Zaid A.M. Al-Azzawi scite author profile

Edited by Ursula Jakob Prions are infectious protein aggregates that cause several fatal neurodegenerative diseases. Prion research has been hindered by a lack of cellular paradigms for studying the replication of prions from different species. Although hamster prions have been widely used to study prion replication in animals and within in vitro amplification systems, they have proved challenging to propagate in cultured cells. Because the murine catecholaminergic cell line CAD5 is susceptible to a diverse range of mouse prion strains, we hypothesized that it might also be capable of propagating nonmouse prions. Here, using CRISPR/ Cas9-mediated genome engineering, we demonstrate that CAD5 cells lacking endogenous mouse PrP expression (CAD5-PrP ؊/؊ cells) can be chronically infected with hamster prions following stable expression of hamster PrP. When exposed to the 263K, HY, or 139H hamster prion strains, these cells stably propagated high levels of protease-resistant PrP. Hamster prion replication required absence of mouse PrP, and hamster PrP inhibited the propagation of mouse prions. Cellular homogenates from 263K-infected cells exhibited prion seeding activity in the RT-QuIC assay and were infectious to naïve cells expressing hamster PrP. Interestingly, murine N2a neuroblastoma cells ablated for endogenous PrP expression were susceptible to mouse prions, but not hamster prions upon expression of cognate PrP, suggesting that CAD5 cells either possess cellular factors that enhance or lack factors that restrict the diversity of prion strains that can be propagated. We conclude that transfected CAD5-PrP ؊/؊ cells may be a useful tool for assessing the biology of prion strains and dissecting the mechanism of prion replication.

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Application of CRISPR genetic screens to investigate neurological diseases

Chung

Lau

et al. 2019

Mol Neurodegeneration

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The adoption of CRISPR-Cas9 technology for functional genetic screens has been a transformative advance. Due to its modular nature, this technology can be customized to address a myriad of questions. To date, pooled, genomescale studies have uncovered genes responsible for survival, proliferation, drug resistance, viral susceptibility, and many other functions. The technology has even been applied to the functional interrogation of the non-coding genome. However, applications of this technology to neurological diseases remain scarce. This shortfall motivated the assembly of a review that will hopefully help researchers moving in this direction find their footing. The emphasis here will be on design considerations and concepts underlying this methodology. We will highlight groundbreaking studies in the CRISPR-Cas9 functional genetics field and discuss strengths and limitations of this technology for neurological disease applications. Finally, we will provide practical guidance on navigating the many choices that need to be made when implementing a CRISPR-Cas9 functional genetic screen for the study of neurological diseases.

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A single protective polymorphism in the prion protein blocks cross‐species prion replication in cultured cells

Arshad

Patel

Amano

et al. 2022

Journal of Neurochemistry

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Prions are infectious protein aggregates that cause a variety of fatal neurodegenerative conditions in humans and animals, collectively referred to as prion diseases (Colby & Prusiner, 2011;Scheckel & Aguzzi, 2018;Watts et al., 2006). The naturally occurring prion diseases include scrapie in sheep, chronic wasting disease in cervids, as well as Creutzfeldt-Jakob disease, Gerstmann-Sträussler-Scheinker disease, fatal familial insomnia, and kuru in humans. The infectious proteins underlying these diseases are composed of an endogenously expressed protein called the cellular prion protein (PrP C ) (Oesch

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Zaid A.M. Al-Azzawi

Engineering a murine cell line for the stable propagation of hamster prions

Application of CRISPR genetic screens to investigate neurological diseases

A single protective polymorphism in the prion protein blocks cross‐species prion replication in cultured cells

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