Your search keyword '"prions"' showing total 3,089 results

1. Species barrier as molecular basis for adaptation of synthetic prions with N‐terminally truncated PrP.

Author

Rezaei, Human, Martin, Davy, Herzog, Laetitia, Reine, Fabienne, Marín Moreno, Alba, Moudjou, Mohammed, Aron, Naima, Igel, Angélique, Klute, Hannah, Youssafi, Stella, Moog, Jean‐Baptiste, Sibille, Pierre, Andréoletti, Olivier, Torrent, Joan, and Béringue, Vincent

Subjects

SPECIES specificity, PRION diseases, TRANSGENIC mice, HUMAN origins, LABORATORY mice, PRIONS

Abstract

Mammalian prions are neurotropic pathogens formed from PrPSc assemblies, a misfolded variant of the host‐encoded prion protein PrPC. Multiple PrPSc conformations or strains self‐propagate in host populations or mouse models of prion diseases, exhibiting distinct biological and biochemical phenotypes. Constrained interactions between PrPSc and PrPC conformations confer species specificity and regulate cross‐species transmission. The pathogenicity of fibrillar assemblies derived from bacterially expressed recombinant PrP (rPrP) has been instrumental in demonstrating the protein‐only nature of prions. Yet, their ability to encode different strains and transmit between species remains poorly studied, hampering their use in exploring structure‐to‐strain relationships. Fibrillar assemblies from rPrP with hamster, mouse, human, and bovine primary structures were generated and tested for transmission and adaptation in tg7 transgenic mice expressing hamster PrPC. All assemblies, except the bovine ones, were fully pathogenic on the primary passage, causing clinical disease, PrPSc brain deposition, and spongiform degeneration. They exhibited divergent adaptation processes and strain properties upon subsequent passage. Assemblies of hamster origin propagated without apparent need for adaptation, those of mouse origin adapted abruptly, and those of human origin required serial passages for optimal fitness. Molecular analyses revealed the presence of endogenously truncated PrPSc species in the resulting synthetic strains that lack the 90–140 amino acid region considered crucial for infectivity. In conclusion, rPrP assemblies provide a facile means of generating novel prion strains with adaptative/evolutive properties mimicking genuine prions. The PrP amino acid backbone is sufficient to encode different strains with specific adaptative properties, offering insights into prion transmission and strain diversity. [ABSTRACT FROM AUTHOR]

Published

2024

2. Sodium hypochlorite inactivation of human CJD prions.

Author

Groveman, Bradley R., Race, Brent, Hughson, Andrew G., and Haigh, Cathryn L.

Subjects

CREUTZFELDT-Jakob disease, PRION diseases, GUINEA pigs, PRIONS, GENETIC mutation, TRANSGENIC mice

Abstract

Prion diseases are transmissible, fatal neurologic diseases of mammals caused by the accumulation of mis-folded, disease associated prion protein (PrPd). Creutzfeldt-Jakob Disease (CJD) is the most common human prion disease and can occur by sporadic onset (sCJD) (~85% of CJD cases), genetic mutations in the prion protein gene (10–15%) or iatrogenic transmission (rare). PrPd is difficult to inactivate and many methods to reduce prion infectivity are dangerous, caustic, expensive, or impractical. Identifying viable and safe methods for decontamination of CJD exposed materials is critically important for medical facilities and research institutions. Previous research has shown that concentrated sodium hypochlorite (bleach) was effective at inactivation of CJD prions derived from brains of mice or guinea pigs. Unfortunately, human prions adapted to rodents may mis-fold differently than in humans, and the rodent adapted prions may not have the same resistance or susceptibility to inactivation present in bona fide CJD prions. To confirm that bleach was efficacious against human sourced CJD prions, we exposed different subtypes of sCJD-infected human brain homogenates to different concentrations of bleach for increasing exposure times. Initial and residual prion seeding activity following inactivation were measured using Real-Time Quaking Induced Conversion. In addition, we tested how passage of human sCJD into either transgenic mice that expressed human prion protein, or transmission of CJD to human cerebral organoids (CO), two common laboratory practices, may affect CJD prions' susceptibility to bleach inactivation. Our results show that bleach is effective against human sourced sCJD prions, and both treatment time and concentration of bleach were important factors for CJD inactivation. CJD derived from human brains, transgenic mouse brains or CO were all susceptible to inactivation with as low as a 10 percent bleach solution with a 30-minute exposure time or a 50 percent bleach solution with as little as a 1-minute exposure time. [ABSTRACT FROM AUTHOR]

Published

2024

3. Intrinsically Disordered Compositional Bias in Proteins: Sequence Traits, Region Clustering, and Generation of Hypothetical Functional Associations.

Author

Harrison, Paul M

Subjects

PRIONS, AMINO acid sequence, SACCHAROMYCES cerevisiae, CHROMATIN, PROTEINS

Abstract

Compositionally biased regions (CBRs), ie, tracts that are dominated by a subset of residue types, are common features of eukaryotic proteins. These are often found bounded within or almost coterminous with intrinsically disordered or 'natively unfolded' parts. Here, it is investigated how the function of such intrinsically disordered compositionally biased regions (ID-CBRs) is directly linked to their compositional traits, focusing on the well-characterized yeast (Saccharomyces cerevisiae) proteome as a test case. The ID-CBRs that are clustered together using compositional distance are discovered to have clear functional linkages at various levels of diversity. The specific case of the Sup35p and Rnq1p proteins that underlie causally linked prion phenomena ([PSI+] and [RNQ+]) is highlighted. Their prion-forming ID-CBRs are typically clustered very close together indicating some compositional engendering for [RNQ+] seeding of [PSI+] prions. Delving further, ID-CBRs with distinct types of residue patterning such as 'blocking' or relative segregation of residues into homopeptides are found to have significant functional trends. Specific examples of such ID-CBR functional linkages that are discussed are: Q/N-rich ID-CBRs linked to transcriptional coactivation, S-rich to transcription-factor binding, R-rich to DNA-binding, S/E-rich to protein localization, and D-rich linked to chromatin remodelling. These data may be useful in informing experimental hypotheses for proteins containing such regions. [ABSTRACT FROM AUTHOR]

Published

2024

4. Temporal Characterization of Prion Shedding in Secreta of White-Tailed Deer in Longitudinal Study of Chronic Wasting Disease, United States.

Author

Denkers, Nathaniel D., McNulty, Erin E., Kraft, Caitlyn N., Nalls, Amy V., Westrich, Joseph A., Hoover, Edward A., and Mathiason, Candace K.

Subjects

CHRONIC wasting disease, WHITE-tailed deer, PRIONS, FERRIC oxide, AMYLOID

Abstract

Chronic wasting disease (CWD) affects cervids in North America, Asia, and Scandinavia. CWD is unique in its efficient spread, partially because of contact with infectious prions shed in secreta. To assess temporal profiles of CWD prion shedding, we collected saliva, urine, and feces from white-tailed deer for 66 months after exposure to low oral doses of CWD-positive brain tissue or saliva. We analyzed prion seeding activity by using modified amyloid amplification assays incorporating iron oxide bead extraction, which improved CWD detection and reduced false positives. CWD prions were detected in feces, urine, and saliva as early as 6 months postinfection. More frequent and consistent shedding was observed in deer homozygous for glycine at prion protein gene codon 96 than in deer expressing alternate genotypes. Our findings demonstrate that improved amplification methods can be used to identify early antemortem CWD prion shedding, which might aid in disease surveillance of cervids [ABSTRACT FROM AUTHOR]

Published

2024

5. A Systematic Review of Sporadic Creutzfeldt-Jakob Disease: Pathogenesis, Diagnosis, and Therapeutic Attempts.

Author

Jurcau, Maria Carolina, Jurcau, Anamaria, Diaconu, Razvan Gabriel, Hogea, Vlad Octavian, and Nunkoo, Vharoon Sharma

Subjects

CREUTZFELDT-Jakob disease, PHYSICIANS, DRUG target, DISEASE progression, PRIONS

Abstract

Creutzfeldt-Jakob disease is a rare neurodegenerative and invariably fatal disease with a fulminant course once the first clinical symptoms emerge. Its incidence appears to be rising, although the increasing figures may be related to the improved diagnostic tools. Due to the highly variable clinical picture at onset, many specialty physicians should be aware of this disease and refer the patient to a neurologist for complete evaluation. The diagnostic criteria have been changed based on the considerable progress made in research on the pathogenesis and on the identification of reliable biomarkers. Moreover, accumulated knowledge on pathogenesis led to the identification of a series of possible therapeutic targets, although, given the low incidence and very rapid course, the evaluation of safety and efficacy of these therapeutic strategies is challenging. [ABSTRACT FROM AUTHOR]

Published

2024

6. PrP is cleaved from the surface of mast cells by ADAM10 and proteases released during degranulation.

Author

Willows, Steven D, Vliagoftis, Harissios, Sim, Valerie L, and Kulka, Marianna

Subjects

MAST cells, PRIONS, CELL physiology, ASTHMATICS, PROTEASE inhibitors

Abstract

While several functions of the endogenous prion protein have been studied, the homeostatic function of prion protein is still debated. Notably, prion protein is highly expressed on mast cells, granular immune cells that regulate inflammation. When activated, mast cells shed prion protein, although the mechanism and consequences of this are not yet understood. First, we tested several mast cell lines and found that, while prion protein was almost always present, the total amount differed greatly. Activation of mast cells induced a cleavage of the N-terminal region of prion protein, and this was reduced by protease inhibitors. Exogenous mast cell proteases caused a similar loss of the prion protein N-terminus. Additionally, mast cells shed prion protein in an ADAM10-dependent fashion, even in the absence of activation. Our results suggest that prion protein is cleaved from resting mast cells by ADAM10 and from activated mast cells by mast cell proteases. Prion protein also appears to affect mast cell function, as Prnp −/− bone marrow–derived mast cells showed lower levels of degranulation and cytokine release, as well as lower levels of both FcεRI and CD117. Finally, we sought to provide clinical relevance by measuring the levels of prion protein in bodily fluids of asthmatic patients, a disease that involves the activation of mast cells. We found an N-terminal fragment of prion protein could be detected in human sputum and serum, and the amount of this prion protein fragment was decreased in the serum of patients with asthma. [ABSTRACT FROM AUTHOR]

Published

2024

7. Aqueous extraction of formalin-fixed paraffin-embedded tissue and detection of prion disease using real-time quaking-induced conversion.

