Frontiers in Molecular Neuroscience (Nov 2019)

Design of a New [PSI+]-No-More Mutation in SUP35 With Strong Inhibitory Effect on the [PSI+] Prion Propagation

  • Lavrentii G. Danilov,
  • Andrew G. Matveenko,
  • Varvara E. Ryzhkova,
  • Mikhail V. Belousov,
  • Mikhail V. Belousov,
  • Olga I. Poleshchuk,
  • Daria V. Likholetova,
  • Petr A. Sokolov,
  • Nina A. Kasyanenko,
  • Andrey V. Kajava,
  • Andrey V. Kajava,
  • Galina A. Zhouravleva,
  • Galina A. Zhouravleva,
  • Stanislav A. Bondarev,
  • Stanislav A. Bondarev

DOI
https://doi.org/10.3389/fnmol.2019.00274
Journal volume & issue
Vol. 12

Abstract

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A number of [PSI+]-no-more (PNM) mutations, eliminating [PSI+] prion, were previously described in SUP35. In this study, we designed and analyzed a new PNM mutation based on the parallel in-register β-structure of Sup35 prion fibrils suggested by the known experimental data. In such an arrangement, substitution of non-charged residues by charged ones may destabilize the fibril structure. We introduced Q33K/A34K amino acid substitutions into the Sup35 protein, corresponding allele was called sup35-M0. The mutagenized residues were chosen based on ArchCandy in silico prediction of high inhibitory effect on the amyloidogenic potential of Sup35. The experiments confirmed that Sup35-M0 leads to the elimination of [PSI+] with high efficiency. Our data suggested that the elimination of the [PSI+] prion is associated with the decreased aggregation properties of the protein. The new mutation can induce the prion with very low efficiency and is able to propagate only weak [PSI+] prion variants. We also showed that Sup35-M0 protein co-aggregates with the wild-type Sup35 in vivo. Moreover, our data confirmed the utility of the strategy of substitution of non-charged residues by charged ones to design new mutations to inhibit a prion formation.

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