EC:1.5.1.19 - FACTA Search

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Query: EC:1.5.1.19 (NOS)
7,285 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Salivary gland tumors pose considerable difficulty in diagnostic and prognostic assessment based on the histopathologic features alone. Cathepsin-D is overexpressed in cancer cells where its concentration in the primary tumor is correlated with increased risk of metastasis. DF3 antigen is a tumor associated glycoprotein that is specific for malignant cells of glandular origin. We examined the distribution patterns of cathepsin-D and DF3 antigens in benign (n = 11) and malignant (n = 44) salivary gland tumors of various histologic types. The frequency of cathepsin-D expression is significantly increased (p < 0.001) in salivary gland carcinomas compared to benign mixed tumors (BMT). High levels of cathepsin-D expression was frequent in carcinomas ex BMT, mucoepidermoid carcinomas, poorly differentiated adenocarcinomas-NOS and adenoid cystic carcinomas (ACC). Acinic cell carcinomas and polymorphous low-grade adenocarcinomas were mostly negative. Intense cytoplasmic staining for DF3 antigen was noted in the tumor cells of mucoepidermoid carcinomas, carcinomas ex BMT and poorly differentiated adenocarcinomas-NOS whereas other types of salivary gland carcinomas exhibited either negative or only focal membrane staining. The noted differences in the reactive patterns of cathepsin-D and DF3 antigen among various histologic types of salivary gland carcinomas may have differential diagnostic and prognostic applications.
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PMID:Cathepsin-D and tumor associated antigen DF3 in salivary gland neoplasia. Differential diagnostic and prognostic applications. 754 Jul 54

The present study evaluated the influence of this newly formed intima on vascular reactivity in balloon-injured carotid arteries and the regulatory role of the vasodilator, nitric oxide (NO). Balloon injury was performed using a 2-F Fogarty catheter. After 2 and 4 wk, carotid artery segments were removed for both histomorphometric analysis and determination of in vitro contractile responses. Histomorphometric analysis showed a marked intimal thickening with an intima-to-media ratio of 126 +/- 19% (n = 5). The lack of factor VIII staining in injured carotid arteries revealed the absence of endothelium, since factor VIII-related antigen is a glycoprotein synthesized by endothelial cells. Functionally, maximal contractile responses to norepinephrine, angiotensin II (ANG II), endothelin-1, and serotonin were all attenuated in the injured vessels compared with the uninjured carotid arteries [0.38 +/- 0.11 vs. 0.73 +/- 0.10 g (n = 5), norepinephrine; 0.15 +/- 0.06 vs. 0.38 +/- 0.05 g (n = 4), ANG II; 0.60 +/- 0.14 vs. 1.05 +/- 0.12 g (n = 4), endothelin-1; 0.23 +/- 0.07 vs. 0.60 +/- 0.06 g (n = 12), serotonin]. Contractile responses induced by KCl were not affected by the balloon injury (0.62 +/- 0.10 vs. 0.64 +/- 0.09 g, n = 4). Interestingly, carbachol, a muscarinic agonist and vasodilator, caused concentration-dependent relaxations in 2- as well as 4-wk postinjured vessels despite the absence of endothelium. The NO synthase inhibitors, N omega-L-arginine methyl ester (L-NAME) and N omega-nitro-L-arginine (L-NNA), blocked the relaxation responses evoked by carbachol. Exogenously administered L-arginine reversed this blockade of the NOS inhibitors on the carbachol-induced relaxations. In addition, L-NAME partially reversed in a concentration-dependent manner the reduced maximal contractile force elicited by serotonin in the injured carotid artery.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence for NO involvement in regulating vascular reactivity in balloon-injured rat carotid artery. 757 44

Recent data have shown that NOS-I is localized almost exclusively to the sarcolemma of fast-twitch fibers, where it probably interacts with the dystrophin-glycoprotein complex. The concentration of dystrophin-related protein at the neuromuscular junctions and the possible involvement of NO in synaptic suppression led us to investigate the presence of NOS-I at the adult motor endplates. Our data clearly show that NOS-I protein, detected by immunohistochemistry accumulates at the adult endplates. Furthermore, the absence of NOS-I protein at the denervated neuromuscular junctions suggest a neural origin of this enzyme. The putative roles of NO at the endplate are discussed.
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PMID:Accumulation of NO synthase (type-I) at the neuromuscular junctions in adult mice. 872 75

Previously, we have demonstrated the expression of the brain-type nitric oxide synthase (NOS-I) in the sarcolemmal region of somatic and visceral striated muscle fibers in a variety of mammalian species through the use of enzyme histochemical and immunochemical techniques. Here we report that NOS-I protein and its NADPH diaphorase (NADPHd) activity are co-localized in the sarcolemma of human skeletal muscles. NOS-I immunolabeling and NADPHd activity showed no significant variation between type I and II fibers. In muscle biopsy specimens from patients with Duchenne muscular dystrophy (DMD), both NOS-I protein and activity were absent or markedly reduced. We, therefore, propose that NOS-I is complexed with dystrophin and/or dystrophin-associated proteins, adding a novel member to the sarcolemmal dystrophin-glycoprotein complex (DGC). The nature of the NOS-I-DGC link, and its role in skeletal muscle physiology and pathophysiology remain to be elucidated.
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PMID:Nitric oxide synthase I (NOS-I) is deficient in the sarcolemma of striated muscle fibers in patients with Duchenne muscular dystrophy, suggesting an association with dystrophin. 905 90

