Convergent generation of atypical prions in knockin mouse models of genetic prion disease
Surabhi Mehra, … , Walker S. Jackson, Joel C. Watts
Surabhi Mehra, … , Walker S. Jackson, Joel C. Watts
Published August 1, 2024
Citation Information: J Clin Invest. 2024;134(15):e176344. https://doi.org/10.1172/JCI176344.
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Research Article Neuroscience

Convergent generation of atypical prions in knockin mouse models of genetic prion disease

Abstract

Most cases of human prion disease arise due to spontaneous misfolding of WT or mutant prion protein, yet recapitulating this event in animal models has proven challenging. It remains unclear whether spontaneous prion generation can occur within the mouse lifespan in the absence of protein overexpression and how disease-causing mutations affect prion strain properties. To address these issues, we generated knockin mice that express the misfolding-prone bank vole prion protein (BVPrP). While mice expressing WT BVPrP (I109 variant) remained free from neurological disease, a subset of mice expressing BVPrP with mutations (D178N or E200K) causing genetic prion disease developed progressive neurological illness. Brains from spontaneously ill knockin mice contained prion disease–specific neuropathological changes as well as atypical protease-resistant BVPrP. Moreover, brain extracts from spontaneously ill D178N- or E200K-mutant BVPrP–knockin mice exhibited prion seeding activity and transmitted disease to mice expressing WT BVPrP. Surprisingly, the properties of the D178N- and E200K-mutant prions appeared identical before and after transmission, suggesting that both mutations guide the formation of a similar atypical prion strain. These findings imply that knockin mice expressing mutant BVPrP spontaneously develop a bona fide prion disease and that mutations causing prion diseases may share a uniform initial mechanism of action.

Authors

Surabhi Mehra, Matthew E.C. Bourkas, Lech Kaczmarczyk, Erica Stuart, Hamza Arshad, Jennifer K. Griffin, Kathy L. Frost, Daniel J. Walsh, Surachai Supattapone, Stephanie A. Booth, Walker S. Jackson, Joel C. Watts

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Figure 3

Protease-resistant PrP in brains from spontaneously ill knockin mice expressing mutant bank vole PrP.

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Protease-resistant PrP in brains from spontaneously ill knockin mice exp...
(A) Schematic of protocols used for the analysis of detergent-insoluble and protease-resistant PrP species in the brains of knockin mice. (B) Immunoblots for detergent-insoluble PrP species, with (+) or without (–) digestion with thermolysin (TL), in brain homogenates from 3-month-old kiBVIWT, kiBVIE200K, and kiBVID178N mice. (C) Immunoblots for detergent-insoluble PrP species, with or without TL digestion, in brain homogenates from asymptomatic 20-month-old kiBVIWT mice and spontaneously ill kiBVIE200K and kiBVID178N mice. The bottom panel displays a longer exposure of the blot shown in the top panel. In the immunoblots in C and D, 10 times more material was loaded for the TL-digested samples than for the undigested samples. (D) Immunoblots for detergent-insoluble PrP species in brain extracts from aged asymptomatic kiBVIWT mice as well as spontaneously ill kiBVIE200K and kiBVID178N mice following digestion with either TL (top panel) or proteinase K (PK; bottom panel). (E) Immunoblots for detergent-insoluble, TL-resistant PrP species in brain extracts from kiBVIWT (left), kiBVIE200K (middle), and kiBVID178N (right) mice at the indicated ages. Two independent mice per age are shown. For the kiBVIWT line, a sample without TL digestion is also shown. In all panels, PrP was detected using the antibody HuM-D13, and molecular weight markers indicate kilodaltons.