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)

Out-of-control reactive oxygen species (ROS) signaling is one of the key events in the pathogenesis of endothelial dysfunction and essential hypertension. We observed that tea polyphenols decreased the production of ROS via regulation of the protein expression of nicotinamide adenine dinucleotide phosphate (NADPH) oxidase in bovine carotid artery endothelial cells (BCAECs). Both green tea polyphenols (GTP) and black tea polyphenols (BTP) down-regulated the expression of NADPH oxidase subunits p22phox and p67phox while up-regulating catalase expression (p < 0.05, respectively). Pre-treatment with GTP or BTP for 24 h significantly decreased the superoxide anion level (p < 0.05) and permeable fluorescence intensities in Ang II-stimulated BCAECs. A decrease in cell permeability was also observed by pre-treatment with diphenylene iodonium chloride (DPI) or vitamin E (p < 0.05, respectively). The result demonstrates that tea polyphenols alleviate angiotensin (Ang) II-induced hyperpermeability mainly by decreasing ROS production. Our results suggest that tea polyphenols regulate ROS-related protein expression and may be beneficial in preventing endothelial cell dysfunction and development of cardiovascular diseases, including hypertension.
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PMID:Tea polyphenols regulate nicotinamide adenine dinucleotide phosphate oxidase subunit expression and ameliorate angiotensin II-induced hyperpermeability in endothelial cells. 1462 Nov 86

Leukocytes kill microbes by producing reactive oxygen species, using a multi-component enzyme complex, nicotinamide adenine dinucleotide phosphate (NADPH) oxidase. Electrons pass from intracellular NADPH through a redox chain within the enzyme, to reduce extracellular O2 to O2-. Electron flux is electrogenic, and rapidly depolarizes the membrane potential. Excessive depolarization can turn off electron transport by self-inhibition, but this is prevented by proton flux that balances the electron flux. Although the membrane potential depolarizes by approximately 100 mV during the respiratory burst (NADPH oxidase activity), NADPH oxidase activity is independent of voltage in this range, which permits optimal function and prevents self-inhibition.
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PMID:Interactions between NADPH oxidase and voltage-gated proton channels: why electron transport depends on proton transport. 1463 Mar 19

There is a growing body of evidence that dihydropyridine-based calcium antagonists (DHPs) improve endothelial function, thus slowing the development and progression of atherosclerosis. However the molecular mechanisms by which DHPs normalize endothelial dysfunction, an initial step in atherosclerosis, are not fully understood. Monocyte recruitment and firm adhesion to endothelial cells play a central role in the pathogenesis of atherosclerosis. In this study, we investigated whether nifedipine, one of the most popular DHPs, could inhibit tumor necrosis factor-alpha (TNF-alpha)-induced reactive oxygen species (ROS) generation and subsequent monocyte chemoattractant protein-1 (MCP-1) expression in human umbilical vein endothelial cells (HUVEC). TNF-alpha significantly increased intracellular ROS generation in HUVEC, which was completely blocked by nifedipine. Nifedipine completely inhibited TNF-alpha-induced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase activity in HUVEC. Furthermore, nifedipine was found to significantly inhibit upregulation of MCP-1 messenger RNA levels in TNF-alpha-exposed HUVEC. The results demonstrate that nifedipine could inhibit TNF-alpha-induced MCP-1 overexpression in HUVEC by suppressing NADPH oxidase-mediated ROS generation. Our present study suggests that nifedipine may play a protective role in the development and progression of atherosclerosis through its antioxidative properties.
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PMID:Nifedipine inhibits tumor necrosis factor-alpha-induced monocyte chemoattractant protein-1 overexpression by blocking NADPH oxidase-mediated reactive oxygen species generation. 1501 5

