Fluorescent non-canonical amino acid as a site-specific conformational probe of prion formation

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Abstract

ABSTRACT The pathogenic conversion of the cellular prion protein (PrP C ) into the β-sheet-rich isoform PrP Sc is the pivotal pathogenic event in prion disease, yet the molecular steps that govern this structural transition remain elusive. In this study, we introduce a new approach to monitor site-specific conformational transitions that occur during infectious prion formation. The method relies on genetically encoded substitution of a fluorescent, environmentally sensitive non-canonical amino acid, L-(7-hydroxycoumarin-4-yl)ethylglycine (7-HCAA), into recombinant PrP substate molecules, allowing real-time monitoring of structural changes in high-efficiency in vitro PrP Sc conversion reactions. As proof of principle, we show that the W99 7-HCAA recPrP substate efficiently propagates two different PrP Sc conformers (infectious cofactor PrP Sc and non-infectious protein-only PrP Sc ). Bioassays in knock-in mice expressing bank vole (BV) PrP confirm that W99 7-HCAA cofactor PrP Sc produced by serial propagation is infectious, causing scrapie with an incubation period and neuropathological profile like those induced by wild-type cofactor PrP Sc . Marked differences in fluorescence intensity were observed between native, misfolded, and denatured states of W99 7-HCAA PrP, confirming that 7-HCAA reports on local changes in PrP conformation. Together, these findings establish 7-HCAA as a site-specific and sensitive probe of local PrP conformation. Moreover, the results suggest a new and broadly applicable strategy for studying conformational dynamics in amyloid-forming proteins.
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ABSTRACT The pathogenic conversion of the cellular prion protein (PrPC) into the β-sheet-rich isoform PrPSc is the pivotal pathogenic event in prion disease, yet the molecular steps that govern this structural transition remain elusive. In this study, we introduce a new approach to monitor site-specific conformational transitions that occur during infectious prion formation. The method relies on genetically encoded substitution of a fluorescent, environmentally sensitive non-canonical amino acid, L-(7-hydroxycoumarin-4-yl)ethylglycine (7-HCAA), into recombinant PrP substate molecules, allowing real-time monitoring of structural changes in high-efficiency in vitro PrPSc conversion reactions. As proof of principle, we show that the W99 7-HCAA recPrP substate efficiently propagates two different PrPSc conformers (infectious cofactor PrPSc and non-infectious protein-only PrPSc). Bioassays in knock-in mice expressing bank vole (BV) PrP confirm that W99 7-HCAA cofactor PrPSc produced by serial propagation is infectious, causing scrapie with an incubation period and neuropathological profile like those induced by wild-type cofactor PrPSc. Marked differences in fluorescence intensity were observed between native, misfolded, and denatured states of W99 7-HCAA PrP, confirming that 7-HCAA reports on local changes in PrP conformation. Together, these findings establish 7-HCAA as a site-specific and sensitive probe of local PrP conformation. Moreover, the results suggest a new and broadly applicable strategy for studying conformational dynamics in amyloid-forming proteins. Competing Interest Statement The authors have declared no competing interest. Footnotes Labeling of Supplemental Figure has been corrected

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00