Molecular Basis of the Liver and Lung Disease Associated with the α1-Antitrypsin Deficiency Allele Mmalton

α1-Antitrypsin (α1AT) deficiency is characterized by reduced serum levels of α1AT and a risk for the development of emphysema and liver disease. However, whereas there is an increased risk for emphysema associated with at least 10 α1AT deficiency and null alleles, the hepatic disease is observed onl...

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Published inThe Journal of biological chemistry Vol. 264; no. 23; pp. 13938 - 13945
Main Authors Curiel, D T, Holmes, M D, Okayama, H, Brantly, M L, Vogelmeier, C, Travis, W D, Stier, L E, Perks, W H, Crystal, R G
Format Journal Article
LanguageEnglish
Published Bethesda, MD Elsevier Inc 15.08.1989
American Society for Biochemistry and Molecular Biology
Subjects
Biological and medical sciences
Errors of metabolism
Medical sciences
Metabolic diseases
Miscellaneous hereditary metabolic disorders
Human
In vitro transcription
Molecular hybridization
Nucleotide sequence
Liver
Lung
Enzyme inhibitor
Metabolic diseases
Biosynthesis
Gene expression
α1-Antitrypsin
Immunoprecipitation reaction
Enzymatic activity
Isoelectrical focusing
Gene
Molecular cloning
Histochemistry
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Summary:α1-Antitrypsin (α1AT) deficiency is characterized by reduced serum levels of α1AT and a risk for the development of emphysema and liver disease. However, whereas there is an increased risk for emphysema associated with at least 10 α1AT deficiency and null alleles, the hepatic disease is observed only in a subset of these alleles, suggesting that it is not the reduced serum levels of α1AT per se which cause the liver disease. The present study characterizes the α1AT deficiency allele Mmalton, an allele that like the common Z deficiency mutation (Glu342 →Lys) is associated with both α1AT deficiency and hepatic disease. Capitalizing on the identification of the homozygous inheritance of the rare Mmalton α1AT deficiency allele, it was demonstrated that although caused by a very different mutation, the Mmalton allele shares with the Z allele the association of liver disease with the same type of abnormalities of α1AT biosynthesis. Cloning of the Mmalton gene and sequence analysis demonstrated that it differs from the normal α1AT M2 allele by deletion of the entire codon (TTC) for residue Phe52. Liver biopsy of the Mmalton homozygote revealed inflammation, mild fibrosis, and intrahepatocyte accumulation of α1AT. Evaluation of de novo α1AT biosynthesis in α1AT-synthesizing cells of this individual demonstrated normal levels of α1AT mRNA transcripts but abnormal intracellular accumulation of newly synthesized α1AT at the level of the rough endoplasmic reticulum with consequent reduced α1AT secretion. Finally, retroviral gene transfer of a normal α1AT cDNA and an α1AT cDNA with the Mmalton Phe52 deletion into murine cells demonstrated that the Mmalton cells reproduced the abnormal accumulation of newly synthesized α1AT, thus directly demonstrating that the deletion mutation is responsible for the intracellular accumulation of the newly synthesized α1AT. Thus, not only is the liver disease associated with α1AT deficiency restricted to a subset of α1AT deficiency alleles, it appears to be restricted to those alleles associated with intracellular accumulation of newly synthesized α1AT, suggesting that it is the abnormal intrahepatocyte α1AT accumulation which incites the liver injury.
ISSN:0021-9258
1083-351X
DOI:10.1016/S0021-9258(18)80090-4