Author

Nicholson, Eric M., Greenlee, Justin J., and Hwang, Soyoun

Subjects

CHRONIC wasting disease, PRION diseases, ORGANIC solvents, WESTERN immunoblotting, PRIONS

Abstract

Objective: The goal of the research presented here is to determine if methods previously developed for the aqueous extraction of PrPSc from formalin-fixed paraffin-embedded tissue (FFPET) are applicable to the detection PrPSc by real-time quaking induced conversion (RT-QuIC). Previous work has utilized aqueous extraction of FFPET for detection of transmissible spongiform encephalopathies (TSEs) utilizing western blot and ELISA. This research extends the range of suitable methods for detection of TSEs in FFPET to RT-QuIC, which is arguably the most sensitive method to detect TSEs. Results: We found complete agreement between the TSE status and the results from RT-QuIC seeded with the aqueous extract of FFPET samples. The method affords the diagnostic assessment TSE status by RT-QuIC of FFPET without the use of organic solvents that would otherwise create a mixed chemical-biological waste for disposal. [ABSTRACT FROM AUTHOR]

Published

2024

8. 1-L Transcription in Prion Diseases.

Author

Nahalka, Jozef

Subjects

PRION diseases, ALZHEIMER'S disease, PARKINSON'S disease, GENETIC transcription, PRIONS

Abstract

Understanding the pathogenesis and mechanisms of prion diseases can significantly expand our knowledge in the field of neurodegenerative diseases. Prion biology is increasingly recognized as being relevant to the pathophysiology of Alzheimer's disease and Parkinson's disease, both of which affect millions of people each year. This bioinformatics study used a theoretical protein-RNA recognition code (1-L transcription) to reveal the post-transcriptional regulation of the prion protein (PrPC). The principle for this method is directly elucidated on PrPC, in which an octa-repeat can be 1-L transcribed into a GGA triplet repeat RNA aptamer known to reduce the misfolding of normal PrPC into abnormal PrPSc. The identified genes/proteins are associated with mitochondria, cancer, COVID-19 and ER-stress, and approximately half are directly or indirectly associated with prion diseases. For example, the octa-repeat supports CD44, and regions of the brain with astrocytic prion accumulation also display high levels of CD44. [ABSTRACT FROM AUTHOR]

Published

2024

9. Unfolding Mechanism and Fibril Formation Propensity of Human Prion Protein in the Presence of Molecular Crowding Agents.

Author

Madheswaran, Manoj, Ventserova, Nataliia, D'Abrosca, Gianluca, Salzano, Giulia, Celauro, Luigi, Cazzaniga, Federico Angelo, Isernia, Carla, Malgieri, Gaetano, Moda, Fabio, Russo, Luigi, Legname, Giuseppe, and Fattorusso, Roberto

Subjects

DENATURATION of proteins, PRION diseases, POST-translational modification, PRIONS, BUFFER solutions

Abstract

The pathological process of prion diseases implicates that the normal physiological cellular prion protein (PrPC) converts into misfolded abnormal scrapie prion (PrPSc) through post-translational modifications that increase β-sheet conformation. We recently demonstrated that HuPrP(90–231) thermal unfolding is partially irreversible and characterized by an intermediate state (β-PrPI), which has been revealed to be involved in the initial stages of PrPC fibrillation, with a seeding activity comparable to that of human infectious prions. In this study, we report the thermal unfolding characterization, in cell-mimicking conditions, of the truncated (HuPrP(90–231)) and full-length (HuPrP(23–231)) human prion protein by means of CD and NMR spectroscopy, revealing that HuPrP(90–231) thermal unfolding is characterized by two successive transitions, as in buffer solution. The amyloidogenic propensity of HuPrP(90–231) under crowded conditions has also been investigated. Our findings show that although the prion intermediate, structurally very similar to β-PrPI, forms at a lower temperature compared to when it is dissolved in buffer solution, in cell-mimicking conditions, the formation of prion fibrils requires a longer incubation time, outlining how molecular crowding influences both the equilibrium states of PrP and its kinetic pathways of folding and aggregation. [ABSTRACT FROM AUTHOR]

Published

2024

10. The cellular prion protein does not affect tau seeding and spreading of sarkosyl-insoluble fractions from Alzheimer's disease.

Author

Sala-Jarque, Julia, Gil, Vanessa, Andrés-Benito, Pol, Martínez-Soria, Inés, Picón-Pagès, Pol, Hernández, Félix, Ávila, Jesús, Lanciego, José Luis, Nuvolone, Mario, Aguzzi, Adriano, Gavín, Rosalina, Ferrer, Isidro, and del Río, José Antonio

Subjects

GLYCOSYLPHOSPHATIDYLINOSITOL, ALZHEIMER'S disease, TAU proteins, AMYLOID, PRIONS

Abstract

The cellular prion protein (PrPC) plays many roles in the developing and adult brain. In addition, PrPC binds to several amyloids in oligomeric and prefibrillar forms and may act as a putative receptor of abnormal misfolded protein species. The role of PrPC in tau seeding and spreading is not known. In the present study, we have inoculated well-characterized sarkosyl-insoluble fractions of sporadic Alzheimer's disease (sAD) into the brain of adult wild-type mice (Prnp+/+), Prnp0/0 (ZH3 strain) mice, and mice over-expressing the secreted form of PrPC lacking their GPI anchor (Tg44 strain). Phospho-tau (ptau) seeding and spreading involving neurons and oligodendrocytes were observed three and six months after inoculation. 3Rtau and 4Rtau deposits from the host tau, as revealed by inoculating Mapt0/0 mice and by using specific anti-mouse and anti-human tau antibodies suggest modulation of exon 10 splicing of the host mouse Mapt gene elicited by exogenous sAD-tau. However, no tau seeding and spreading differences were observed among Prnp genotypes. Our results show that PrPC does not affect tau seeding and spreading in vivo. [ABSTRACT FROM AUTHOR]

Published

2024

11. The molecular determinants of a universal prion acceptor.

Author

Arshad, Hamza, Patel, Zeel, Al-Azzawi, Zaid A. M., Amano, Genki, Li, Leyao, Mehra, Surabhi, Eid, Shehab, Schmitt-Ulms, Gerold, and Watts, Joel C.

Subjects

PRION diseases, PRIONS, CELL culture, VOLES, AMINO acids, HAMSTERS

Abstract

In prion diseases, the species barrier limits the transmission of prions from one species to another. However, cross-species prion transmission is remarkably efficient in bank voles, and this phenomenon is mediated by the bank vole prion protein (BVPrP). The molecular determinants of BVPrP's ability to function as a universal prion acceptor remain incompletely defined. Building on our finding that cultured cells expressing BVPrP can replicate both mouse and hamster prion strains, we systematically identified key residues in BVPrP that permit cross-species prion replication. We found that residues N155 and N170 of BVPrP, which are absent in mouse PrP but present in hamster PrP, are critical for cross-species prion replication. Additionally, BVPrP residues V112, I139, and M205, which are absent in hamster PrP but present in mouse PrP, are also required to enable replication of both mouse and hamster prions. Unexpectedly, we found that residues E227 and S230 near the C-terminus of BVPrP severely restrict prion accumulation following cross-species prion challenge, suggesting that they may have evolved to counteract the inherent propensity of BVPrP to misfold. PrP variants with an enhanced ability to replicate both mouse and hamster prions displayed accelerated spontaneous aggregation kinetics in vitro. These findings suggest that BVPrP's unusual properties are governed by a key set of amino acids and that the enhanced misfolding propensity of BVPrP may enable cross-species prion replication. Author summary: The peculiar behavior of bank voles during prion transmission has attracted significant research interest. Whereas the species barrier restricts the transmission of prions between different species, bank voles are thought to be a universal prion acceptor. However, the molecular determinants of this phenomenon have remained elusive. In this study, we demonstrate that five specific residues in the bank vole prion protein are critical for facilitating cross-species prion transmission. Surprisingly, we found that two residues in the bank vole prion protein may have evolved to counteract its intrinsic misfolding propensity, as they severely restrict spontaneous aggregation as well as prion accumulation following cross-species prion challenge. These results provide new insight into the molecular basis of the species barrier for prion disease. [ABSTRACT FROM AUTHOR]

Published

2024

12. Screening of Anti-Prion Compounds Using the Protein Misfolding Cyclic Amplification Technology.

Author

Pritzkow, Sandra, Schauer, Isaac, Tupaki-Sreepurna, Ananya, Morales, Rodrigo, and Soto, Claudio

Subjects

CREUTZFELDT-Jakob disease, PRION diseases, PRIONS, STRUCTURE-activity relationships, ENVIRONMENTAL sampling

