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

Activation of the NADPH oxidase-derived oxidant burst of polymorphonuclear leukocytes (PMNs) is of critical importance in inflammatory disease. PMN-derived superoxide (O(2)) can be scavenged by nitric oxide (NO( small middle dot)) with the formation of peroxynitrite (ONOO(-)); however, questions remain regarding the effects and mechanisms by which NO( small middle dot) and ONOO(-) modulate the PMN oxidative burst. Therefore, we directly measured the dose-dependent effects of NO( small middle dot) and ONOO(-) on O(2) generation from human PMNs stimulated with phorbol 12-myristate 13-acetate using EPR spin trapping. Pretreatment with low physiological (microm) concentrations of NO( small middle dot) from NO( small middle dot) gas had no effect on PMN O(2) generation, whereas high levels (> or =50 microm) exerted inhibition. With ONOO(-) pretreatment, however, a biphasic modulation of O(2) generation was seen with stimulation by microm levels, but inhibition at higher levels. With the NO( small middle dot) donor NOR-1, which provides more sustained release of NO( small middle dot) persisting at the time of O(2) generation, a similar biphasic modulation of O(2) generation was seen, and this was inhibited by ONOO(-) scavengers. The enhancement of O(2) generation by low concentrations of ONOO(-) or NOR-1 was associated with activation of the ERK MAPKs and was blocked by their inhibition. Thus, low physiological levels of NO( small middle dot) present following PMN activation are converted to ONOO(-), which enhances O(2) generation through activation of the ERK MAPK pathway, whereas higher levels of NO( small middle dot) or ONOO(-) feed back and inhibit O(2) generation. This biphasic concentration-dependent regulation of the PMN oxidant burst by NO( small middle dot)-derived ONOO(-) may be of critical importance in regulating the process of inflammation.
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PMID:Biphasic regulation of leukocyte superoxide generation by nitric oxide and peroxynitrite. 1097 6

We have proposed that reactive oxygen species (ROS) play essential roles in cell differentiation. Enzymes belonging to the NADPH oxidase (NOX) family produce superoxide in a regulated manner. We have identified three distinct NOX subfamilies in the fungal kingdom and have shown that NoxA is required for sexual cell differentiation in Aspergillus nidulans. Here we show that Neurospora crassa NOX-1 elimination results in complete female sterility, decreased asexual development, and reduction of hyphal growth. The lack of NOX-2 did not affect any of these processes but led instead to the production of sexual spores that failed to germinate, even in the presence of exogenous oxidants. The elimination of NOR-1, an ortholog of the mammalian Nox2 regulatory subunit gp67(phox), also caused female sterility, the production of unviable sexual spores, and a decrease in asexual development and hyphal growth. These results indicate that NOR-1 is required for NOX-1 and NOX-2 functions at different developmental stages and establish a link between NOX-generated ROS and the regulation of growth. Indeed, NOX-1 was required for the increased asexual sporulation previously observed in mutants without catalase CAT-3. We also analyzed the function of the penta-EF calcium-binding domain protein PEF-1 in N. crassa. Deletion of pef-1 resulted in increased conidiation but, in contrast to what occurs in Dictyostelium discoideum, the mutation of this peflin did not suppress the phenotypes caused by the lack of NOX-1. Our results support the role of ROS as critical cell differentiation signals and highlight a novel role for ROS in regulation of fungal growth.
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PMID:NADPH oxidases NOX-1 and NOX-2 require the regulatory subunit NOR-1 to control cell differentiation and growth in Neurospora crassa. 1856 88