EC:3.4.21.37 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.37 (neutrophil elastase)
4,078 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitrogen dioxide is one form of an oxidizing free radical that is sufficiently stable to exist in relatively high concentrations in ambient air and cigarette smoke. We examined the effect of NO2 exposure on the functional activity against pancreatic elastase of alpha-1-protease inhibitor (alpha 1PI) in bronchoalveolar lavage (BAL) fluid of nonsmoking subjects. Ten nonsmokers (mean age, 25 +/- 2 SE yr) were exposed to NO2 (3 or 4 ppm) for 3 h with intermittent exercise. Seven nonsmokers (mean age, 24 +/- 2 SE yr) underwent a similar protocol but were exposed to NO2-free air and served as control subjects. Bronchoalveolar lavage was performed 3.5 to 4 h after the end of exposure. Exposure to NO2 caused a 45% decrease in functional activity of alpha 1PI in BAL. There was no significant difference in immunoreactive alpha 1PI between the groups whether expressed as micrograms per 100 ml of recovered fluid or per milligram of albumin. This inactivation of alpha 1PI was not associated with any neutrophil migration into the air spaces of the lung. The "elastaselike" activity of BAL using synthetic elastinlike chromophore substrate succinyl-trialanine-nitroanilide showed no significant difference between the NO2-exposed group (221 +/- 39 SE ng/dl BAL) and the control group (196 +/- 61 SE ng/dl BAL). Assay for human leukocyte elastase (HLE) in concentrated BAL using the synthetic substrate Methoxysuc-Ala3-Pro-Val-aminomethylcoumarin did not detect any HLE activity in the BAL. These results showed that nonsmoking subjects exposed to relatively low concentrations of NO2 for a short time have a significant inactivation of alpha 1PI in the lower respiratory tract fluid than did nonsmoking control subjects.
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PMID:Acute effect of nitrogen dioxide exposure on the functional activity of alpha-1-protease inhibitor in bronchoalveolar lavage fluid of normal subjects. 349 15

Nitrogen dioxide (NO2), an air pollutant produced by burning fossil fuels and a component of cigarette smoke, is thought to contribute to the pathogenesis of pulmonary diseases, such as emphysema. In order to gain information on the mechanism by which NO2 damages the lung and proteins vital to its function, as well as its reaction with proteins in general, in vitro exposures of alpha-1-proteinase inhibitor (alpha 1PI), elastin, poly-L-lysine, and poly-L-arginine were performed. The ability of alpha 1PI to inhibit its natural physiological target, human neutrophil elastase (HNE), declined with exposure to 54% of the control value at molar ratios of NO2:alpha 1PI of 400:1 and greater. Exposure of alpha 1PI to NO2 resulted in a 50% loss of immunoreactivity with either monoclonal or polyclonal antibodies in an enzyme-linked immunosorbent assay at molar ratios of NO2:alpha 1PI of 100:1 and greater. The results of parallel O-phthalaldehyde and bicinchoninic acid protein assays as well as amino acid analysis on control and NO2-exposed alpha 1PI suggested a reactivity of NO2 with lysine residues. Elastin and poly-L-lysine were labeled by reductive methylation of amino groups with [3H]HCHO prior to treatment with NO2 in aqueous solutions at physiological pH. NO2 exposure of elastin resulted in the solubilization of 84% of the associated radioactivity of which 79% was identified as [3H]methyllysine by amino acid analysis. After NO2 exposure of poly-L-[3H]lysine, gel filtration chromatography revealed that the 50,000 M(r) poly-L-[3H]lysine had been degraded to small peptides of 1-3000 M(r). Similarly, after NO2 exposure of unlabeled poly-L-arginine, gel filtration chromatography, and total peptide analysis revealed that the 47,500 M(r) peptide was also partially degraded to peptides. These results suggest that NO2 reacts with the epsilon-amino groups of Lys residues (primary amines) and with the amide nitrogen (secondary amines) of surface-exposed Lys and Arg residues in the peptide backbone to result in peptide bond cleavage. These findings are the first indication of NO2-mediated peptide degradation and provide additional data on the potential of NO2 to damage proteins vital to the function of the lung in an in vitro exposure system.
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PMID:Nitrogen dioxide reactivity with proteins: effects on activity and immunoreactivity with alpha-1-proteinase inhibitor and implications for NO2-mediated peptide degradation. 832 82

We describe the pro-inflammatory and cytotoxic effects of nitric oxide in vivo in human skin. Nitrite and ascorbic acid were mixed on the skin of 12 normal volunteers, three times daily, to release nitric oxide. Exposure to nitric oxide was varied by randomizing the concentration of nitrite and duration of application. Nitric oxide treated skin showed significant increases in cells expressing CD3, CD4, CD8, CD68, neutrophil elastase, ICAM-1, VCAM-1, nitrosotyrosine, p53, and apoptotic cells compared with skin treated with ascorbic acid alone. There was no significant increase in mast cells. Following application of nitric oxide there were significantly fewer CD1a positive Langerhans cells in the epidermis. These appeared to lose dendritic morphology and migrate from the epidermis. There was no significant difference in staining for Ki-67, a marker related to proliferating cell nuclear antigen, between active and control skin but staining was greater after exposure to higher dose nitric oxide than the low dose. Apoptosis, cytotoxicity, and p53 staining were relatively greater after 48 h exposure than after 24 h. These results suggest that nitric oxide is pro-inflammatory and is toxic to DNA, leading to the accumulation of p53 and subsequent apoptosis. High-dose nitric oxide paradoxically led to a smaller increase in macrophages and T cells than low dose suggesting an immunosuppressive effect of higher levels.
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PMID:The inflammatory and cytotoxic effects of a nitric oxide releasing cream on normal skin. 1046 39