Abstract

Prion diseases are 100% fatal infectious neurodegenerative diseases affecting the brains of humans and other mammals. The disease is caused by the formation and replication of prions, composed exclusively of the misfolded prion protein (PrPSc). We invented and developed the protein misfolding cyclic amplification (PMCA) technology for in vitro prion replication, which allow us to replicate the infectious agent and it is commonly used for ultra-sensitive prion detection in biological fluids, tissues and environmental samples. In this article, we studied whether PMCA can be used to screen for chemical compounds that block prion replication. A small set of compounds previously shown to have anti-prion activity in various systems, mostly using cells infected with murine prions, was evaluated for their ability to prevent the replication of prions. Studies were conducted simultaneously with prions derived from 4 species, including human, cattle, cervid and mouse. Our results show that only one of these compounds (methylene blue) was able to completely inhibit prion replication in all species. Estimation of the IC50 for methylene blue inhibition of human prions causing variant Creutzfeldt-Jakob disease (vCJD) was 7.7 μM. Finally, we showed that PMCA can be used for structure-activity relationship studies of anti-prion compounds. Interestingly, some of the less efficient prion inhibitors altered the replication of prions in some species and not others, suggesting that PMCA is useful for studying the differential selectivity of potential drugs. [ABSTRACT FROM AUTHOR]

Published

2024

13. Molecular Dynamics and Optimization Studies of Horse Prion Protein Wild Type and Its S167D Mutant.

Author

Zhang, Jiapu

Subjects

PRION diseases, WILD horses, BRAIN diseases, BRAIN degeneration, MOLECULAR dynamics, PRIONS

Abstract

Simple Summary: Prion diseases, also called transmissible spongiform encephalopathies (TSEs), are fatal neurodegenerative diseases. Prion disease has not been reported in horses up to now; therefore, horses are known to be a species resistant to prion diseases. Residue S167 in horses has been cited as a critical protective residue for encoding PrP conformational stability in prion-resistance. This article focuses on molecular dynamics and optimization studies on the horse PrP wild type and its S167D mutant, respectively, to understand their conformational dynamics and optimized conformation. Prion diseases, also called transmissible spongiform encephalopathies (TSEs), are fatal neurodegenerative diseases characterised by the accumulation of an abnormal prion protein isoform (PrPSc: rich in β-sheets—about 30% α-helix and 43% β-sheet), which is converted from the normal prion protein (PrPC: predominantly α-helical—about 42% α-helix and 3% β-sheet). However, prion disease has not been reported in horses up to now; therefore, horses are known to be a species resistant to prion diseases. Residue S167 in horses has been cited as a critical protective residue for encoding PrP conformational stability in prion-resistance. According to the "protein-only" hypothesis, PrPSc is responsible for both the spongiform degeneration of the brain and disease transmissibility. Thus, understanding the conformational dynamics of PrPSc from PrPC is key to developing effective therapies. This article focuses on molecular dynamics and optimization studies on the horse PrP wild type and its S167D mutant, respectively, to understand their conformational dynamics and optimized confirmation; the interesting results will be discussed. [ABSTRACT FROM AUTHOR]

Published

2024

14. Chronic wasting disease as a part of animal spongiform encephalopathies.

Author

Čakanić, K. Branović, Naletilić, I. Kolačko,Š., Mihaljević, Ž., Miškić, T., Šoštarić, B., and Novosel, D.

Subjects

CHRONIC wasting disease, CERVIDAE, PRIONS, ZOONOSES, ANIMAL diseases

Abstract

Copyright of Veterinarska Stanica is the property of Croatian Veterinary Institute and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2025

15. Severe neurodegeneration in brains of transgenic rats producing human tau prions.

Author

Ayers, Jacob, Lopez, T. Peter, Steele, Ian T., Oehler, Abby, Roman-Albarran, Rigo, Cleveland, Elisa, Chong, Alex, Carlson, George A., Condello, Carlo, and Prusiner, Stanley B.

Subjects

LABORATORY rats, TAU proteins, ALZHEIMER'S disease, LIMBIC system, TAUOPATHIES

Abstract

Both wild-type and mutant tau proteins can misfold into prions and self-propagate in the central nervous system of animals and people. To extend the work of others, we investigated the molecular basis of tau prion–mediated neurodegeneration in transgenic (Tg) rats expressing mutant human tau (P301S); this line of Tg rats is denoted Tg12099. We used the rat Prnp promoter to drive the overexpression of mutant tau (P301S) in the human 0N4R isoform. In Tg12099(+/+) rats homozygous for the transgene, ubiquitous expression of mutant human tau resulted in the progressive accumulation of phosphorylated tau inclusions, including silver-positive tangles in the frontal cortices and limbic system. Signs of central nervous system dysfunction were found in terminal Tg12099(+/+) rats exhibiting severe neurodegeneration and profound atrophy of the amygdala and piriform cortex. The greatest increases in tau prion activity were found in the corticolimbic structures. In contrast to the homozygous Tg12099(+/+) rats, we found lower levels of mutant tau in the hemizygous rats, resulting in few neuropathologic changes up to 2 years of age. Notably, these hemizygous rats could be infected by intracerebral inoculation with recombinant tau fibrils or precipitated tau prions from the brain homogenates of sick, aged homozygous Tg12099(+/+) rats. Our studies argue that the regional propagation of tau prions and neurodegeneration in the Tg12099 rats resembles that found in human primary tauopathies. These findings seem likely to advance our understanding of human tauopathies and may lead to effective therapeutics for Alzheimer's disease and other tau prion disorders. [ABSTRACT FROM AUTHOR]

Published

2024

16. "Prion-like" seeding and propagation of oligomeric protein assemblies in neurodegenerative disorders.

Author

Zampar, Silvia, Di Gregorio, Sonja E., Grimmer, Gustavo, Watts, Joel C., and Ingelsson, Martin

Subjects

NEURODEGENERATION, NERVOUS system, OLIGOMERS, PRIONS, TAU proteins

Abstract

Intra- or extracellular aggregates of proteins are central pathogenic features in most neurodegenerative disorders. The accumulation of such proteins in diseased brains is believed to be the end-stage of a stepwise aggregation of misfolded monomers to insoluble cross-ß fibrils via a series of differently sized soluble oligomers/protofibrils. Several studies have shown how a-synuclein, amyloid-ß, tau and other amyloidogenic proteins can act as nucleating particles and thereby share properties with misfolded forms, or strains, of the prion protein. Although the roles of different protein assemblies in the respective aggregation cascades remain unclear, oligomers/protofibrils are considered key pathogenic species. Numerous observations have demonstrated their neurotoxic effects and a growing number of studies have indicated that they also possess seeding properties, enabling their propagation within cellular networks in the nervous system. The seeding behavior of oligomers differs between the proteins and is also affected by various factors, such as size, shape and epitope presentation. Here, we are providing an overview of the current state of knowledge with respect to the "prion-like" behavior of soluble oligomers for several of the amyloidogenic proteins involved in neurodegenerative diseases. In addition to providing new insight into pathogenic mechanisms, research in this field is leading to novel diagnostic and therapeutic opportunities for neurodegenerative diseases. [ABSTRACT FROM AUTHOR]

Published

2024

17. Propagation of distinct CWD prion strains during peripheral and intracerebral challenges of gene-targeted mice.

Author

DeFranco, Joseph P., Jifeng Bian, Sehun Kim, Crowell, Jenna, Barrio, Tomás, Webster, Bailey K., Atkinson, Zoe N., and Telling, Glenn C.

Subjects

CHRONIC wasting disease, CENTRAL nervous system infections, PRION diseases, PRIONS, ELK

Abstract

Since prion diseases result from infection and neurodegeneration of the central nervous system (CNS), experimental characterizations of prion strain properties customarily rely on the outcomes of intracerebral challenges. However, natural transmission of certain prions, including those causing chronic wasting disease (CWD) in elk and deer, depends on propagation in peripheral host compartments prior to CNS infection. Using gene-targeted GtE and GtQ mice, which accurately control cellular elk or deer PrP expression, we assessed the impact that peripheral or intracerebral exposures play on CWD prion strain propagation and resulting CNS abnormalities. Whereas oral and intraperitoneal transmissions produced identical neuropathological outcomes in GtE and GtQ mice and preserved the naturally convergent conformations of elk and deer CWD prions, intracerebral transmissions generated CNS prion strains with divergent biochemical properties in GtE and GtQ mice that were changed compared to their native counterparts. While CWD replication kinetics remained constant during iterative peripheral transmissions and brain titers reflected those found in native hosts, serial intracerebral transmissions produced 10-fold higher prion titers and accelerated incubation times. Our demonstration that peripherally and intracerebrally challenged Gt mice develop dissimilar CNS diseases which result from the propagation of distinct CWD prion strains points to the involvement of tissue-specific cofactors during strain selection in different host compartments. Since peripheral transmissions preserved the natural features of elk and deer prions, whereas intracerebral propagation produced divergent strains, our findings illustrate the importance of experimental characterizations using hosts that not only abrogate species barriers but also accurately recapitulate natural transmission routes of native strains. [ABSTRACT FROM AUTHOR]

Published

2024

18. Tau, RNA, and RNA-Binding Proteins: Complex Interactions in Health and Neurodegenerative Diseases.

Author

Lester, Evan and Parker, Roy

Subjects

RNA-binding proteins, NEURODEGENERATION, PROTEIN-protein interactions, TAU proteins, RNA regulation, RNA, PRIONS

Abstract

The tau protein is a key contributor to multiple neurodegenerative diseases. The pathology of tau is thought to be related to tau's propensity to form self-templating fibrillar structures that allow tau fibers to propagate in the brain by prion-like mechanisms. Unresolved issues with respect to tau pathology are how the normal function of tau and its misregulation contribute to disease, how cofactors and cellular organelles influence the initiation and propagation of tau fibers, and determining the mechanism of tau toxicity. Herein, we review the connection between tau and degenerative diseases, the basis for tau fibrilization, and how that process interacts with cellular molecules and organelles. One emerging theme is that tau interacts with RNA and RNA-binding proteins, normally and in pathologic aggregates, which may provide insight into alterations in RNA regulation observed in disease. [ABSTRACT FROM AUTHOR]

Published

2024

19. Characterisation of European Field Goat Prion Isolates in Ovine PrP Overexpressing Transgenic Mice (Tgshp IX) Reveals Distinct Prion Strains.

