Frontiers in Molecular Neuroscience (Jul 2021)

Structures of Pathological and Functional Amyloids and Prions, a Solid-State NMR Perspective

  • Asen Daskalov,
  • Nadia El Mammeri,
  • Alons Lends,
  • Jayakrishna Shenoy,
  • Gaelle Lamon,
  • Yann Fichou,
  • Ahmad Saad,
  • Denis Martinez,
  • Estelle Morvan,
  • Melanie Berbon,
  • Axelle Grélard,
  • Brice Kauffmann,
  • Mathias Ferber,
  • Benjamin Bardiaux,
  • Birgit Habenstein,
  • Sven J. Saupe,
  • Antoine Loquet

DOI
https://doi.org/10.3389/fnmol.2021.670513
Journal volume & issue
Vol. 14

Abstract

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Infectious proteins or prions are a remarkable class of pathogens, where pathogenicity and infectious state correspond to conformational transition of a protein fold. The conformational change translates into the formation by the protein of insoluble amyloid aggregates, associated in humans with various neurodegenerative disorders and systemic protein-deposition diseases. The prion principle, however, is not limited to pathogenicity. While pathological amyloids (and prions) emerge from protein misfolding, a class of functional amyloids has been defined, consisting of amyloid-forming domains under natural selection and with diverse biological roles. Although of great importance, prion amyloid structures remain challenging for conventional structural biology techniques. Solid-state nuclear magnetic resonance (SSNMR) has been preferentially used to investigate these insoluble, morphologically heterogeneous aggregates with poor crystallinity. SSNMR methods have yielded a wealth of knowledge regarding the fundamentals of prion biology and have helped to solve the structures of several prion and prion-like fibrils. Here, we will review pathological and functional amyloid structures and will discuss some of the obtained structural models. We will finish the review with a perspective on integrative approaches combining solid-state NMR, electron paramagnetic resonance and cryo-electron microscopy, which can complement and extend our toolkit to structurally explore various facets of prion biology.

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