Stress and viral insults do not trigger E200K PrP conversion in human cerebral organoids

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Abstract

Prion diseases are a group of rare, transmissible, and invariably fatal neurodegenerative diseases that affect both humans and animals. The cause of these diseases is misfolding of the prion protein into pathological isoforms called prions. Of all human prion diseases, 10–15% of cases are genetic and the E200K mutation, which causes familial Creutzfeldt-Jakob disease (CJD), is the most prevalent. For both sporadic and genetic disease, it remains uncertain as to how initial protein misfolding is triggered. Prior studies have linked protein misfolding with oxidative stress insults, deregulated interactions with cellular cofactors, and viral infections. Our previous work developed a cerebral organoid (CO) model using human induced pluripotent stem cells containing the E200K mutation. COs are three-dimensional human neural tissues that permit the study of host genetics and environmental factors that contribute to disease onset. Isogenically matched COs with and without the E200K mutation were used to investigate the propensity of E200K PrP to misfold following cellular insults associated with oxidative stress. Since viral infections have also been associated with oxidative stress and neurodegenerative diseases, we additionally investigated the influence of Herpes Simplex Type-1 virus (HSV1), a neurotropic virus that establishes life-long latent infection in its host, on E200K PrP misfolding. While COs proved to be highly infectable with HSV1, neither acute nor latent infection, or direct oxidative stress insult, resulted in evidence of E200K prion misfolding. We conclude that misfolding into seeding-active PrP species is not readily induced by oxidative stress or HSV1 in our organoid system.

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Most cited references 51

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Generation of cerebral organoids from human pluripotent stem cells.

Madeline Lancaster, Juergen A. Knoblich (2014)

Human brain development exhibits several unique aspects, such as increased complexity and expansion of neuronal output, that have proven difficult to study in model organisms. As a result, in vitro approaches to model human brain development and disease are an intense area of research. Here we describe a recently established protocol for generating 3D brain tissue, so-called cerebral organoids, which closely mimics the endogenous developmental program. This method can easily be implemented in a standard tissue culture room and can give rise to developing cerebral cortex, ventral telencephalon, choroid plexus and retinal identities, among others, within 1-2 months. This straightforward protocol can be applied to developmental studies, as well as to the study of a variety of human brain diseases. Furthermore, as organoids can be maintained for more than 1 year in long-term culture, they also have the potential to model later events such as neuronal maturation and survival.

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Nobel Lecture: Prions

S B Prusiner (1998)

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Quantifying prion disease penetrance using large population control cohorts.

Eric Minikel, Sonia M Vallabh, Monkol Lek … (2016)

More than 100,000 genetic variants are reported to cause Mendelian disease in humans, but the penetrance-the probability that a carrier of the purported disease-causing genotype will indeed develop the disease-is generally unknown. We assess the impact of variants in the prion protein gene (PRNP) on the risk of prion disease by analyzing 16,025 prion disease cases, 60,706 population control exomes, and 531,575 individuals genotyped by 23andMe Inc. We show that missense variants in PRNP previously reported to be pathogenic are at least 30 times more common in the population than expected on the basis of genetic prion disease prevalence. Although some of this excess can be attributed to benign variants falsely assigned as pathogenic, other variants have genuine effects on disease susceptibility but confer lifetime risks ranging from <0.1 to ~100%. We also show that truncating variants in PRNP have position-dependent effects, with true loss-of-function alleles found in healthy older individuals, a finding that supports the safety of therapeutic suppression of prion protein expression.

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Author and article information

Contributors

Anna Smith: Role: ConceptualizationRole: Data curationRole: Formal analysisRole: InvestigationRole: MethodologyRole: Project administrationRole: Writing – original draftRole: Writing – review & editing

Bradley R. Groveman:

ORCID: https://orcid.org/0000-0002-5059-7672

Role: Data curationRole: Formal analysisRole: InvestigationRole: MethodologyRole: SupervisionRole: Writing – review & editing

Clayton Winkler: Role: MethodologyRole: ResourcesRole: SupervisionRole: Writing – review & editing

Katie Williams: Role: InvestigationRole: MethodologyRole: Project administrationRole: ResourcesRole: SupervisionRole: Writing – review & editing

Ryan Walters: Role: Data curationRole: InvestigationRole: Writing – review & editing

Jue Yuan: Role: MethodologyRole: ResourcesRole: Writing – review & editing

Wenquan Zou: Role: MethodologyRole: Project administrationRole: ResourcesRole: SupervisionRole: Writing – review & editing

Karin Peterson: Role: ConceptualizationRole: Project administrationRole: ResourcesRole: SupervisionRole: Writing – review & editing

Simote T. Foliaki:

ORCID: https://orcid.org/0000-0001-7450-6926

Role: Data curationRole: InvestigationRole: SupervisionRole: Writing – review & editing

Cathryn L. Haigh:

ORCID: https://orcid.org/0000-0001-7591-1149

Role: ConceptualizationRole: Formal analysisRole: MethodologyRole: Project administrationRole: ResourcesRole: SupervisionRole: ValidationRole: Writing – original draftRole: Writing – review & editing

Pedro Fernandez-Funez: Role: Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS One

Journal ID (publisher-id): plos

Title: PLOS ONE

Publisher: Public Library of Science (San Francisco, CA USA )

ISSN (Electronic): 1932-6203

Publication date (Electronic): 27 October 2022

Publication date Collection: 2022

Volume: 17

Issue: 10

Electronic Location Identifier: e0277051

Affiliations

[1 ] Laboratory of Persistent Viral Diseases, Division of Intramural Research, National Institute of Allergy and Infectious Diseases, Rocky Mountain Laboratories, National Institutes of Health, Hamilton, MT, United States of America

[2 ] Department of Pathology, Case Western Reserve University School of Medicine, Cleveland, OH, United States of America

University of Minnesota Medical Center: University of Minnesota Health, UNITED STATES

Author notes

Competing Interests: The authors have declared that no competing interests exist.

* E-mail: cathryn.haigh@ 123456nih.gov

Author information

Bradley R. Groveman https://orcid.org/0000-0002-5059-7672

Simote T. Foliaki https://orcid.org/0000-0001-7450-6926

Cathryn L. Haigh https://orcid.org/0000-0001-7591-1149

Article

Publisher ID: PONE-D-22-22018

DOI: 10.1371/journal.pone.0277051

PMC ID: 9612459

PubMed ID: 36301953

SO-VID: 62d3a0da-979f-4cd2-8d40-9fd68c1a66b0

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This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.

History

Date received : 5 August 2022

Date accepted : 18 October 2022

Page count

Figures: 4, Tables: 1, Pages: 18

Funding

Funded by: funder-id http://dx.doi.org/10.13039/100006492, Division of Intramural Research, National Institute of Allergy and Infectious Diseases;

This research was funded by the intramural program of NIAID (NIH). The funders had no role in the study design, data collection and analysis, decision to publish, or preparation of the manuscript.

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Data Availability All relevant data are within the manuscript and its Supporting Information files.

Stress and viral insults do not trigger E200K PrP conversion in human cerebral organoids

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Most cited references 51

Generation of cerebral organoids from human pluripotent stem cells.

Nobel Lecture: Prions

Quantifying prion disease penetrance using large population control cohorts.

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