Author

Ernst, Sonja, Nonno, Romolo, Langeveld, Jan, Andreoletti, Olivier, Acin, Cristina, Papasavva-Stylianou, Penelope, Sklaviadis, Theodoros, Acutis, Pier Luigi, van Keulen, Lucien, Spiropoulos, John, Keller, Markus, Groschup, Martin H., and Fast, Christine

Subjects

BOVINE spongiform encephalopathy, CHRONIC wasting disease, PRIONS, SCRAPIE, CLEARCUTTING

Abstract

After the detection of bovine spongiform encephalopathy (BSE), and a zoonotic transmissible spongiform encephalopathy (TSE) caused by the pathological prion protein (PrPSc) in two goats, the investigation of goat prions became of greater interest. Therefore, a broad collection of European goat TSE isolates, including atypical scrapie, CH1641 and goat BSE as reference prion strains were biochemically characterised and subsequently inoculated into seven rodent models for further analysis (already published results of this comprehensive study are reviewed here for comparative reasons). We report here the histopathological and immunohistochemical data of this goat TSE panel, obtained after the first passage in Tgshp IX (tg-shARQ) mice, which overexpress the ovine prion protein. In addition to the clear-cut discrimination of all reference prion strains from the classical scrapie (CS) isolates, we were further able to determine three categories of CS strains. The investigation further indicates the occurrence of sub-strains that slightly resemble distant TSE strains, such as BSE or CH1641, reinforcing the theory that CS is not a single strain but a mixture of sub-strains, existing at varying extents in one isolate. This study further proved that Tgshp IX is a potent and reliable tool for the in-depth characterisation of prion strains. [ABSTRACT FROM AUTHOR]

Published

2024

20. "Ourselves Writ savage": Disease, Desire, and Colonialism in Kuru Country.

Author

Watson, Kelly L.

Subjects

IMPERIALISM, PRIONS, UPLANDS, DESIRE

Abstract

Copyright of Terrae Incognitae is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

21. Transmission of Norwegian reindeer CWD to sheep by intracerebral inoculation results in an unusual phenotype and prion distribution.

Author

Harpaz, Erez, Cazzaniga, Federico Angelo, Tran, Linh, Vuong, Tram T., Bufano, Giuseppe, Salvesen, Øyvind, Gravdal, Maiken, Aldaz, Devin, Sun, Julianna, Kim, Sehun, Celauro, Luigi, Legname, Giuseppe, Telling, Glenn C., Tranulis, Michael A., Benestad, Sylvie L., Espenes, Arild, Moda, Fabio, and Ersdal, Cecilie

Subjects

CHRONIC wasting disease, RED deer, PRION diseases, ENZYME-linked immunosorbent assay, CENTRAL nervous system

Abstract

Chronic wasting disease (CWD), a prion disease affecting cervids, has been known in North America (NA) since the 1960s and emerged in Norway in 2016. Surveillance and studies have revealed that there are different forms of CWD in Fennoscandia: contagious CWD in Norwegian reindeer and sporadic CWD in moose and red deer. Experimental studies have demonstrated that NA CWD prions can infect various species, but thus far, there have been no reports of natural transmission to non-cervid species. In vitro and laboratory animal studies of the Norwegian CWD strains suggest that these strains are different from the NA strains. In this work, we describe the intracerebral transmission of reindeer CWD to six scrapie-susceptible sheep. Detection methods included immunohistochemistry (IHC), western blot (WB), enzyme-linked immunosorbent assay (ELISA), real-time quaking-induced conversion (RT-QuIC) and protein misfolding cyclic amplification (PMCA). In the brain, grey matter vacuolation was limited, while all sheep exhibited vacuolation of the white matter. IHC and WB conventional detection techniques failed to detect prions; however, positive seeding activity with the RT-QuIC and PMCA amplification techniques was observed in the central nervous system of all but one sheep. Prions were robustly amplified in the lymph nodes of all animals, mainly by RT-QuIC. Additionally, two lymph nodes were positive by WB, and one was positive by ELISA. These findings suggest that sheep can propagate reindeer CWD prions after intracerebral inoculation, resulting in an unusual disease phenotype and prion distribution with a low amount of detectable prions. [ABSTRACT FROM AUTHOR]

Published

2024

22. Modulating the aggregation of human prion protein PrP106–126 by an indole-based cyclometallated palladium complex.

Author

Chauhan, Rahul, Navale, Govinda R., Saini, Saakshi, Panwar, Abhishek, Kukreti, Prashant, Saini, Rajat, Roy, Partha, and Ghosh, Kaushik

Subjects

PRIONS, BOVINE spongiform encephalopathy, MOLECULAR structure, PEPTIDES, CREUTZFELDT-Jakob disease, INDOLE

Abstract

The spontaneous aggregation of infectious or misfolded forms of prion protein is known to be responsible for neurotoxicity in brain cells, which ultimately leads to the progression of prion disorders. Bovine spongiform encephalopathy (BSE) in animals and Creutzfeldt–Jakob disease (CJD) in humans are glaring examples in this regard. Square-planar complexes with labile ligands and indole-based compounds are found to be efficiently inhibitory against protein aggregation. Herein, we report the synthesis of an indole-based cyclometallated palladium complex. The ligand and complex were characterized by various spectroscopic techniques such as UV-visible, NMR, IR, and HRMS. The molecular structure of the complex was confirmed by single-crystal X-ray crystallography. The interaction of the complex with PrP106–126 was studied using UV-visible spectroscopy, CD spectroscopy, MALDI-TOF MS, and molecular docking. The inhibition effects of the complex on the PrP106–126 aggregation, fibrillization and amyloid formation phenomena were analysed through the ThT assay, CD, TEM and AFM. The effect of the complex on the aggregation process of PrP106–126 was determined kinetically through the ThT assay. The complex presented high binding affinity with the peptide and influenced the peptide's conformation and aggregation in different modes of binding. Furthermore, the MTT assay on neuronal HT-22 cells showed considerable protective properties of the complex against PrP106–126-mediated cytotoxicity. These findings suggest that the compound influences peptide aggregation in different ways, and the anti-aggregation action is primarily associated with the metal's physicochemical properties and the reactivity rather than the ligand. As a result, we propose that this compound be investigated as a potential therapeutic molecule in metallopharmaceutical research to treat prion disease (PD). [ABSTRACT FROM AUTHOR]

Published

2024

23. Prion protein E219K polymorphism: from the discovery of the KANNO blood group to interventions for human prion disease.

Author

Si-Si Wang, Zhao-Li Meng, Yi-Wen Zhang, Yi-Shuang Yan, and Ling-Bo Li

Subjects

PRION diseases, BLOOD groups, GENETIC polymorphisms, PRIONS, PAROXYSMAL hemoglobinuria

Abstract

KANNO is a new human blood group that was recently discovered. The KANNO antigen shares the PRNP gene with the prion protein and the prion protein E219K polymorphism determines the presence or absence of the KANNO antigen and the development of anti-KANNO alloantibodies. These alloantibodies specifically react with prion proteins, which serve as substrates for conversion into pathological isoforms in some prion diseases and may serve as effective targets for resisting prion infection. These findings establish a potential link between the KANNO blood group and human prion disease via the prion protein E219K polymorphism. We reviewed the interesting correlation between the human PRNP gene's E219K polymorphism and the prion proteins it expresses, as well as human red blood cell antigens. Based on the immune serological principles of human blood cells, the prion protein E219K polymorphism may serve as a foundation for earlier molecular diagnosis and future drug development for prion diseases. [ABSTRACT FROM AUTHOR]

Published

2024

24. Assessment of the Zoonotic Potential of Atypical Scrapie Prions in Humanized Mice Reveals Rare Phenotypic Convergence but Not Identity With Sporadic Creutzfeldt-Jakob Disease Prions.

Author

Marín-Moreno, Alba, Reine, Fabienne, Herzog, Laetitia, Aron, Naima, Jaffrézic, Florence, Vilotte, Jean-Luc, Rezaei, Human, Andréoletti, Olivier, Martin, Davy, and Béringue, Vincent

Subjects

BOVINE spongiform encephalopathy, CREUTZFELDT-Jakob disease, PRION diseases, SHEEP diseases, PRIONS, PESTE des petits ruminants

Abstract

Background Atypical/Nor98 scrapie (AS) is an idiopathic infectious prion disease affecting sheep and goats. Recent findings suggest that zoonotic prions from classical bovine spongiform encephalopathy (C-BSE) may copropagate with atypical/Nor98 prions in AS sheep brains. Investigating the risk AS poses to humans is crucial. Methods To assess the risk of sheep/goat-to-human transmission of AS, we serially inoculated brain tissue from field and laboratory isolates into transgenic mice overexpressing human prion protein (Met129 allele). We studied clinical outcomes as well as presence of prions in brains and spleens. Results No transmission occurred on the primary passage, with no clinical disease or pathological prion protein in brains and spleens. On subsequent passages, 1 isolate gradually adapted, manifesting as prions with a phenotype resembling those causing MM1-type sporadic Creutzfeldt-Jakob disease in humans. However, further characterization using in vivo and in vitro techniques confirmed both prion agents as different strains, revealing a case of phenotypic convergence. Importantly, no C-BSE prions emerged in these mice, especially in the spleen, which is more permissive than the brain for C-BSE cross-species transmission. Conclusions The results obtained suggest a low zoonotic potential for AS. Rare adaptation may allow the emergence of prions phenotypically resembling those spontaneously forming in humans. [ABSTRACT FROM AUTHOR]

Published

2024

25. CWD as a New Health Threat in Europe and the Adequacy and Effectiveness of Instruments of Legal Response from a Comparative Legal Perspective.

