Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0034067 (emphysema)
11,506 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The major physiological role of the serine protease inhibitor alpha 1-antitrypsin (alpha 1-AT) is to protect elastic fibers in the lung from excessive hydrolysis by neutrophil elastase. Genetic deficiency of alpha 1-AT predisposes individuals toward the development of emphysema. We have cloned and characterized a mutant alpha 1-AT gene from an individual exhibiting a total absence of immunoreactive alpha 1-AT in serum. Nucleotide sequence analysis of this "null" allele has demonstrated a TC dinucleotide deletion within the codon for Leu318 in exon IV. This frame-shift mutation results in the generation of a premature termination codon at residue 334, which is upstream of the active inhibitory site. To determine the biochemical basis of the null phenotype, the mutant and normal genes were transferred into mouse hepatoma cells for expression analysis. Pulse-chase experiments demonstrated that the mutant gene is expressed into a truncated protein of 45 kDa, which is retained within the rough endoplasmic reticulum. The complete lack of secretion of the truncated protein is consistent with the absence of immunoreactive alpha 1-AT in the patient's serum. In addition, a G to A transition was identified in exon II of the mutant gene, changing the codon for Arg101 to His101. Finally, an A to C transversion was identified in exon V changing the codon for Glu376 to Asp376. Since the latter conservative amino acid substitution has previously been identified in the common PiM2 variant, the frame-shift mutation might have occurred on a PiM2 background chromosome. Using the birthplace of this index case, this mutant alpha 1-AT allele has been designated "nullHong Kong."
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PMID:A frameshift mutation results in a truncated alpha 1-antitrypsin that is retained within the rough endoplasmic reticulum. 325 32

Hepatocytes are considered to be the predominant source of alpha 1-antitrypsin (AAT), the major antiprotease in human plasma. The development of emphysema in the hereditary PiZ AAT deficiency state suggests that inhibition of leukocyte elastase in the lung is a major function of this protein. In addition, patients with AAT deficiency are at increased risk for developing cholestasis in infancy and chronic liver disease as adults. The mechanism for hepatic cell injury, however, is not understood. Transgenic mice that express the normal human AAT gene demonstrate abundant AAT in hepatocytes and specific cell types of numerous nonhepatic tissues. Immunoperoxidase techniques have previously disclosed AAT in many of the cell types seen in transgenic mice; however, the issue of local synthesis vs. endocytosis in these cell types has remained unresolved. In this study, AAT mRNA was seen in a variety of tissues in the transgenic mouse. Immunoelectron microscopy of renal tubular and small intestinal epithelial cells in the transgenic mice demonstrated AAT within the cisternae of the rough endoplasmic reticulum, as in hepatocytes. These findings support the possibility of local synthesis in the various cell types. The results suggest that in addition to maintaining tissue integrity in the lung, the protease/antiprotease balance may have physiological functions in other organs as well.
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PMID:Multiple tissues express alpha 1-antitrypsin in transgenic mice and man. 326 Jun 5

The hereditary disorder alpha 1-antitrypsin (alpha 1AT) deficiency results in the development of emphysema due to a diminished anti-neutrophil elastase screen of the lower respiratory tract. Specific therapy for this disorder is available in the form of weekly intravenous infusions of human plasma alpha 1AT, which effectively reconstitute the anti-elastase screen of the lung in these individuals. In an attempt to reduce the frequency of therapy we evaluated the ability of monthly infusions of alpha 1AT to provide equivalent lower respiratory tract protection against neutrophil elastase. Intravenous infusion of 250 mg/kg of alpha 1AT at 28-day intervals to nine individuals with alpha 1AT deficiency and emphysema was carried out for 12 months. Serum alpha 1AT levels exceeded the protective threshold for an average of 25 days after each dose of alpha 1AT was administered. Furthermore, the postinfusion level of alpha 1AT in the nadir lung epithelial lining fluid was fivefold greater than the preinfusion level, and the anti-neutrophil elastase capacity of the nadir epithelial lining fluid also was elevated significantly, nearly threefold above the preinfusion level. These results indicate that monthly administration of human alpha 1AT is fully capable of adequately augmenting serum and lung alpha 1AT levels and anti-elastase capacity and is therefore a rational alternative to weekly therapy.
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PMID:Biochemical efficacy and safety of monthly augmentation therapy for alpha 1-antitrypsin deficiency. 326 53

