The serpinopathies are among a diverse set of conformational diseases that involve the aberrant self-association of proteins into ordered aggregates. α1-Antitrypsin deficiency is the archetypal serpinopathy and results from the formation and deposition of mutant forms of α1-antitrypsin as “polymer” chains in liver tissue. No detailed structural analysis has been performed of this material. Moreover, there is little information on the relevance of well-studied artificially induced polymers to these disease-associated molecules. We have isolated polymers from the liver tissue of Z α1-antitrypsin homozygotes (E342K) who have undergone transplantation, labeled them using a Fab fragment, and performed single-particle analysis of negative-stain electron micrographs. The data show structural equivalence between heat-induced and ex vivo polymers and that the intersubunit linkage is best explained by a carboxyl-terminal domain swap between molecules of α1-antitrypsin.
The structural basis for Z α1-antitrypsin polymerization in the liver / Faull, S. V.; Elliston, E. L. K.; Gooptu, B.; Jagger, A. M.; Aldobiyan, I.; Redzej, A.; Badaoui, M.; Heyer-Chauhan, N.; Tamir Rashid, S.; Reynolds, G. M.; Adams, D. H.; Miranda, E.; Orlova, E. V.; Irving, J. A.; Lomas, D. A.. - In: SCIENCE ADVANCES. - ISSN 2375-2548. - 6:43(2020). [10.1126/sciadv.abc1370]
The structural basis for Z α1-antitrypsin polymerization in the liver
Miranda E.;
2020
Abstract
The serpinopathies are among a diverse set of conformational diseases that involve the aberrant self-association of proteins into ordered aggregates. α1-Antitrypsin deficiency is the archetypal serpinopathy and results from the formation and deposition of mutant forms of α1-antitrypsin as “polymer” chains in liver tissue. No detailed structural analysis has been performed of this material. Moreover, there is little information on the relevance of well-studied artificially induced polymers to these disease-associated molecules. We have isolated polymers from the liver tissue of Z α1-antitrypsin homozygotes (E342K) who have undergone transplantation, labeled them using a Fab fragment, and performed single-particle analysis of negative-stain electron micrographs. The data show structural equivalence between heat-induced and ex vivo polymers and that the intersubunit linkage is best explained by a carboxyl-terminal domain swap between molecules of α1-antitrypsin.| File | Dimensione | Formato | |
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