Author

Mierkiewicz, Michał, Dzikowski, Andrzej, and Anusz, Krzysztof

Subjects

CHRONIC wasting disease, PRION diseases, NEURODEGENERATION, ANIMAL health, PRIONS

Abstract

Simple Summary: Unsatisfactory, erroneous, inadequate, or inapplicable laws can lead to negative effects on human and animal health. Such can be the case with the uncontrolled and legally unregulated spread of chronic wasting disease (CWD) with possible zoonotic potential. This disease is spreading in cervids across Europe and other continents. In the context of historical experience with prion diseases, and taking into consideration the "one health" approach, CWD poses a serious challenge. The CWD problem should be properly managed in the European Union before the scale of the disease increases to resemble the situation in North America. The legal comparative analysis conducted in this study indicates that the experience gained by countries that have been struggling with the disease for years should be taken into account when drawing up community legislation. Prions cause infectious and fatal neurodegenerative diseases in mammals. Chronic wasting disease (CWD) affects wild and farmed cervids. The increasing number of cases in Europe, the resistance of prions to external conditions, and the persistence period threaten not only wild cervid populations but also the economy. The possible zoonotic potential of CWD is of growing concern. CWD is a relevant issue as far as the idea of "one health" is concerned, which is a fundamental principle of European veterinary law. Methods of legal text analysis and interpretation are used for this comparative legal study. Research reveals that countries struggling to tackle CWD employ different normative approaches to the problem and use different control and eradication schemes. The results of this study indicate that it is reasonable to issue uniform regulations in the European Union at the common, rather than national, level. The European legislation should creatively draw on the experience of North American countries that have been struggling with the discussed disease for a long time. [ABSTRACT FROM AUTHOR]

Published

2024

26. Extraneural infection route restricts prion conformational variability and attenuates the impact of quaternary structure on infectivity.

Author

Chang, Sheng Chun, Arifin, Maria Immaculata, Tahir, Waqas, McDonald, Keegan John, Zeng, Doris, Schatzl, Hermann M., Hannaoui, Samia, and Gilch, Sabine

Subjects

QUATERNARY structure, CHRONIC wasting disease, PRIONS, PRION diseases, WHITE-tailed deer, NEURAL transmission

Abstract

Prions can exist as different strains that consist of conformational variants of the misfolded, pathogenic prion protein isoform PrPSc. Defined by stably transmissible biological and biochemical properties, strains have been identified in a spectrum of prion diseases, including chronic wasting disease (CWD) of wild and farmed cervids. CWD is highly contagious and spreads via direct and indirect transmission involving extraneural sites of infection, peripheral replication and neuroinvasion of prions. Here, we investigated the impact of infection route on CWD prion conformational selection and propagation. We used gene-targeted mouse models expressing deer PrP for intracerebral or intraperitoneal inoculation with fractionated or unfractionated brain homogenates from white-tailed deer, harboring CWD strains Wisc-1 or 116AG. Upon intracerebral inoculation, Wisc-1 and 116AG-inoculated mice differed in conformational stability of PrPSc. In brains of mice infected intraperitoneally with either inoculum, PrPSc propagated with identical conformational stability and fewer PrPSc deposits in most brain regions than intracerebrally inoculated animals. For either inoculum, PrPSc conformational stability in brain and spinal cord was similar upon intracerebral infection but significantly higher in spinal cords of intraperitoneally infected animals. Inoculation with fractionated brain homogenates resulted in lower variance of survival times upon intraperitoneal compared to intracerebral infection. In summary, we demonstrate that extraneural infection mitigates the impact of PrPSc quaternary structure on infection and reduces conformational variability of PrPSc propagated in the brain. These findings provide new insights into the evolution of stable CWD strains in natural, extraneural transmissions. Author summary: Chronic wasting disease (CWD) is a prion disease spreading among wild and farmed cervids. Several strains of CWD prions have been identified that propagate stably upon intracerebral passage in experimental models. Understanding the emergence and adaptation of prion strains is critical for risk assessment of CWD cross-species transmission. We capitalize on our new gene-targeted mouse models of CWD that recapitulate key features of CWD pathogenesis in cervids. We infected these mice with whole of fractionated brain homogenates of deer containing previously characterized, distinct CWD strains by inoculation either into the brain or intraperitoneally. We found that the biochemical properties and pathological hallmarks of prions generated in central nervous system tissues of those mice differed, depending on route of inoculation. Furthermore, mouse survival times upon inoculation with fractionated brain homogenates were less variable upon intraperitoneal compared to intracerebral inoculation. Our findings shed new light on the impact of extraneural infection routes that mirror natural transmission and unravel peripheral infection as a selective barrier that restricts the conformational diversity of prions in the brain. [ABSTRACT FROM AUTHOR]

Published

2024

27. Cleavage site-directed antibodies reveal the prion protein in humans is shed by ADAM10 at Y226 and associates with misfolded protein deposits in neurodegenerative diseases.

Author

Song, Feizhi, Kovac, Valerija, Mohammadi, Behnam, Littau, Jessica L., Scharfenberg, Franka, Matamoros Angles, Andreu, Vanni, Ilaria, Shafiq, Mohsin, Orge, Leonor, Galliciotti, Giovanna, Djakkani, Salma, Linsenmeier, Luise, Černilec, Maja, Hartman, Katrina, Jung, Sebastian, Tatzelt, Jörg, Neumann, Julia E., Damme, Markus, Tschirner, Sarah K., and Lichtenthaler, Stefan F.

Subjects

PRIONS, NEURODEGENERATION, NEURAL stem cells, PRION diseases, ALZHEIMER'S patients, PROTEOLYTIC enzymes, HUMAN body

Abstract

Proteolytic cell surface release ('shedding') of the prion protein (PrP), a broadly expressed GPI-anchored glycoprotein, by the metalloprotease ADAM10 impacts on neurodegenerative and other diseases in animal and in vitro models. Recent studies employing the latter also suggest shed PrP (sPrP) to be a ligand in intercellular communication and critically involved in PrP-associated physiological tasks. Although expectedly an evolutionary conserved event, and while soluble forms of PrP are present in human tissues and body fluids, for the human body neither proteolytic PrP shedding and its cleavage site nor involvement of ADAM10 or the biological relevance of this process have been demonstrated thus far. In this study, cleavage site prediction and generation (plus detailed characterization) of sPrP-specific antibodies enabled us to identify PrP cleaved at tyrosin 226 as the physiological and apparently strictly ADAM10-dependent shed form in humans. Using cell lines, neural stem cells and brain organoids, we show that shedding of human PrP can be stimulated by PrP-binding ligands without targeting the protease, which may open novel therapeutic perspectives. Site-specific antibodies directed against human sPrP also detect the shed form in brains of cattle, sheep and deer, hence in all most relevant species naturally affected by fatal and transmissible prion diseases. In human and animal prion diseases, but also in patients with Alzheimer's disease, sPrP relocalizes from a physiological diffuse tissue pattern to intimately associate with extracellular aggregated deposits of misfolded proteins characteristic for the respective pathological condition. Findings and research tools presented here will accelerate novel insight into the roles of PrP shedding (as a process) and sPrP (as a released factor) in neurodegeneration and beyond. [ABSTRACT FROM AUTHOR]

Published

2024

28. Norwegian moose CWD induces clinical disease and neuroinvasion in gene-targeted mice expressing cervid S138N prion protein.

Author

Arifin, Maria Immaculata, Hannaoui, Samia, Ng, Raychal Ashlyn, Zeng, Doris, Zemlyankina, Irina, Ahmed-Hassan, Hanaa, Schatzl, Hermann M., Kaczmarczyk, Lech, Jackson, Walker S., Benestad, Sylvie L., and Gilch, Sabine

Subjects

MICE, MOOSE, CHRONIC wasting disease, PRIONS, RED deer, LYMPHOID tissue, PRION diseases

Abstract

Chronic wasting disease (CWD) is a prion disease affecting deer, elk and moose in North America and reindeer, moose and red deer in Northern Europe. Pathogenesis is driven by the accumulation of PrPSc, a pathological form of the host's cellular prion protein (PrPC), in the brain. CWD is contagious among North American cervids and Norwegian reindeer, with prions commonly found in lymphatic tissue. In Nordic moose and red deer CWD appears exclusively in older animals, and prions are confined to the CNS and undetectable in lymphatic tissues, indicating a sporadic origin. We aimed to determine transmissibility, neuroinvasion and lymphotropism of Nordic CWD isolates using gene-targeted mice expressing either wild-type (138SS/226QQ) or S138N (138NN/226QQ) deer PrP. When challenged with North American CWD strains, mice expressing S138N PrP did not develop clinical disease but harbored prion seeding activity in brain and spleen. Here, we infected these models intracerebrally or intraperitoneally with Norwegian moose, red deer and reindeer CWD isolates. The moose isolate was the first CWD type to cause full-blown disease in the 138NN/226QQ model in the first passage, with 100% attack rate and shortened survival times upon second passage. Furthermore, we detected prion seeding activity or PrPSc in brains and spinal cords, but not spleens, of 138NN/226QQ mice inoculated intraperitoneally with the moose isolate, providing evidence of prion neuroinvasion. We also demonstrate, for the first time, that transmissibility of the red deer CWD isolate was restricted to transgenic mice overexpressing elk PrPC (138SS/226EE), identical to the PrP primary structure of the inoculum. Our findings highlight that susceptibility to clinical disease is determined by the conformational compatibility between prion inoculum and host PrP primary structure. Our study indicates that neuroinvasion of Norwegian moose prions can occur without, or only very limited, replication in the spleen, an unprecedented finding for CWD. Author summary: Chronic wasting disease (CWD) is a prion disease of cervids that is expanding its global footprint. The pathogenesis of prion disease is driven by the accumulation of PrPSc, a misfolded isoform of the cellular prion protein (PrPC). CWD prion strains from North America are lymphotropic, while Norwegian moose and red deer prions are not, and therefore considered non-contagious, sporadic CWD forms. We studied the propagation of Norwegian CWD prions in gene-targeted mice carrying cervid PrPC variants. We reveal that the Norwegian moose isolate induces clinical disease in mice expressing a PrPC variant previously shown to only display subclinical infection upon challenge with North American CWD. We report the first instance of red deer CWD transmission exclusively to mice overexpressing elk PrPC. Notably, our findings suggest a neuroinvasion route for Norwegian moose CWD prions that potentially bypasses spleen replication, underscoring the complexity of prion disease transmission, and the need for continued research into the behavior of prions across different species and protein variants. [ABSTRACT FROM AUTHOR]