When neutrophils invade inflamed areas of the body to remove either dead or foreign components they inadvertently release potent enzymes which can, if not properly controlled, cause severe damage to healthy tissue. This can lead to a myriad of diseases including emphysema, rheumatoid arthritis, and glomuerlopnephritis, all of which are really problems of abnormal connective tissue turnover due to uncontrolled protelysis by neutrophil elastase and cathepsin G. An important step in elucidating the functions of both elastase and cathepsin G has been made by virtue of the fact that the amino acid sequence of each has been determined. Furthermore, the crystal structure of one, neutrophil elastase, is now understood. With this knowledge in mind and with the potential for a similar understanding of the mechanism of action of cathepsin G, it should soon be possible to produce synthetic inhibitors of each enzyme which can act as adjunct inhibitors to those naturally circulating in the blood or present in other tissues. As a result there is great hope for reducing the severity of injury produced by these enzymes and, therefore, in decreasing the risk for development of the debilitating diseases associated with abnormal proteolysis by neutrophil proteinases.
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PMID:Neutrophil elastase and cathepsin G: structure, function, and biological control. 326 7

Alpha-1-antitrypsin (A1AT) deficiency is an autosomal hereditary disorder associated with a major reduction in serum A1AT levels. Clinically, A1AT deficiency is associated with emphysema in adults and, less commonly, liver disease in neonates. A1AT is a 52-kDa, 394-amino acid, single-chain glycoprotein normally present in serum at 150 to 350 mg/dl. The A1AT gene, composed of seven exons dispersed over 12 kb of chromosomal segment 14q31-32.3, is expressed in hepatocytes and mononuclear phagocytes. The A1AT protein, a member of the class of protease inhibitor proteins known as serpins (serine protease inhibitors), is a globular molecule composed of nine alpha-helices and three beta-pleated sheets. The major function of A1AT is to inhibit neutrophil elastase; A1AT does so through an active site centered around Met358 contained within an external stressed loop on the surface of the molecule. A1AT is a highly pleomorphic protein with greater than 75 variants determined at the protein and/or gene level. These variants can be categorized into four groups according to their serum A1AT level and function: normal, deficient, dysfunctional, and absent. There are two important salt bridges within the A1AT molecule (Glu342-Lys290; Glu263-Lys387); a mutation in the A1AT gene causing disruption of either salt bridge causes distinct molecular pathology resulting in reduced serum A1AT levels. Clinically relevant variants can be distinguished by a combination of isoelectric focusing of serum, restriction fragment length analysis of genomic DNA, oligonucleotide probes, and direct sequencing of the variant A1AT genes.
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PMID:Molecular basis of alpha-1-antitrypsin deficiency. 328 85

Alpha-1-protease inhibitor (A1PI) exists in over 30 biochemical variants (the Pi system), inherited as autosomal codominant alleles. Homozygotes of Pi type Z have only 10 to 20 percent of the normal serum A1PI concentration and have a high risk of developing pulmonary emphysema. A1PI is an inactivator of polymorph lysosomal elastase, the unopposed action of which may damage the lung. Cigarette smoking is an important additional risk factor. Neonatal hepatitis occurs in 10 to 20 percent of Pi type Z persons, and cirrhosis develops in a number of them in later childhood or in adult life. In heterozygotes of Pi type MZ, pulmonary or hepatic disease may also develop, though they are at lesser risk than type Z homozygotes. Specific A1PI replacement therapy derived from human plasma is now available and has been administered to Pi type Z patients by weekly intravenous infusion without adverse effects. A controlled clinical trial would be desirable, though this would be attended by organizational and economic problems.
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PMID:Natural history of alpha-1-protease inhibitor deficiency. 328 86

Alpha-1-antitrypsin (A1AT) deficiency is a genetic disorder characterized by low serum levels of A1AT and a high risk for the development of emphysema. A1AT is the principal inhibitor of neutrophil elastase, such that a deficiency of A1AT results in insufficient anti-elastase protection in the lower respiratory tract, thus allowing neutrophil elastase to destroy alveolar structures. The goal of A1AT augmentation therapy in A1AT deficiency is to raise lung A1AT levels and anti-neutrophil elastase capacity to levels that will provide adequate protection against neutrophil elastase, thereby preventing the lung from further elastase-mediated degradation. Studies with intravenous administration of human A1AT (60 mg/kg at weekly intervals) demonstrate that serum A1AT levels increased from an average 33 +/- 8 mg/dl pre-infusion to a steady-state trough level of 117 +/- 4 mg/dl, well above the projected threshold protective serum level of A1AT. The infused A1AT diffused into the lung and significantly augmented the epithelial lining fluid A1AT levels, rising from an average 0.44 +/- 0.16 microM (pre-infusion) to 2.62 +/- 1.29 microM at the nadir level just prior to the next infusion. Of critical importance is the fact that the A1AT that diffused into the lung was active as an inhibitor or neutrophil elastase, resulting in significant augmentation of epithelial lining fluid anti-neutrophil elastase capacity and normalization of the lung anti-elastase protection. In the over 800 weekly infusions administered, no significant adverse reactions have occurred. These findings demonstrate that long-term augmentation therapy with weekly infusions of A1AT is a rational, safe, and biochemically effective therapy for A1AT deficiency.
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PMID:Alpha-1-antitrypsin augmentation therapy for alpha-1-antitrypsin deficiency. 328 87

