Molecular basis of alpha-1-antitrypsin deficiency

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Abstract

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 heptocytes 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.

References (211)

  • RN Sifers et al.

    Tissue specific expression of the human alpha-1-antitrypsin gene in transgenic mice

    Nucleic Acids Res

    (1987)
  • J-O Jeppsson et al.

    Properties of isolated human α1-antitrypsins of Pi types M, S and Z

    Eur J Biochem

    (1978)
  • F Kueppers

    Inherited differences in alpha-1-antitrypsin

  • T Nukiwa et al.

    Characterization of the M1(Ala213) type of α1-antitrypsin, a newly recognized common “normal” α1-antitrypsin haplotype

    Biochemistry

    (1987)
  • K Satoh et al.

    Emphysema associated with complete absence of α1-antitrypsin in serum and the homozygous inheritance of stop codon in α1-antitrypsin coding exon

    Am J Hum Genet

    (1988)
  • A Gorg et al.

    Improved resolution of Pi (α1-antitrypsin) phenotypes by a large-scale immobilized pH gradient

    Am J Hum Genet

    (1985)
  • RM Bruce et al.

    Collaborative study to assess risk of lung disease in Pi MZ phenotype subjects

    Am Rev Respir Dis

    (1984)
  • MK Fagerhol

    Genetics of the Pi system

  • JE Gadek et al.

    α1-Antitrypsin deficiency

  • JO Morse

    Alpha1-antitrypsin deficiency

    N Engl J Med

    (1978)
    JO Morse

    Alpha1-antitrypsin deficiency

    N Engl J Med

    (1978)
  • HL Sharp et al.

    Cirrhosis associated with alpha-1-antitrypsin deficiency: a previously unrecognized inherited disorder

    J Lab Clin Med

    (1969)
  • F Kueppers et al.

    α1-Antitrypsin and its deficiency

    Am Rev Respir Dis

    (1974)
  • RW Carrell et al.

    α1-Antitrypsin: structure, variation and disease

    Essays Med Biochem

    (1979)
  • C-B Laurell et al.

    The electrophoretic α1-globulin pattern of serum in α1-antitrypsin deficiency

    Scand J Clin Lab Invest

    (1963)
  • S Eriksson

    Pulmonary emphysema and alpha-1-antitrypsin deficiency

    Acta Med Scand

    (1964)
  • S Eriksson

    Studies in α1-antitrypsin deficiency

    Acta Med Scand [Suppl]

    (1965)
  • HE Schultze et al.

    α1-Antitrypsin aus human-serum

    Klin Wschr

    (1962)
  • J Travis et al.

    Human plasma proteinase inhibitors

    Ann Rev Biochem

    (1983)
  • K Beatty et al.

    Kinetics of association of serine proteinases with native and oxidized α-1-Proteinase inhibitor and α-1-antichymotrypsin

    J Biol Chem

    (1980)
  • RW Carrell et al.

    Structure and variation of human α1-antitrypsin

    Nature (London)

    (1982)
  • H Loebermann et al.

    Human α1-proteinase inhibitor: crystal structure analysis of two crystal modifications, molecular model and preliminary analysis of the implications for function

    J Mol Biol

    (1984)
  • MK Fagerhol et al.

    The Pi polymorphism: genetic, biochemical, and clinical aspects of human α1-antitrypsin

    Adv Hum Genet

    (1981)
  • DW Cox et al.

    Report of nomenclature meeting for α1-antitrypsin: INSERM, Rouen/Bois-Guillaume, 1978

    Hum Genet

    (1980)
  • T Mega et al.

    Studies on the oligosaccharide chains of human α1-protease inhibitor: I. Isolation of glycopeptides

    J Biol Chem

    (1980)
  • W Bode et al.

    X-ray crystal structure of human leukocyte elastase (PMN elastase) and the third domain of the turkey ovomucoid inhibitor

    EMBO J

    (1986)
  • DA Johnson et al.

    Human alpha-1-protease inhibitor mechanism of action: evidence for activation by limited proteolysis

    Biochem Biophys Res Commun

    (1976)
  • JG Bieth

    In vivo significance of kinetic constants of protein proteinase inhibitors

    (1984)
  • MD Wewers et al.

    Replacement therapy for alpha1-antitrypsin deficiency associated with emphysema

    N Engl J Med

    (1987)
  • MD Wewers et al.

    Comparison of alpha-1-antitrypsin levels and antineutrophil elastase capacity of blood and lung in a patient with the alpha-1-antitrypsin phenotype null-null before and during alpha-1-antitrypsin augmentation therapy

    Am Rev Respir Dis

    (1987)
  • EA Jones et al.

    Metabolism of intact and desialylated α1-antitrypsin

    Clin Sci Mol Med

    (1978)
  • J-O Jeppsson et al.

    Catabolic rate of α1-antitrypsin of Pi types S, and Mmalton and of asialylated M-protein in man

    Clin Sci Mol Med

    (1978)
  • TA Waldmann et al.

    Metabolism of immunoglobulins

    Prog Allergy

    (1969)
  • GL Long et al.

    Complete sequence of the cDNA for human α1-antitrypsin and the gene for the S variant

    Biochemistry

    (1984)
  • M Rabin et al.

    Regional location of α1-antichymotrypsin and α1-antitrypsin genes on human chromosome 14

    Somatic Cell Mol Genet

    (1986)
  • E Perlino et al.

    The human α1-antitrypsin gene is transcribed from two different promoters in macrophages and hepatocytes

    EMBO J

    (1987)
  • VJ Kidd et al.

    Molecular analysis of the serine proteinase inhibitor gene family

  • GD Kelsey et al.

    Species- and tissue-specific expression of human α1-antitrypsin in transgenic mice

    Genes Dev

    (1987)
  • Hofker MH, Nelen M, Klasen EC, Frants RR, Nukiwa T, Crystal RG: A highly polymorphic α1-antitrypsin-like gene maps with...
  • HE Schultz et al.

    Synthesis of the plasma proteins

  • DH Perlmutter et al.

    Expression of the α1-proteinase inhibitor gene in human monocytes and macrophages

    • Cited by (0)

    Dr. Brantly is a Parker B. Francis Fellow in Pulmonary Research.

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