Oxidative stress and nitrosative stress play important roles in the pathogenesis of secondary spinal cord injury. Recently, we demonstrated that peripheral nerve grafts (PNG) with acidic fibroblast growth factor (aFGF) partially restore hind limb locomotion in adult rats with completely transected spinal cords. This study investigated the protein abundances of the superoxide (O2*)-generating enzyme nicotinamide adenine dinucleotide (phosphate) oxidase (NAD(P)H oxidase; gp91phox subunit), nitric oxide synthases (NOS), antioxidant enzymes, superoxide dismutases (Cu Zn SOD, Mn SOD), catalase, and glutathione peroxidase (GPX) as well as nitrotyrosine in the spinal cord tissue 4 months after spinal cord transection in rats with and without PNG and aFGF. The protein abundances of the gp91phox subunit of NAD(P)H oxidase, Mn SOD, catalase, GPX, eNOS, and nitrotyrosine were significantly upregulated, whereas Cu Zn SOD and nNOS were unchanged in the injury group compared to the sham controls. The nerve graft with aFGF treated group showed significantly better hind limb locomotion recovery than the injury group. Although the protein abundances of gp91phox, nitrotyrosine, and Cu Zn SOD were similar in the treated group (nerve graft with aFGF) compared to the injury group, Mn SOD, GPX, catalase, and eNOS protein abundances were significantly higher, whereas nNOS was markedly lower in the treated group. We conclude that the combination of nerve graft and aFGF enhances the local antioxidant defense system after spinal cord transection in rats.
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PMID:Effects of nerve graft on nitric oxide synthase, NAD(P)H oxidase, and antioxidant enzymes in chronic spinal cord injury. 1503 52

The NADPH (reduced form of nicotinamide adenine dinucleotide phosphate) oxidase enzyme complex, a crucial component of innate immunity, produces superoxide anion (O2-), which is a precursor to many reactive oxygen species. NADPH oxidase produces O2- by transferring electrons from intracellular NADPH across the membrane to extracellular (or phagosomal) oxygen and is thus electrogenic. It is widely believed that electroneutrality is preserved by proton flux through voltage-gated proton channels. A series of recent papers have challenged several key aspects of this view of the "respiratory burst." The most recent study solidifies the proposal that O2- and other reactive oxygen species produced by phagocytes are not toxic to microbes under physiological conditions. Further, an essential role for high-conductance, Ca2+-activated K+ (maxi-K+) channels in microbe killing is proposed. Finally, the results cast doubt on the widely held view that H+ efflux through voltage-gated proton channels (i) is the main mechanism of charge compensation, and (ii) is essential to continuous O2- production by the NADPH oxidase. My analysis of the new data and of a large body of data in the literature indicates that the proposed role of maxi-K+ channels in the respiratory burst is not yet credibly established. H+ efflux through proton channels thus remains the most viable mechanism for charge compensation and continuous O2- production. The important question of the toxicity of reactive oxygen species in phagocytes and in other cells, which has long been simply taken for granted, is a widespread assumption that deserves critical study.
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PMID:During the respiratory burst, do phagocytes need proton channels or potassium channels, or both? 1515 Apr 21

A novel isoform of the NOX-2 subunit of nicotinamide adenine dinucleotide phosphate (NADPH) oxidase has been identified using expressed sequence tag (EST) database mining. The novel isoform, NOX-2S, is a splice variant of NOX-2 and includes a previously unidentified exon, mapped 6.4 kb downstream of exon III, and encodes an in-frame stop codon generating a predicted truncated protein of approximately 12.7 kDa, the smallest reported member of the NOX family. Thus, NOX-2S is predicted to have only two transmembrane domains, however, the new C-terminal sequence includes two new potential protein kinase C (PKC) phosphorylation sites. Expression of NOX-2S mRNA was detected in many mouse tissues, and several human cell lines including the myeloid cell line HL-60, and the B cell line Ramos, indicating that the splice variant is conserved in mouse and man. NOX-2S is found co-expressed together with NOX-2 in all of the tissues and cells under investigation, both nonphagocytic and phagocytic. Induction of the myeloid cell line HL-60 into the neutrophil phagocytic lineage by dimethyl sulphoxide (DMSO), led to a marked increase in NOX-2S and NOX-2 expression in the myelocyte rather than promyelocyte stages of differentiation. Furthermore, in the B-cell line Ramos, differentiated with the cytokine interferon-gamma (IFN-gamma), splicing was altered to increase NOX-2S mRNA generation over NOX-2. Here we have identified NOX-2S, the first reported normally occurring splice variant of NOX-2. The sequence identity between mouse and human NOX-2S strongly implies conservation in function and possibly a role for NOX-2S in the regulation of NADPH oxidase activity.
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PMID:NOX-2S is a new member of the NOX family of NADPH oxidases. 1519 96