Pulmonary emphysema is currently thought to be due to an elastase-antielastase imbalance with resultant destruction of alveolar structures. The present study was aimed at testing whether alpha 1-proteinase inhibitor (alpha 1 PI) is the major component of the antielastase screen of the lower respiratory tract of healthy subjects. Bronchoalveolar lavage was performed in 8 nonsmokers (27.8 +/- 3.8 years) and 9 smokers (25 +/- 0.96 years). The lavage fluids were tested for leukocyte and pancreatic elastase inhibitory capacity (LEIC and PEIC) and immunoreactive alpha 1 PI and bronchial inhibitor (brI) content. The mean +/- s.e.m. levels of LEIC, PEIC, alpha 1 PI and brI were 0.16 +/- 0.039, 0.042 +/- 0.006, 0.09 +/- 0.007 and 0.013 +/- 0.002 mol/mol albumin, respectively. Thus, on the average, the molar concentration of brI was about 14% that of alpha 1 PI. The difference between LEIC and alpha 1 PI did not reach statistical significance (P = 0.0503). The PEIC was however significantly lower than the alpha 1 PI levels (P less than 0.05), indicating that the lavage fluids contained both active and inactive alpha 1 PI. Nonsmokers and smokers did not differ in their LEIC, PEIC, alpha 1 PI and brI levels. When the data were examined on an individual basis, the subjects could be divided into 2 groups: group I (n = 9; 3 nonsmokers, 6 smokers) whose LEIC/alpha 1 PI molar ratios were higher than unity and group II (n = 8; 5 nonsmokers, 3 smokers) whose LEIC/alpha 1 PI molar ratios were equal or lower than unity. Group I subjects had significantly higher LEIC values (0.26 +/- 0.05 mol elastase inhibited/mol albumin) than group II individuals (0.055 +/- 0.006; P less than 0.001) but the two groups had similar levels of immunoreactive alpha 1 PI (0.09 and 0.08 mol alpha 1 PI/mol albumin for group I and II, respectively), functionally active alpha 1 PI (percentage of active alpha 1 PI: 53% and 37% for group I and II, respectively) and immunoreactive brI (0.016 and 0.010 mol brI/mol albumin for group I and II, respectively). These results suggested that the lavage fluids from group I contained significant amounts of undefined leukocyte elastase inhibitor(s). Gel filtration of a lavage fluid from group I showed that the undefined elastase inhibitor(s) co-eluted with brI. Most of the lavage fluids were still able to inhibit leukocyte elastase following removal of alpha 1 PI by perchloric acid precipitation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The elastase inhibitory capacity and the alpha 1-proteinase inhibitor and bronchial inhibitor content of bronchoalveolar lavage fluids from healthy subjects. 331 Oct 75

Leukocyte elastase has been implicated in the etiology of pulmonary emphysema. Recently, two genetic models of emphysema have been described, in mouse, which may enhance our understanding of the pathogenesis of emphysema. We therefore sought to purify mouse leukocyte elastase in order to characterize its biochemical properties. Leukocyte enzyme has been purified by a two-step procedure involving salt extraction of granular fraction, followed by preparative isoelectric focusing on Sephadex G-75 Superfine. The enzyme hydrolyses elastin and synthetic substrates for elastase, even if to a different extent. Inhibition studies indicates that the enzyme is a serine proteinase. Mouse elastase has a single isoelectric point of 8.65 and it behaves on sodium dodecyl sulphate polyacrylamide gel electrophoresis as a major band (molecular weight 29,000) and two minor bands (molecular weight 27,000 and 25,800, respectively.
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PMID:Isolation and partial characterization of a proteinase with elastolytic activity from mouse blood leukocytes. 335 74

Previous ultrastructural studies of human neutrophils showed two distinctive granule types, the azurophil (peroxidase-positive) and the specific (peroxidase-negative). By identification of granules with peroxidase activity and those immunopositive for elastase antigen, the authors defined two subpopulations of azurophil granules, one that contained peroxidase activity and no measurable elastase antigen and another that contained elastase antigen associated with a small amount of peroxidase activity. They quantitated the peroxidase-positive as well as the elastase-positive granules in human peripheral blood neutrophils and found an average of 1536 +/- 69 peroxidase-positive granules per neutrophil. Of these, 399 +/- 20 were also elastase-positive. The average elastase concentration per neutrophil was 1.59 pg, and the average concentration per granule was 4 X 10(-3) pg. It is concluded that in normal individuals approximately one-third of the azurophil granules contain elastase antigen. Because neutrophil elastase has been implicated in the pathogenesis of emphysema, quantitation of its distribution within the cell presents an approach that may help define selective azurophil granule release and its relationship to the development of emphysema.
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PMID:Ultrastructural quantitation of peroxidase- and elastase-containing granules in human neutrophils. 335 53


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