PLoS Pathogens (Jun 2021)

Structurally distinct external solvent-exposed domains drive replication of major human prions.

  • Mohammad Khursheed Siddiqi,
  • Chae Kim,
  • Tracy Haldiman,
  • Miroslava Kacirova,
  • Benlian Wang,
  • Jen Bohon,
  • Mark R Chance,
  • Janna Kiselar,
  • Jiri G Safar

DOI
https://doi.org/10.1371/journal.ppat.1009642
Journal volume & issue
Vol. 17, no. 6
p. e1009642

Abstract

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There is a limited understanding of structural attributes that encode the iatrogenic transmissibility and various phenotypes of prions causing the most common human prion disease, sporadic Creutzfeldt-Jakob disease (sCJD). Here we report the detailed structural differences between major sCJD MM1, MM2, and VV2 prions determined with two complementary synchrotron hydroxyl radical footprinting techniques-mass spectrometry (MS) and conformation dependent immunoassay (CDI) with a panel of Europium-labeled antibodies. Both approaches clearly demonstrate that the phenotypically distant prions differ in a major way with regard to their structural organization, and synchrotron-generated hydroxyl radicals progressively inhibit their seeding potency in a strain and structure-specific manner. Moreover, the seeding rate of sCJD prions is primarily determined by strain-specific structural organization of solvent-exposed external domains of human prion particles that control the seeding activity. Structural characteristics of human prion strains suggest that subtle changes in the organization of surface domains play a critical role as a determinant of human prion infectivity, propagation rate, and targeting of specific brain structures.