To substantiate the role of nitric oxide synthase type-I (NOS-I) in neurogenic muscular disorders we investigated human biopsy samples of type-II fiber atrophy and amyotrophic lateral sclerosis (ALS) by NOS-I immunoreactivity (-IR), NOS-associated NADPH-dependent diaphorase activity (NOSaD) and Western blot analysis. In type-II atrophy, loss of NOSaD and reduced NOS-I-IR was apparent in atrophic myofibers. In atrophic fiber groups lacking NOSaD, both NOS-I and dystrophin-IR was decreased while sarcolemmal beta-dystroglycan- and adhalin-IR (markers of the sarcolemmal dystrophin-glycoprotein complex) was normal. In ALS, groups of scattered angulated atrophic fibers revealed partial loss of NOS-I-IR/NOSaD. Atrophied fibers of either type-I or type-II thus revealed differential sarcolemmal NOS/NOSaD pattern thereby reflecting myopathological alterations of the NO-system in human type-II atrophy and ALS.
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PMID:Partial loss of NADPH-diaphorase/nitric oxide synthase-complex in amyotrophic lateral sclerosis and human type-II myofiber atrophy. 930 Jun 47

The neuronal isoform of nitric oxide synthase (nNOS, termed also NOS-I) is expressed in normal adult skeletal muscle, suggesting important functions for NO in muscle biology. However, the expression and subcellular localization of NOS in muscle development and myoblast differentiation are largely unknown. In the present study, NOS was immunolocalized with isoform-specific antibodies in developing muscle and in differentiated myoblast cultures (mouse C2C12) together with histochemical NADPH-dependent diaphorase activity that is blocked by specific NOS inhibitors and therefore designated as NOS-associated diaphorase activity (NOSaD). Western blot analysis revealed immunoreactive bands for NOS-I-III in lysates from perinatal and adult muscle tissue and C2C12-myotubes that comigrated with prototypical proteins. In embryonic skeletal muscle, but not in adult myofibers, diffuse cytosolic staining and lack of sarcolemmal NOSaD activity and NOS-I immunoreaction were evident. In both myoblasts and fusioned myotubes, NOSaD and NOS isoforms I-III colocalize in the cytosol. Additionally, members of the sarcolemmal dystrophin-glycoprotein complex (i.e., dystrophin, adhalin, beta1-dystroglycan) immunolocalize in the cytosol of differentiating myoblasts, whereas anti-dystrophin and anti-beta1-dystroglycan clearly delineate the sarcolemma in myotubes. Thus, expression of NOS isoforms I-III and NOSaD is cytosolic in fusion-competent myoblasts during myotube formation in vitro. Interaction of NOSaD/NOS-I with the sarcolemmal dystrophin-complex known from mature myofibers is apparently lacking in prenatal muscle development and differentiating myoblasts. Localization of NOS isoforms thus characterized in myogenic cultures may help further to investigate regulated NO formation in muscle cells in vitro.
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PMID:Nitric oxide synthase (NOS) in mouse skeletal muscle development and differentiated myoblasts. 956 Apr 72

Nitric oxide (NO) produced by macrophages is thought to contribute to various pathological conditions. Osteopontin (OPN) is a phosphorylated glycoprotein produced principally by macrophages. OPN inhibits inducible nitric oxide synthase (iNOS), which generates large amounts of NO production. However, the relationship between NO and endogenous OPN in activated macrophages has not yet been elucidated. We therefore examined expression of endogenous iNOS and OPN in a murine macrophage cell line, RAW 264.7 cells, by treating the cells with lipopolysaccharide (LPS) and interferon-gamma (IFN-gamma). Treatment of cells with LPS and IFN-gamma resulted in an increase of iNOS mRNA to maximum at 12 h after stimulation. In contrast, OPN mRNA was induced more slowly than iNOS mRNA. Induction of both iNOS and OPN mRNA in RAW 264.7 cells was markedly suppressed by addition of the specific iNOS inhibitor S-2-aminoethyl isothiourea dihydrobromide. The NOS inhibitor NG-methyl-L-arginine also suppressed induction of OPN mRNA but hardly affected iNOS mRNA expression. The NO-releasing agent spermine-NONOate but not peroxynitrite enhanced induction of OPN mRNA. These results suggest that NO directly up-regulates the endogenous OPN in macrophages stimulated with LPS and IFN-gamma. This up-regulation of endogenous OPN may represent a negative feedback system acting to reduce iNOS expression.
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PMID:Osteopontin is induced by nitric oxide in RAW 264.7 cells. 1086 13

