1. Pharmacological inactivation of the prion protein by targeting a folding intermediate.
- Author
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Spagnolli, Giovanni, Massignan, Tania, Astolfi, Andrea, Biggi, Silvia, Rigoli, Marta, Brunelli, Paolo, Libergoli, Michela, Ianeselli, Alan, Orioli, Simone, Boldrini, Alberto, Terruzzi, Luca, Bonaldo, Valerio, Maietta, Giulia, Lorenzo, Nuria L., Fernandez, Leticia C., Codeseira, Yaiza B., Tosatto, Laura, Linsenmeier, Luise, Vignoli, Beatrice, and Petris, Gianluca
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PHARMACOLOGY ,NEURODEGENERATION ,METABOLOMICS ,PHENOTYPES ,NEUROLOGY - Abstract
Recent computational advancements in the simulation of biochemical processes allow investigating the mechanisms involved in protein regulation with realistic physics-based models, at an atomistic level of resolution. These techniques allowed us to design a drug discovery approach, named Pharmacological Protein Inactivation by Folding Intermediate Targeting (PPI-FIT), based on the rationale of negatively regulating protein levels by targeting folding intermediates. Here, PPI-FIT was tested for the first time on the cellular prion protein (PrP), a cell surface glycoprotein playing a key role in fatal and transmissible neurodegenerative pathologies known as prion diseases. We predicted the all-atom structure of an intermediate appearing along the folding pathway of PrP and identified four different small molecule ligands for this conformer, all capable of selectively lowering the load of the protein by promoting its degradation. Our data support the notion that the level of target proteins could be modulated by acting on their folding pathways, implying a previously unappreciated role for folding intermediates in the biological regulation of protein expression. Spagnolli, Massignan, Astolfi et al. design a new drug discovery approach, termed Pharmacological Protein Inactivation by Folding Intermediate Targeting, in which folding intermediates of disease-causing proteins are targeted. They test it on the cellular prion protein, identifying ligands stabilizing a folding intermediate and consequently promoting its degradation by the cellular quality control machinery. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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