concentrations (1-5 micrometer), where an unphosphorylated protein only slightly supports superoxide production. Thus AA, at high concentrations, fully induces the interaction of
p47
(phox) with p22(phox) by itself, whereas, at low concentrations, AA synergizes with phosphorylation of
p47
(phox) to facilitate the interaction, thereby activating the
NADPH oxidase
.
...
PMID:Arachidonic acid and phosphorylation synergistically induce a conformational change of p47phox to activate the phagocyte NADPH oxidase. 1078 1
NADPH oxidase
is one of the major components of the innate immune system and is used by phagocytes to generate microbicidal reactive oxygen species. Activation of the enzyme requires the participation of a minimum of five proteins, p22(phox), gp91(phox) (together forming flavocytochrome b(558)),
p47
(phox), p67(phox) and the GTP-binding protein, Rac2. A sixth protein, p40(phox), has been implicated in the control of the activity of
NADPH oxidase
principally based on its sequence homology to, and physical association with, other phox components, and also the observation that it is phosphorylated during neutrophil activation. However, to date its role in regulating the activity of the enzyme has remained obscure, with evidence for both positive and negative influences on oxidase activity having being reported. Data are presented here using the cell-free system for
NADPH oxidase
activation that shows that p40(phox) can function to promote oxidase activation by increasing the affinity of
p47
(phox) for the enzyme approx. 3-fold.
...
PMID:p40(phox) Participates in the activation of NADPH oxidase by increasing the affinity of p47(phox) for flavocytochrome b(558). 1086 Dec 18
Synapsins are synaptic vesicle-associated phosphoproteins involved in synapse formation and regulation of neurotransmitter release. Recently, synapsin I has been found to bind the Src homology 3 (SH3) domains of Grb2 and c-Src. In this work we have analyzed the interactions between synapsins and an array of SH3 domains belonging to proteins involved in signal transduction, cytoskeleton assembly, or endocytosis. The binding of synapsin I was specific for a subset of SH3 domains. The highest binding was observed with SH3 domains of c-Src, phospholipase C-gamma, p85 subunit of phosphatidylinositol 3-kinase, full-length and NH(2)-terminal Grb2, whereas binding was moderate with the SH3 domains of amphiphysins I/II, Crk, alpha-spectrin, and
NADPH oxidase
factor
p47
(phox) and negligible with the SH3 domains of p21(ras) GTPase-activating protein and COOH-terminal Grb2. Distinct sites in the proline-rich COOH-terminal region of synapsin I were found to be involved in binding to the various SH3 domains. Synapsin II also interacted with SH3 domains with a partly distinct binding pattern. Phosphorylation of synapsin I in the COOH-terminal region by Ca(2+)/calmodulin-dependent protein kinase II or mitogen-activated protein kinase modulated the binding to the SH3 domains of amphiphysins I/II, Crk, and alpha-spectrin without affecting the high affinity interactions. The SH3-mediated interaction of synapsin I with amphiphysins affected the ability of synapsin I to interact with actin and synaptic vesicles, and pools of synapsin I and amphiphysin I were shown to associate in isolated nerve terminals. The ability to bind multiple SH3 domains further implicates the synapsins in signal transduction and protein-protein interactions at the nerve terminal level.
...
PMID:Specificity of the binding of synapsin I to Src homology 3 domains. 1089 72
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