• Media type: E-Article
  • Title: A combined in silico and in vitro study on mouse Serpina1a antitrypsin-deficiency mutants
  • Contributor: Eggenschwiler, Reto; Patronov, Atanas; Hegermann, Jan; Fráguas-Eggenschwiler, Mariane; Wu, Guangming; Cortnumme, Leon; Ochs, Matthias; Antes, Iris; Cantz, Tobias
  • Published: Springer Science and Business Media LLC, 2019
  • Published in: Scientific Reports, 9 (2019) 1
  • Language: English
  • DOI: 10.1038/s41598-019-44043-3
  • ISSN: 2045-2322
  • Keywords: Multidisciplinary
  • Origination:
  • Footnote:
  • Description: AbstractCertain point-mutations in the human SERPINA1-gene can cause severe α1-antitrypsin-deficiency (A1AT-D). Affected individuals can suffer from loss-of-function lung-disease and from gain-of-function liver-disease phenotypes. However, age of onset and severity of clinical appearance is heterogeneous amongst carriers, suggesting involvement of additional genetic and environmental factors. The generation of authentic A1AT-D mouse-models has been hampered by the complexity of the mouse Serpina1-gene locus and a model with concurrent lung and liver-disease is still missing. Here, we investigate point-mutations in the mouse Serpina1a antitrypsin-orthologue, which are homolog-equivalent to ones known to cause severe A1AT-D in human. We combine in silico and in vitro methods and we find that analyzed mutations do introduce potential disease-causing properties into Serpina1a. Finally, we show that introduction of the King’s-mutation causes inactivation of neutrophil elastase inhibitory-function in both, mouse and human antitrypsin, while the mouse Z-mutant retains activity. This work paves the path to generation of better A1AT-D mouse-models.
  • Access State: Open Access