Porphyromonas gingivalis is a Gram-negative periodontopathic bacterium colonizing the oral cavity and its lipopolysaccharide (LPS) is a key factor in the development of periodontitis. We investigated the effect of P. gingivalis LPS on the cellular responses associated with mucin synthesis in sublingual salivary gland acinar cells. Exposure of the acinar cells to the LPS led to a dose-dependent decrease in mucin synthesis and was accompanied by a massive induction in inducible nitric oxide synthase (NOS-2) activity and the increase in NO production, caspase-3 activity and apoptosis. Inhibition of extracellular signal-regulated kinase (ERK) with PD98059 accelerated the LPS-induced decrease in the glycoprotein synthesis and caused further increase in apoptosis and NOS-2 activity, while the blockade of p38 mitogen-activated kinase (MAPK) with SB203580 countered the LPS-induced reduction in the glycoprotein synthesis and obviated the induced increases in NOS-2 and apoptosis. Introduction of NOS-2 inhibitor, L-NAME, not only countered the LPS-induced increase in NO generation, caspase-3 activity and apoptosis, but caused the impedance of the LPS inhibition on mucin synthesis. The findings point to the upregulation in NOS-2 expression by P. gingivalis LPS as a key detrimental culprit affecting salivary mucin synthesis.
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PMID:Porphyromonas gingivalis lipopolysaccharide interferes with salivary mucin synthesis through inducible nitric oxide synthase activation by ERK and p38 kinase. 1237 6

Muscular dystrophies that arise from mutations of genes that encode proteins in the dystrophin-glycoprotein complex (DGC) frequently involve defects in the structure of neuromuscular junctions (NMJs). DGC mutations that cause NMJ defects typically cause a secondary loss of neuronal nitric oxide synthase (nNOS) from the post-synaptic membrane. We tested the hypothesis that reduction of muscle-derived NO production causes NMJ defects in DGC mutants by analyzing the effect of modulating muscle NO production on NMJ structure in mutant and wild-type muscles. We found that nNOS null mutants, dystrophin-deficient mdx mice and alpha-syntrophin null mutants showed reductions in the concentration of acetylcholine receptors (AChRs) at the post-synaptic membrane. Also, expression of a muscle-specific NOS transgene increased AChR concentration, which reflected an increase in both AChR expression and clustering. NOS transgene expression also increased the size of NMJs, and partially corrected defects in normal NMJ architecture that were observed in mdx and alpha-syntrophin null muscles. In addition, stimulation of AChR clustering in vitro by application of laminin or VVA B4 lectin induced a 3-4-fold increase in NOS activity and increased AChR clustering that could be prevented by NOS inhibition. However, the partial rescue of NMJ structure by expression of a NOS transgene required the expression of alpha- or beta1-syntrophin at the NMJ; partial NMJ rescue was seen in the muscles of alpha-syntrophin mutants that expressed beta1-syntrophin, but no rescue was observed in muscles of alpha-syntrophin mutants that also lacked beta1-syntrophin. These findings show that NO promotes AChR expression and clustering in vivo and contributes to normal NMJ architecture. The results suggest that defects in NMJ structure that occur in some DGC mutants can result from the secondary loss of NOS from muscle.
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PMID:Defects in neuromuscular junction structure in dystrophic muscle are corrected by expression of a NOS transgene in dystrophin-deficient muscles, but not in muscles lacking alpha- and beta1-syntrophins. 1523 8

Caveolin-1, the caveolae scaffolding protein, binds to and negatively regulates eNOS activity. As caveolin-1 also regulates caveolae-mediated endocytosis after activation of the 60-kDa albumin-binding glycoprotein gp60 in endothelial cells, we addressed the possibility that endothelial NO synthase (eNOS)-dependent NO production was functionally coupled to caveolae internalization. We observed that gp60-induced activation of endocytosis increased NO production within 2 minutes and up to 20 minutes. NOS inhibitor N(G)-nitro-L-arginine (L-NNA) prevented the NO production. To determine the role of caveolae internalization in the mechanism of NO production, we expressed dominant-negative dynamin-2 mutant (K44A) or treated cells with methyl-beta-cyclodextrin. Both interventions inhibited caveolae-mediated endocytosis and NO generation induced by gp60. We determined the role of signaling via Src kinase in the observed coupling of endocytosis to eNOS activation. Src activation induced the phosphorylation of caveolin-1, Akt and eNOS, and promoted dissociation of eNOS from caveolin-1. Inhibitors of Src kinase and Akt also prevented NO production. In isolated perfused mouse lungs, gp60 activation induced NO-dependent vasodilation, whereas the response was attenuated in eNOS(-/-) or caveolin-1(-/-) lungs. Together, these results demonstrate a critical role of caveolae-mediated endocytosis in regulating eNOS activation in endothelial cells and thereby the NO-dependent vasomotor tone.
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PMID:Novel mechanism of endothelial nitric oxide synthase activation mediated by caveolae internalization in endothelial cells. 1703 47

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