Neutrophil functions are impaired in patients with diabetes mellitus. Bacterial phagocytosis and oxidative burst activity are reduced at high glucose concentrations in diabetic patients. Defects in neutrophil oxidative burst capacity are of multifactorial origin in diabetes mellitus and correlate with glucose levels. It has been reported that neutrophil NADPH oxidase activity is impaired and superoxide production is reduced in diabetic patients with or without any infections. Nicotinamide is a vitamin B3 derivative and a NAD precursor with immunomodulatory effects. In vitro studies demonstrated that nicotinamide increases NAD and NADH content of beta cells. The authors hypothesized that nicotinamide may restore the impaired oxidative burst capacity of neutrophils in diabetic patients by increasing the NADH content as an electron donor and possibly through NADPH oxidase activity of the cell. In order to test the hypothesis, this placebo-controlled and open study was designed to evaluate neutrophil functions in infection-free poorly controlled type 2 diabetic patients as compared to healthy subjects and assess the effects of nicotinamide on neutrophil phagocytosis as well as oxidative burst activity. Thirty patients with type 2 diabetes mellitus were enrolled in the study. Sixteen were females and 14 were males, with a mean age 58 +/- 10. All patients were on sulphonylurea treatment and their hemoglobin A(1c) (HbA(1c)) levels were above 7.5%. The control group consisted of 10 voluntary healthy subjects. Diabetic and control subjects were not significantly different in terms of age, body mass index (BMI), leucocyte and neutrophil counts, C-reactive protein (CRP) level, and erythrocyte sedimentation rate (ESR), but HbA(1c) and fasting glucose levels were significantly higher in patients with diabetes mellitus. Phagocytic activity and respiratory burst indexes were measured by flow cytometric analyses as previously described by Rothe and Valet (Methods Enzyml., 233, 539-548, 1994) and compared in diabetic subjects and healthy controls. Diabetic patients were grouped to receive either 50 mg/kg oral nicotinamide (n = 15) or placebo (n = 15) for a period of 1 month. The 2 groups did not differ in terms of treatment, frequency of hypertension, BMI, diabetes duration, age, fasting plasma glucose (FPG), HbA(1c), CRP, ESR, polymorphonuclear leukocyte (PNL) and neutrophil counts. Neutrophil functions were reassessed after the treatment period. Phagocytic activity represented as indexes were lower in diabetic patients when compared to healthy subjects, but the differences were not statistically significant (P >.05). Patients with diabetes mellitus had significantly lower oxidative burst indexes when compared to healthy controls (P values <.05). In diabetic patients, a negative correlation between neutrophil functions and HbA(1c) was found which was not statistically significant (P values >.05). Phagocytic indexes were similar in nicotinamide and placebo groups after treatment period (P >.05). But oxidative burst activity in patients receiving nicotinamide was greater when compared with placebo and the difference was statistically significant at 30 and 45 minutes (P values.04 and.03). This effect of nicotinamide may be due to increased NADH content and NADPH oxidase activity of the cell, which needs to be further studied. Impaired neutrophil functions may aggravate various infections in patients with diabetes mellitus and blood glucose regulation is an important target of treatment to improve neutrophil functions. But nicotinamide treatment may help to improve prognosis in diabetic patients with severe infections.
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PMID:Nicotinamide effects oxidative burst activity of neutrophils in patients with poorly controlled type 2 diabetes mellitus. 1520 86

