PLoS Biology (Jan 2012)

Common features at the start of the neurodegeneration cascade.

  • Rubén Hervás,
  • Javier Oroz,
  • Albert Galera-Prat,
  • Oscar Goñi,
  • Alejandro Valbuena,
  • Andrés M Vera,
  • Angel Gómez-Sicilia,
  • Fernando Losada-Urzáiz,
  • Vladimir N Uversky,
  • Margarita Menéndez,
  • Douglas V Laurents,
  • Marta Bruix,
  • Mariano Carrión-Vázquez

DOI
https://doi.org/10.1371/journal.pbio.1001335
Journal volume & issue
Vol. 10, no. 5
p. e1001335

Abstract

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Amyloidogenic neurodegenerative diseases are incurable conditions with high social impact that are typically caused by specific, largely disordered proteins. However, the underlying molecular mechanism remains elusive to established techniques. A favored hypothesis postulates that a critical conformational change in the monomer (an ideal therapeutic target) in these "neurotoxic proteins" triggers the pathogenic cascade. We use force spectroscopy and a novel methodology for unequivocal single-molecule identification to demonstrate a rich conformational polymorphism in the monomer of four representative neurotoxic proteins. This polymorphism strongly correlates with amyloidogenesis and neurotoxicity: it is absent in a fibrillization-incompetent mutant, favored by familial-disease mutations and diminished by a surprisingly promiscuous inhibitor of the critical monomeric β-conformational change, neurotoxicity, and neurodegeneration. Hence, we postulate that specific mechanostable conformers are the cause of these diseases, representing important new early-diagnostic and therapeutic targets. The demonstrated ability to inhibit the conformational heterogeneity of these proteins by a single pharmacological agent reveals common features in the monomer and suggests a common pathway to diagnose, prevent, halt, or reverse multiple neurodegenerative diseases.