Published

2024

29. A multigroup approach to delayed prion production.

Author

Adimy, Mostafa, Chekroun, Abdennasser, Pujo-Menjouet, Laurent, and Sensi, Mattia

Subjects

DELAY differential equations, BASIC reproduction number, PRIONS, ORDINARY differential equations, PRION diseases

Abstract

We generalize the model proposed in [Adimy, Babin, Pujo-Menjouet, SIAM Journal on Applied Dynamical Systems (2022)] for prion infection to a network of neurons. We do so by applying a so-called multigroup approach to the system of Delay Differential Equations (DDEs) proposed in the aforementioned paper. We derive the classical threshold quantity $ \mathcal{R}_0 $, i.e. the basic reproduction number, exploiting the fact that the DDEs of our model qualitatively behave like Ordinary Differential Equations (ODEs) when evaluated at the Disease Free Equilibrium. We prove analytically that the disease naturally goes extinct when $ \mathcal{R}_0<1 $, whereas it persists when $ \mathcal{R}_0>1 $. We conclude with some selected numerical simulations of the system, to illustrate our analytical results. [ABSTRACT FROM AUTHOR]

Published

2024

30. Characterization of the 263K‐derived microsomal fraction: a source of prions for nanofiltration validation studies.

Author

Simoneau, Steve, Igel, Angélique, Ciric, Danica, Moudjou, Mohammed, Tcherniuk, Sergey, Béringue, Vincent, Rezaei, Human, and Flan, Benoit

Subjects

PRIONS, NANOFILTRATION, PLASMA products, MANUFACTURING processes, PLASMA materials processing

Abstract

Background: The manufacturing processes of plasma products include steps that can remove prions. The efficacy of these steps is measured in validation studies using animal brain‐derived prion materials called spikes. Because the nature of the prion agent in blood is not known, the relevance of these spikes, particularly with steps that are based on retention mechanisms such as nanofiltration, is important to investigate. Study Design and Methods: The aggregation and sizes of PrPres assemblies of microsomal fractions (MFs) extracted from 263K‐infected hamster brains were analyzed using velocity gradients. The separated gradient fractions were either inoculated to Tg7 mice expressing hamster‐PrPc to measure infectivity or used in Protein Misfolding Cyclic Amplification for measuring seeding activity. The collected data allowed for reanalyzing results from previous nanofiltration validation studies. Results: A significant portion of MFs was found to be composed of small PrPres assemblies, estimated to have a size ≤24 mers (~22–528 kDa), and to contain a minimum of 20% of total prion infectivity. With this data we could calculate reductions of 4.10 log (15 N), 2.53 log (35 N), and 1.77 log (35 N) from validation studies specifically for these small PrPres objects. Conclusion: Our gradient data provided evidence that nanofilters can remove the majority of the smallest PrPres entities within microsomes spikes, estimated to be in a size below 24 mers, giving insight about the fact that, in our conditions, size exclusion may not be the only mechanism for retention nanofiltration. [ABSTRACT FROM AUTHOR]

Published

2024

31. Longitudinal microbiome investigation throughout prion disease course reveals pre- and symptomatic compositional perturbations linked to short-chain fatty acid metabolism and cognitive impairment in mice.

Author

Losa, Marco, Morsy, Yasser, Emmenegger, Marc, Manz, Salomon M., Schwarz, Petra, Aguzzi, Adriano, and Scharl, Michael

Subjects

PRION diseases, SHORT-chain fatty acids, DISEASE progression, COGNITION disorders, MICROBIAL metabolites, PRIONS, GUT microbiome, CALPROTECTIN

Abstract

Commensal intestinal bacteria shape our microbiome and have decisive roles in preserving host metabolic and immune homeostasis. They conspicuously impact disease development and progression, including amyloid-beta (Aβ) and alpha (α)-synuclein pathology in neurodegenerative diseases, conveying the importance of the brain–gut–microbiome axis in such conditions. However, little is known about the longitudinal microbiome landscape and its potential clinical implications in other protein misfolding disorders, such as prion disease. We investigated the microbiome architecture throughout prion disease course in mice. Fecal specimens were assessed by 16S ribosomal RNA sequencing. We report a temporal microbiome signature in prion disease and uncovered alterations in Lachnospiraceae, Ruminococcaceae, Desulfovibrionaceae, and Muribaculaceae family members in this disease. Moreover, we determined the enrichment of Bilophila, a microorganism connected to cognitive impairment, long before the clinical manifestation of disease symptoms. Based on temporal microbial abundances, several associated metabolic pathways and resulting metabolites, including short-chain fatty acids, were linked to the disease. We propose that neuroinflammatory processes relate to perturbations of the intestinal microbiome and metabolic state by an interorgan brain–gut crosstalk. Furthermore, we describe biomarkers possibly suitable for early disease diagnostics and anti-prion therapy monitoring. While our study is confined to prion disease, our discoveries might be of equivalent relevance in other proteinopathies and central nervous system pathologies. [ABSTRACT FROM AUTHOR]

Published

2024

32. Regulatory mechanism and expression level of PRPS2 in lung cancer.

Author

Meng, Ying, Zhang, Hua, Xu, Mingling, Chen, Zhenzhen, and Wei, Lei

Subjects

FLOW cytometry, PRIONS, COLONY-forming units assay, CELL proliferation, APOPTOSIS, TUMOR markers, CELL motility, REVERSE transcriptase polymerase chain reaction, XENOGRAFTS, IN vivo studies, GENE expression, IMMUNOHISTOCHEMISTRY, DISEASES, CELL lines, MICE, LUNG tumors, WESTERN immunoblotting, QUALITY of life, ANIMAL experimentation, CARCINOGENESIS, DISEASE progression

Abstract

Background: Lung cancer, with high morbidity and mortality, is the commonest respiratory system neoplasm, which seriously endangers the life safety of patients. In this study, the effect of PRPS2 on cell progression was preliminarily investigated. Methods: Immunohistochemical staining, western blot and reverse transcription‐quantitative polymerase chain reaction (RT‐qPCR) were performed to verify the expression level of PRPS2 in lung cancer. Lung cancer cell lines with stable downregulation of PRPS2 were constructed in A549 cells and NCIH460 cells. The function of PRPS2 silencing on the proliferation ability was verified by the EdU and cell colony formation experiment. Scratch and transwell tests were conducted to verify the role of PRPS2 silencing on the migratory and invasive ability of cells. The impact of PRPS2 silencing on cell apoptosis and cell cycle was verified by flow cytometry test. The effects of PRPS2 silencing on apoptosis‐associated proteins were assessed by western blot assay. The function of PRPS2 silencing on tumor growth in vivo was studied through xenograft tumor experiment. Results: In comparison with normal tissues, PRPS2 was upregulated in lung cancer tissues. PRPS2 knockdown notably hindered the migratory ability, invasive ability and proliferation, but accelerated cell apoptosis. In vivo experiments confirmed that PRPS2 silencing blocked the growth of transplanted tumors. Conclusion: In lung cancer, PRPS2 silencing suppressed the malignant progression, indicating that PRPS2 might be a novel biomarker for lung cancer treatment and diagnosis. [ABSTRACT FROM AUTHOR]

Published

2024

33. First Report of Single Nucleotide Polymorphisms (SNPs) of the Leporine Shadow of Prion Protein Gene (SPRN) and Absence of Nonsynonymous SNPs in the Open Reading Frame (ORF) in Rabbits.

Author

Memon, Sameeullah, Wang, Zerui, Zou, Wen-Quan, Kim, Yong-Chan, and Jeong, Byung-Hoon

Subjects

SINGLE nucleotide polymorphisms, PRION diseases, RABBIT diseases, PRIONS, RABBITS, AMINO acid sequence, GENETIC polymorphisms

Abstract

Simple Summary: The study focuses on the shadow of prion protein (Sho) encoded by the shadow of prion protein gene (SPRN), which associates with PrP and promotes the progression of prion diseases. While genetic polymorphisms in SPRN are linked to susceptibility in several species, rabbit SPRN gene polymorphisms have not been extensively studied. Through amplicon sequencing, we identified novel single nucleotide polymorphisms (SNPs) in the rabbit SPRN gene and found strong linkage disequilibrium (LD) between them. However, strong LD was not observed between polymorphisms in the prion protein gene (PRNP) and SPRN genes in rabbits. Comparison of amino acid sequences revealed differences in SPRN between rabbits and other species susceptible or resistant to prion diseases. This study represents the first examination of genetic features of the rabbit SPRN gene. Prion disorders are fatal infectious diseases that are caused by a buildup of pathogenic prion protein (PrPSc) in susceptible mammals. According to new findings, the shadow of prion protein (Sho) encoded by the shadow of prion protein gene (SPRN) is associated with prion protein (PrP), promoting the progression of prion diseases. Although genetic polymorphisms in SPRN are associated with susceptibility to several prion diseases, genetic polymorphisms in the rabbit SPRN gene have not been investigated in depth. We discovered two novel single nucleotide polymorphisms (SNPs) in the leporine SPRN gene on chromosome 18 and found strong linkage disequilibrium (LD) between them. Additionally, strong LD was not found between the polymorphisms of PRNP and SPRN genes in rabbits. Furthermore, nonsynonymous SNPs that alter the amino acid sequences within the open reading frame (ORF) of SPRN have been observed in prion disease-susceptible animals, but this is the first report in rabbits. As far as we are aware, this study represents the first examination of the genetic features of the rabbit SPRN gene. [ABSTRACT FROM AUTHOR]

Published

2024

34. Cell adhesion molecule CD44 is dispensable for reactive astrocyte activation during prion disease.

Author

Bradford, Barry M., Walmsley-Rowe, Lauryn, Reynolds, Joe, Verity, Nicholas, and Mabbott, Neil A.

