PLoS Pathogens (Dec 2022)

The E46K mutation modulates α-synuclein prion replication in transgenic mice.

  • Sara A M Holec,
  • Jisoo Lee,
  • Abby Oehler,
  • Lyn Batia,
  • Aryanna Wiggins-Gamble,
  • Jeffrey Lau,
  • Felicia K Ooi,
  • Gregory E Merz,
  • Man Wang,
  • Daniel A Mordes,
  • Steven H Olson,
  • Amanda L Woerman

DOI
https://doi.org/10.1371/journal.ppat.1010956
Journal volume & issue
Vol. 18, no. 12
p. e1010956

Abstract

Read online

In multiple system atrophy (MSA), the α-synuclein protein misfolds into a self-templating prion conformation that spreads throughout the brain, leading to progressive neurodegeneration. While the E46K mutation in α-synuclein causes familial Parkinson's disease (PD), we previously discovered that this mutation blocks in vitro propagation of MSA prions. Recent studies by others indicate that α-synuclein adopts a misfolded conformation in MSA in which a Greek key motif is stabilized by an intramolecular salt bridge between residues E46 and K80. Hypothesizing that the E46K mutation impedes salt bridge formation and, therefore, exerts a selective pressure that can modulate α-synuclein strain propagation, we asked whether three distinct α-synuclein prion strains could propagate in TgM47+/- mice, which express human α-synuclein with the E46K mutation. Following intracranial injection of these strains, TgM47+/- mice were resistant to MSA prion transmission, whereas recombinant E46K preformed fibrils (PFFs) transmitted neurological disease to mice and induced the formation of phosphorylated α-synuclein neuropathology. In contrast, heterotypic seeding following wild-type (WT) PFF-inoculation resulted in preclinical α-synuclein prion propagation. Moreover, when we inoculated TgM20+/- mice, which express WT human α-synuclein, with E46K PFFs, we observed delayed transmission kinetics with an incomplete attack rate. These findings suggest that the E46K mutation constrains the number of α-synuclein prion conformations that can propagate in TgM47+/- mice, expanding our understanding of the selective pressures that impact α-synuclein prion replication.