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Intrahepatic heteropolymerization of M and Z alpha-1-antitrypsin

Mattia Laffranchi, Emma Elliston, Elena Miranda, Juan L. Barja, Riccardo Ronzoni, Alistair M. Jagger, Nina Heyer‐Chauhan, Mark Brantly, Annamaria Fra, David A. Lomas, James A. Irving

2020JCI Insight25 citationsDOIOpen Access PDF

Abstract

The α-1-antitrypsin (or alpha-1-antitrypsin, A1AT) Z variant is the primary cause of severe A1AT deficiency and forms polymeric chains that aggregate in the endoplasmic reticulum of hepatocytes. Around 2%-5% of Europeans are heterozygous for the Z and WT M allele, and there is evidence of increased risk of liver disease when compared with MM A1AT individuals. We have shown that Z and M A1AT can copolymerize in cell models, but there has been no direct observation of heteropolymer formation in vivo. To this end, we developed a monoclonal antibody (mAb2H2) that specifically binds to M in preference to Z A1AT, localized its epitope using crystallography to a region perturbed by the Z (Glu342Lys) substitution, and used Fab fragments to label polymers isolated from an MZ heterozygote liver explant. Glu342 is critical to the affinity of mAb2H2, since it also recognized the mild S-deficiency variant (Glu264Val) present in circulating polymers from SZ heterozygotes. Negative-stain electron microscopy of the Fab2H2-labeled liver polymers revealed that M comprises around 6% of the polymer subunits in the MZ liver sample. These data demonstrate that Z A1AT can form heteropolymers with polymerization-inert variants in vivo with implications for liver disease in heterozygous individuals.

Topics & Concepts

Heterozygote advantageEpitopeIn vivoMolecular biologyMonoclonal antibodyNegative stainEndoplasmic reticulumStainChemistryCompound heterozygosityLiver diseaseStainingAntibodyMutationAlleleBiologyBiochemistryElectron microscopeGeneImmunologyGeneticsPhysicsOpticsProtease and Inhibitor MechanismsEndoplasmic Reticulum Stress and DiseaseSignaling Pathways in Disease