Subjects

PRION diseases, CD44 antigen, SCRAPIE, PRIONS, CELL adhesion, CELL adhesion molecules, DENDRITIC spines, PATHOLOGICAL physiology, NEUROPLASTICITY

Abstract

Prion diseases are fatal, infectious, neurodegenerative disorders resulting from accumulation of misfolded cellular prion protein in the brain. Early pathological changes during CNS prion disease also include reactive astrocyte activation with increased CD44 expression, microgliosis, as well as loss of dendritic spines and synapses. CD44 is a multifunctional cell surface adhesion and signalling molecule which is considered to play roles in astrocyte morphology and the maintenance of dendritic spine integrity and synaptic plasticity. However, the role of CD44 in prion disease was unknown. Here we used mice deficient in CD44 to determine the role of CD44 during prion disease. We show that CD44-deficient mice displayed no difference in their response to CNS prion infection when compared to wild type mice. Furthermore, the reactive astrocyte activation and microgliosis that accompanies CNS prion infection was unimpaired in the absence of CD44. Together, our data show that although CD44 expression is upregulated in reactive astrocytes during CNS prion disease, it is dispensable for astrocyte and microglial activation and the development of prion neuropathogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

35. Early Inhibition of Phosphodiesterase 4B (PDE4B) Instills Cognitive Resilience in APPswe/PS1dE9 Mice.

Author

Rombaut, Ben, Schepers, Melissa, Tiane, Assia, Mussen, Femke, Koole, Lisa, Kessels, Sofie, Trippaers, Chloë, Jacobs, Ruben, Wouters, Kristiaan, Willems, Emily, Veggel, Lieve van, Koulousakis, Philippos, Deluyker, Dorien, Bito, Virginie, Prickaerts, Jos, Wens, Inez, Brône, Bert, van den Hove, Daniel L. A., and Vanmierlo, Tim

Subjects

CYCLIC adenylic acid, ALZHEIMER'S disease, CYCLIC nucleotide phosphodiesterases, PRIONS, SPATIAL memory, COGNITIVE ability, AMYLOID beta-protein precursor

Abstract

Microglia activity can drive excessive synaptic loss during the prodromal phase of Alzheimer's disease (AD) and is associated with lowered cyclic adenosine monophosphate (cAMP) due to cAMP phosphodiesterase 4B (PDE4B). This study aimed to investigate whether long-term inhibition of PDE4B by A33 (3 mg/kg/day) can prevent synapse loss and its associated cognitive decline in APPswe/PS1dE9 mice. This model is characterized by a chimeric mouse/human APP with the Swedish mutation and human PSEN1 lacking exon 9 (dE9), both under the control of the mouse prion protein promoter. The effects on cognitive function of prolonged A33 treatment from 20 days to 4 months of age, was assessed at 7–8 months. PDE4B inhibition significantly improved both the working and spatial memory of APPswe/PSdE9 mice after treatment ended. At the cellular level, in vitro inhibition of PDE4B induced microglial filopodia formation, suggesting that regulation of PDE4B activity can counteract microglia activation. Further research is needed to investigate if this could prevent microglia from adopting their 'disease-associated microglia (DAM)' phenotype in vivo. These findings support the possibility that PDE4B is a potential target in combating AD pathology and that early intervention using A33 may be a promising treatment strategy for AD. [ABSTRACT FROM AUTHOR]

Published

2024

36. Advancing surgical instrument safety: A screen of oxidative and alkaline prion decontaminants using real-time quaking-induced conversion with prion-coated steel beads as surgical instrument mimetic.

Author

Heinzer, Daniel, Avar, Merve, Pfammatter, Manuela, Moos, Rita, Schwarz, Petra, Buhmann, Matthias T., Kuhn, Benjamin, Mauerhofer, Stefan, Rosenberg, Urs, Aguzzi, Adriano, and Hornemann, Simone

Subjects

SURGICAL instruments, PRIONS, CREUTZFELDT-Jakob disease, MEDICAL screening, MEDICAL equipment, DISINFECTION & disinfectants

Abstract

Iatrogenic transmission of prions, the infectious agents of fatal Creutzfeldt-Jakob disease, through inefficiently decontaminated medical instruments remains a critical issue. Harsh chemical treatments are effective, but not suited for routine reprocessing of reusable surgical instruments in medical cleaning and disinfection processes due to material incompatibilities. The identification of mild detergents with activity against prions is therefore of high interest but laborious due to the low throughput of traditional assays measuring prion infectivity. Here, we report the establishment of TESSA (sTainlESs steel-bead Seed Amplification assay), a modified real-time quaking induced cyclic amplification (RT-QuIC) assay that explores the propagation activity of prions with stainless steel beads. TESSA was applied for the screening of about 70 different commercially available and novel formulations and conditions for their prion inactivation efficacy. One hypochlorite-based formulation, two commercially available alkaline formulations and a manual alkaline pre-cleaner were found to be highly effective in inactivating prions under conditions simulating automated washer-disinfector cleaning processes. The efficacy of these formulations was confirmed in vivo in a murine prion infectivity bioassay, yielding a reduction of the prion titer for bead surface adsorbed prions below detectability. Our data suggest that TESSA represents an effective method for a rapid screening of prion-inactivating detergents, and that alkaline and oxidative formulations are promising in reducing the risk of potential iatrogenic prion transmission through insufficiently decontaminated instrument surfaces. [ABSTRACT FROM AUTHOR]

Published

2024

37. Frontotemporal dementia-like disease progression elicited by seeded aggregation and spread of FUS.

Author

Vazquez-Sanchez, Sonia, Tilkin, Britt, Gasset-Rosa, Fatima, Zhang, Sitao, Piol, Diana, McAlonis-Downes, Melissa, Artates, Jonathan, Govea-Perez, Noe, Verresen, Yana, Guo, Lin, Cleveland, Don W., Shorter, James, and Da Cruz, Sandrine

Subjects

FRONTOTEMPORAL lobar degeneration, AMYOTROPHIC lateral sclerosis, RNA-binding proteins, DISEASE progression, PRIONS, NEURODEGENERATION

Abstract

RNA binding proteins have emerged as central players in the mechanisms of many neurodegenerative diseases. In particular, a proteinopathy of fused in sarcoma (FUS) is present in some instances of familial Amyotrophic lateral sclerosis (ALS) and about 10% of sporadic Frontotemporal lobar degeneration (FTLD). Here we establish that focal injection of sonicated human FUS fibrils into brains of mice in which ALS-linked mutant or wild-type human FUS replaces endogenous mouse FUS is sufficient to induce focal cytoplasmic mislocalization and aggregation of mutant and wild-type FUS which with time spreads to distal regions of the brain. Human FUS fibril-induced FUS aggregation in the mouse brain of humanized FUS mice is accelerated by an ALS-causing FUS mutant relative to wild-type human FUS. Injection of sonicated human FUS fibrils does not induce FUS aggregation and subsequent spreading after injection into naïve mouse brains containing only mouse FUS, indicating a species barrier to human FUS aggregation and its prion-like spread. Fibril-induced human FUS aggregates recapitulate pathological features of FTLD including increased detergent insolubility of FUS and TAF15 and amyloid-like, cytoplasmic deposits of FUS that accumulate ubiquitin and p62, but not TDP-43. Finally, injection of sonicated FUS fibrils is shown to exacerbate age-dependent cognitive and behavioral deficits from mutant human FUS expression. Thus, focal seeded aggregation of FUS and further propagation through prion-like spread elicits FUS-proteinopathy and FTLD-like disease progression. [ABSTRACT FROM AUTHOR]

Published

2024

38. The emergence of bacterial prions.

Author

Giraldo, Rafael

Subjects

SCRAPIE, PRIONS, DNA-binding proteins, RHO factor, CRYPTOCHROMES, CHIMERIC proteins, BACTERIAL proteins

Abstract

This article explores the discovery and characterization of bacterial prions, specifically focusing on three examples: CbRho, ChSSB, and RepA-WH1. Bacterial prions are proteins that can adopt a misfolded, self-propagating state, similar to prions found in yeast and mammals. The article discusses the properties and functions of these bacterial prions, including their interactions with chaperone proteins and nucleic acids. It also considers the potential implications of bacterial prions for antimicrobial strategies and their similarities to amyloid diseases in humans. However, more research is needed to fully understand the structures and biology of bacterial prions. [Extracted from the article]

Published

2024

39. A multiverse of α-synuclein: investigation of prion strain properties with carboxyl-terminal truncation specific antibodies in animal models.

Author

Lloyd, Grace M., Quintin, Stephan, Sorrentino, Zachary A., Gorion, Kimberly-Marie M., Bell, Brach M., Long, Brooke, Paterno, Giavanna, and Giasson, Benoit I.

