Angélique Igel scite author profile

Prions are proteinaceous pathogens responsible for a wide range of neurodegenerative diseases in animal and human. Prions are formed from misfolded, ß-sheet rich, and aggregated conformers (PrPSc) of the host-encoded prion protein (PrPC). Prion replication stems from the capacity of PrPSc to self-replicate by templating PrPC conversion and polymerization. The question then arises about the molecular mechanisms of prion replication, host invasion, and capacity to contaminate other species. Studying these mechanisms has gained in recent years further complexity with evidence that PrPSc is a pleiomorphic protein. There is indeed compelling evidence for PrPSc structural heterogeneity at different scales: (i) within prion susceptible host populations with the existence of different strains with specific biological features due to different PrPSc conformers, (ii) within a single infected host with the co-propagation of different strains, and (iii) within a single strain with evidence for co-propagation of PrPSc assemblies differing in their secondary to quaternary structure. This review summarizes current knowledge of prion assembly heterogeneity, potential mechanisms of formation during the replication process, and importance when crossing the species barrier.

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Pathogenicity, strain properties and interspecies transmission capacity of pure recombinant prion protein assemblies

Rézaei

Martin

Herzog

et al. 2023

Preprint

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The pathogenicity of fibrillar assemblies derived from bacterially expressed recombinant prion protein (rPrP) has been key to the demonstration that prions are infectious proteins responsible for human and animal transmissible spongiform encephalopathies. Yet, their use in identifying which structural PrP features are important for prion biology, including strain properties and capacity to transmit between species, has been hampered by their limited transmissibility de novo. We report the generation of prions with distinct biological characteristics from rPrP assemblies differing only in their primary structure (hamster, mouse and human amino acid sequence). These rPrP assemblies were transmissible to transgenic mice expressing hamster PrP, causing a clinical disease at full attack rate, brain deposition of pathological prion protein PrPSc and spongiform degeneration. Their adaptation process on serial sub-passaging seemed to depend, as for genuine prions, on the presence of a species/transmission barrier, due notably to PrP sequence mismatch. Remarkably, one of the strains obtained is an unprecedented shortened prion, lacking the 90-140 amino-acid region which is believed to be key to infectivity and structural stability of disease-associated PrP assemblies. Finally, we provide evidence that rPrP prionogenicity lies in the structural organization and/or heterogeneity of the rPrP assemblies. These preparations of rPrP offer unprecedented opportunities for meaningful studies correlating the dynamicity and structures of PrPSc assemblies to prion pathobiology.

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Angélique Igel

Prion assemblies: structural heterogeneity, mechanisms of formation, and role in species barrier

Pathogenicity, strain properties and interspecies transmission capacity of pure recombinant prion protein assemblies

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