Neutrophils play an essential role in the body's innate defense against pathogens and are one of the primary mediators of the inflammatory response. To defend the host, neutrophils use a wide range of microbicidal products, such as oxidants, microbicidal peptides, and lytic enzymes. The generation of microbicidal oxidants by neutrophils results from the activation of a multiprotein enzyme complex known as the reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase, which is responsible for transferring electrons from NADPH to O2, resulting in the formation of superoxide anion. During oxidase activation, cytosolic oxidase proteins translocate to the phagosome or plasma membrane, where they assemble around a central membrane-bound component known as flavocytochrome b. This process is highly regulated, involving phosphorylation, translocation, and multiple conformational changes. Originally, it was thought that the NADPH oxidase was restricted to phagocytes and used solely in host defense. However, recent studies indicate that similar NADPH oxidase systems are present in a wide variety of nonphagocytic cells. Although the nature of these nonphagocyte NADPH oxidases is still being defined, it is clear that they are functionally distinct from the phagocyte oxidases. It should be noted, however, that structural features of many nonphagocyte oxidase proteins do seem to be similar to those of their phagocyte counterparts. In this review, key structural and functional features of the neutrophil NADPH oxidase and its protein components are described, including a consideration of transcriptional and post-translational regulatory features. Furthermore, relevant details about structural and functional features of various nonphagocyte oxidase proteins will be included for comparison.
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PMID:Structure and regulation of the neutrophil respiratory burst oxidase: comparison with nonphagocyte oxidases. 1524 Jul 52

T cell receptor (TCR) stimulation induces rapid generation of reactive oxygen species, although the mechanisms for this are unclear. Here we found that T cells expressed a functional phagocyte-type nicotinamide adenine dinucleotide phosphate (NADPH) oxidase. TCR crosslinking induced oxidase activation through the recruitment of preformed Fas ligand and Fas. TCR stimulation induced three separable events generating reactive oxygen species: rapid hydrogen peroxide production independent of Fas or NADPH oxidase; sustained hydrogen peroxide production dependent on both Fas and NADPH oxidase; and delayed superoxide production that was dependent on Fas ligand and Fas yet independent of NADPH oxidase. NADPH oxidase-deficient T cells showed enhanced activation of the kinase Erk and a relative increase in T helper type 1 cytokine secretion. Thus, mature T cells express a phagocyte-type NADPH oxidase that regulates elements of TCR signaling.
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PMID:T cells express a phagocyte-type NADPH oxidase that is activated after T cell receptor stimulation. 1525 78

Lymphocytes bound at endothelial cell junctions extravasate within minutes. Lymphocyte-endothelial cell binding is mediated by receptors such as vascular cell adhesion molecule 1 (VCAM-1). VCAM-1 activates endothelial cell nicotinamide adenine dinucleotide phosphate (NADPH) oxidase in minutes, and this activity is required for VCAM-1-dependent lymphocyte migration. In this report, we examined mechanisms for activation of matrix metalloproteinases (MMPs) during VCAM-1-dependent lymphocyte migration. Lymphocyte binding to VCAM-1 rapidly activated endothelial cell-associated MMPs. Furthermore, inhibition of MMPs on the endothelial cells but not on the lymphocytes blocked VCAM-1-dependent lymphocyte migration across endothelial cells. The activation of endothelial cell MMPs required VCAM-1-stimulated endothelial cell NADPH oxidase activity as determined by scavenging of reactive oxygen species (ROS) and by pharmacologic or antisense inhibition of NADPH oxidase. Exogenous addition of 1 microM H(2)O(2), the level of H(2)O(2) generated by VCAM-1-stimulated endothelial cells, rapidly activated endothelial cell-associated MMPs. In contrast, activation of lymphocyte-associated MMPs was delayed by hours after binding to VCAM-1, and this activation was blocked by inhibition of endothelial cell ROS generation. There was also a delay in H(2)O(2)-induced decrease in lymphocyte-associated tissue inhibitors of metalloproteinases (TIMPs), resulting in an increase in MMP/TIMP ratio. In summary, this is the first report of a mechanism for ROS function in VCAM-1 activation of endothelial cell MMPs during VCAM-1-dependent lymphocyte migration.
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PMID:Vascular cell adhesion molecule 1 (VCAM-1) activation of endothelial cell matrix metalloproteinases: role of reactive oxygen species. 1526 90


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