Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.4.21.37 (
neutrophil elastase
)
4,078
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
serum protein
alpha 1-antitrypsin (alpha 1-AT) serves as the major inhibitor of
neutrophil elastase
. The most common allele of the alpha 1-AT gene is designated as PiM. The Z mutation is a single-base substitution of the normal M allele, causing a Glu----Lys change at position 342 in the molecule. The ZZ phenotype is associated with a severe deficiency of alpha 1-AT, serum concentrations of the protein being 10% of normal. Individuals with an alpha 1-AT deficiency are at an increased risk of developing emphysema. To generate antibodies that specifically detect the 342 position in the context of the flanking sequences, we synthesized several peptides that included the 342 position for both the M and the Z variant. Immunization with variant-specific peptide-carrier conjugates elicited alpha 1-AT variant-specific responses, as determined in a direct enzyme-linked immunoassay. Monoclonal antibodies (MAbs) were selected with different specificity for the 342 region: MAbs F43 recognize only the alpha 1-AT sequence with 342Glu, i.e., all variant proteins that are non-Z, either from hetero- or homozygous individuals; MAbs F50 recognize only the sequence with 342Lys, i.e., all Z-variant proteins in ZZ or heterozygous individuals; MAbs F46 recognize alpha 1-AT with either 342Lys or 342Glu, all variant proteins with sequences as in the peptides used. Z homo- and heterozygotes were detected with our MAbs in a rapid and simple immunoblot assay. Other variants (M, S, and F) can also be assigned on the basis of the electrophoretic pattern. This sensitive detection method is very easy, rapid, and straightforward and provides a powerful tool for diagnosis of the alpha 1-AT deficiencies, allowing early treatment (augmentation of alpha 1-AT) and proper advice on lifestyle practices.
...
PMID:Detection of genetic variants of alpha 1-antitrypsin with site-specific monoclonal antibodies. 189 97
alpha 1-Antitrypsin (alpha 1AT), the major serum inhibitor of
neutrophil elastase
, is a highly polymorphic
serum protein
associated with characteristic isoelectric-focusing (IEF) patterns for most variants. To characterize the molecular basis of the anodal F variant, the DNA sequence of the coding exons of an FZ individual was determined. The F allele differed from the normal M1(Val213) alpha 1AT allele by a single nucleotide transversion of cytosine to thymidine, which results in the amino acid substitution Arg223 CGT----Cys TGT. Inheritance of the F mutation was confirmed by family analysis using allele-specific amplification. In the context that the normal alpha 1AT molecule has only one cysteine residue, a mutation resulting in the addition of a second cysteine may influence the three-dimensional form of the protein and/or permit interaction with other plasma proteins with free-SH groups and may be responsible for the observation that the major F alpha 1AT bands often migrate as doublets in IEF gels.
...
PMID:Characterization of the molecular basis of the alpha 1-antitrypsin F allele. 203 34
Cumulative damage to lung tissue by
leukocyte elastase
is thought to be responsible for the development of pulmonary emphysema, an irreversible lung disease characterized by loss of lung elasticity. It is also thought to be involved in the rapidly developing and usually fatal adult respiratory distress syndrome. The primary defence against elastase damage is the anti-protease known as alpha 1-antitrypsin, a glycosylated
serum protein
of 394 amino acids. Oxidation of the methionine 358 residue located at the active centre of alpha 1-antitrypsin results in a dramatic decrease in inhibitory activity towards elastase which effectively inactivates the protective function. It has been suggested that this oxidation sensitivity has a regulatory function and allows tissue breakdown at sites of inflammation by inactivation of alpha 1-antitrypsin by oxygen radicals released by phagocytes. In the above diseases, however, the oxidative inactivation of alpha 1-antitrypsin is probably of major importance in allowing lung damage by elastase. An oxidation-resistant alpha 1-antitrypsin required for emphysemics and provide treatment for acute inflammatory respiratory conditions. To further the possibility of therapy for the above conditions, we describe here the synthesis in yeast of active, non-glycosylated, human alpha 1-antitrypsin. Site-directed mutagenesis has been used to construct an active, oxidation-resistant derivative containing a single methionine to valine substitution at the active centre. This demonstrates the potential of engineered modifications to protein molecules designed to improve their physiological function.
...
PMID:Synthesis in yeast of a functional oxidation-resistant mutant of human alpha-antitrypsin. 638 9
(1) Deficiency of alpha AT is one of the most common hereditary diseases affecting Caucasians in Europe. The alpha 1AT protein is extremely pleomorphic, and around 90 variants due to mutations have been recognized. The prime functions of alpha 1AT is to inhibit
neutrophil elastase
, and a proportion of individuals who are deficient in alpha 1AT develop emphysema. The most common deficiency variant (Z) is also associated with liver disease. The main site of alpha 1AT synthesis is in the liver. Not all deficient individuals are affected by lung or liver disease, however, so that other factors (genetic and environmental) are clearly important. (2) Investigation of alpha 1AT status is essential in any child or adult presenting with chronic liver disease. The genetic cause cannot be identified clinically or by any other laboratory investigation. The diagnosis carries important prognostic consequences and is important for other family members. Patients with emphysema should have their Pi type determined, especially if they are under the age of 50, have never smoked or there is a suggestive family history. Asymptomatic individuals who are homozygous type Z should be referred to a chest physician for a clinical and radiological assessment together with lung function tests. (3) Several laboratory tests are available to detect alpha 1AT deficiency, and the choice of test(s) will depend on circumstances. Quantitation of the
serum protein
is simple and cheap. Because alpha 1AT is an acute phase protein, however, quantitation used in isolation may give false negative results which are clearly unacceptable, particularly in association with paediatric liver disease. Phenotyping by isoelectric focusing requires some experience in distinguishing SZ and ZZ phenotypes, and phenotyping should ideally be used in conjunction with quantitation because heterozygous null phenotypes may appear identical to homozygous normal phenotypes. (4) Prenatal diagnosis is usually performed by DNA analysis of CVS samples obtained at 11-13 weeks. Because of the risk that CVS samples might be contaminated by maternal tissue, assays which are less likely to detect minor contaminants are preferable. At present, use of DNA tests is confined to prenatal diagnosis, but the availability of simple tests and the possibility of unequivocal identification of S and Z alleles means that these tests are likely to find greater use in the near future.
...
PMID:Molecular basis, clinical consequences and diagnosis of alpha-1 antitrypsin deficiency. 968 Oct 66