Subjects

ALPHA-synuclein, PRIONS, MULTIPLE system atrophy, ANIMAL models in research, IMMUNOGLOBULINS, BRAIN diseases

Abstract

Synucleinopathies are a group of neurodegenerative disorders characterized by the presence of misfolded α-Synuclein (αSyn) in the brain. These conditions manifest with diverse clinical and pathophysiological characteristics. This disease diversity is hypothesized to be driven by αSyn strains with differing biophysical properties, potentially influencing prion-type propagation and consequentially the progression of illness. Previously, we investigated this hypothesis by injecting brain lysate (seeds) from deceased individuals with various synucleinopathies or human recombinant αSyn preformed fibrils (PFFs) into transgenic mice overexpressing either wild type or A53T human αSyn. In the studies herein, we expanded on these experiments, utilizing a panel of antibodies specific for the major carboxyl-terminally truncated forms of αSyn (αSynΔC). These modified forms of αSyn are found enriched in human disease brains to inform on potential strain-specific proteolytic patterns. With monoclonal antibodies specific for human αSyn cleaved at residues 103, 114, 122, 125, and 129, we demonstrate that multiple system atrophy (MSA) seeds and PFFs induce differing neuroanatomical spread of αSyn pathology associated with host specific profiles. Overall, αSyn cleaved at residue 103 was most widely present in the induced pathological inclusions. Furthermore, αSynΔC-positive inclusions were present in astrocytes, but more frequently in activated microglia, with patterns dependent on host and inoculum. These findings support the hypothesis that synucleinopathy heterogeneity might stem from αSyn strains with unique biochemical properties that include proteolytic processing, which could result in dominant strain properties. [ABSTRACT FROM AUTHOR]

Published

2024

40. Roles of astrocytes and prions in Alzheimer's disease: insights from mathematical modeling.

Author

Maji, Mitali and Khajanchi, Subhas

Subjects

ALZHEIMER'S disease, MATHEMATICAL models, TAU proteins, ASTROCYTES, AMYLOID plaque, PRIONS, LYAPUNOV functions

Abstract

We present a mathematical model that explores the progression of Alzheimer's disease, with a particular focus on the involvement of disease-related proteins and astrocytes. Our model consists of a coupled system of differential equations that delineates the dynamics of amyloid beta plaques, amyloid beta protein, tau protein, and astrocytes. Amyloid beta plaques can be considered fibrils that depend on both the plaque size and time. We change our mathematical model to a temporal system by applying an integration operation with respect to the plaque size. Theoretical analysis including existence, uniqueness, positivity, and boundedness is performed in our model. We extend our mathematical model by adding two populations, namely prion protein and amyloid beta-prion complex. We characterize the system dynamics by locating biologically feasible steady states and their local stability analysis for both models. The characterization of the proposed model can help inform in advancing our understanding of the development of Alzheimer's disease as well as its complicated dynamics. We investigate the global stability analysis around the interior equilibrium point by constructing a suitable Lyapunov function. We validate our theoretical analysis with the aid of extensive numerical illustrations. [ABSTRACT FROM AUTHOR]

Published

2024

41. Probing the Molecular Structure and Dynamics of Membrane‐Bound Proteins during Misfolding Processes by Sum‐Frequency Generation Vibrational Spectroscopy.

Author

Zheng, Xiaoxuan, Ni, Zijian, Pei, Quanbing, Wang, Mengmeng, Tan, Junjun, Bai, Shiyu, Shi, Fangwen, and Ye, Shuji

Subjects

MOLECULAR structure, LYSOZYMES, PRIONS, MOLECULAR probes, PHOTON upconversion, AMYLIN, MOLECULAR dynamics

Abstract

Protein misfolding and amyloid formation are implicated in the protein dysfunction, but the underlying mechanism remains to be clarified due to the lack of effective tools for detecting the transient intermediates. Sum frequency generation vibrational spectroscopy (SFG‐VS) has emerged as a powerful tool for identifying the structure and dynamics of proteins at the interfaces. In this review, we summarize recent SFG‐VS studies on the structure and dynamics of membrane‐bound proteins during misfolding processes. This paper first introduces the methods for determining the secondary structure of interfacial proteins: combining chiral and achiral spectra of amide A and amide I bands and combining amide I, amide II, and amide III spectral features. To demonstrate the ability of SFG‐VS in investigating the interfacial protein misfolding and amyloid formation, studies on the interactions between different peptides/proteins (islet amyloid polypeptide, amyloid β, prion protein, fused in sarcoma protein, hen egg‐white lysozyme, fusing fusion peptide, class I hydrophobin SC3 and class II hydrophobin HFBI) and surfaces such as lipid membranes are discussed. These molecular‐level studies revealed that SFG‐VS can provide a unique understanding of the mechanism of interfacial protein misfolding and amyloid formation in real time, in situ and without any exogenous labeling. [ABSTRACT FROM AUTHOR]

Published

2024

42. Prion Seeding Activity in Plant Tissues Detected by RT-QuIC.

Author

Burgener, Kate, Lichtenberg, Stuart Siegfried, Walsh, Daniel P., Inzalaco, Heather N., Lomax, Aaron, and Pedersen, Joel A.

Subjects

BOVINE spongiform encephalopathy, PLANT cells & tissues, CHRONIC wasting disease, PRIONS, PRION diseases, MOOSE

Abstract

Prion diseases such as scrapie, bovine spongiform encephalopathy (BSE), and chronic wasting disease (CWD) affect domesticated and wild herbivorous mammals. Animals afflicted with CWD, the transmissible spongiform encephalopathy of cervids (deer, elk, and moose), shed prions into the environment, where they may persist and remain infectious for years. These environmental prions may remain in soil, be transported in surface waters, or assimilated into plants. Environmental sampling is an emerging area of TSE research and can provide more information about prion fate and transport once shed by infected animals. In this study, we have developed the first published method for the extraction and detection of prions in plant tissue using the real-time quaking-induced conversion (RT-QuIC) assay. Incubation with a zwitterionic surfactant followed by precipitation with sodium phosphotungstate concentrates the prions within samples and allows for sensitive detection of prion seeding activity. Using this protocol, we demonstrate that prions can be detected within plant tissues and on plant surfaces using the RT-QuIC assay. [ABSTRACT FROM AUTHOR]

Published

2024

43. Classical BSE dismissed as the cause of CWD in Norwegian red deer despite strain similarities between both prion agents.

Author

Marín-Moreno, Alba, Benestad, Sylvie L., Barrio, Tomas, Pirisinu, Laura, Espinosa, Juan Carlos, Tran, Linh, Huor, Alvina, Di Bari, Michele Angelo, Eraña, Hasier, Maddison, Ben C., D'Agostino, Claudia, Fernández-Borges, Natalia, Canoyra, Sara, Jerez-Garrido, Nuria, Castilla, Joaquín, Spiropoulos, John, Bishop, Keith, Gough, Kevin C., Nonno, Romolo, and Våge, Jorn

Subjects

BRAIN stem, PRIONS, RED deer, BOVINE spongiform encephalopathy, LYMPHOID tissue, CHRONIC wasting disease, WESTERN immunoblotting

Abstract

The first case of CWD in a Norwegian red deer was detected by a routine ELISA test and confirmed by western blotting and immunohistochemistry in the brain stem of the animal. Two different western blotting tests were conducted independently in two different laboratories, showing that the red deer glycoprofile was different from the Norwegian CWD reindeer and CWD moose and from North American CWD. The isolate showed nevertheless features similar to the classical BSE (BSE-C) strain. Furthermore, BSE-C could not be excluded based on the PrPSc immunohistochemistry staining in the brainstem and the absence of detectable PrPSc in the lymphoid tissues. Because of the known ability of BSE-C to cross species barriers as well as its zoonotic potential, the CWD red deer isolate was submitted to the EURL Strain Typing Expert Group (STEG) as a BSE-C suspect for further investigation. In addition, different strain typing in vivo and in vitro strategies aiming at identifying the BSE-C strain in the red deer isolate were performed independently in three research groups and BSE-C was not found in it. These results suggest that the Norwegian CWD red deer case was infected with a previously unknown CWD type and further investigation is needed to determine the characteristics of this potential new CWD strain. [ABSTRACT FROM AUTHOR]

Published

2024

44. The Role of Glial Cells in Neurobiology and Prion Neuropathology.

Author

Hay, Arielle, Popichak, Katriana, Moreno, Julie, and Zabel, Mark

Subjects

NEUROGLIA, PRIONS, NEUROLOGICAL disorders, PRION diseases, SCRAPIE, MICROGLIA, NEUROBIOLOGY, ASTROCYTES

Abstract

Prion diseases are rare and neurodegenerative diseases that are characterized by the misfolding and infectious spread of the prion protein in the brain, causing progressive and irreversible neuronal loss and associated clinical and behavioral manifestations in humans and animals, ultimately leading to death. The brain has a complex network of neurons and glial cells whose crosstalk is critical for function and homeostasis. Although it is established that prion infection of neurons is necessary for clinical disease to occur, debate remains in the field as to the role played by glial cells, namely astrocytes and microglia, and whether these cells are beneficial to the host or further accelerate disease. Here, we review the current literature assessing the complex morphologies of astrocytes and microglia, and the crosstalk between these two cell types, in the prion-infected brain. [ABSTRACT FROM AUTHOR]

Published

2024

45. The Enigma of Tau Protein Aggregation: Mechanistic Insights and Future Challenges.

Author

Zheng, Huiting, Sun, Huimin, Cai, Qixu, and Tai, Hwan-Ching

Subjects

TAU proteins, ALZHEIMER'S disease, PRIONS, COAT proteins (Viruses), ARACHIDONIC acid, PHASE separation, NEURODEGENERATION

Abstract

Tau protein misfolding and aggregation are pathological hallmarks of Alzheimer's disease and over twenty neurodegenerative disorders. However, the molecular mechanisms of tau aggregation in vivo remain incompletely understood. There are two types of tau aggregates in the brain: soluble aggregates (oligomers and protofibrils) and insoluble filaments (fibrils). Compared to filamentous aggregates, soluble aggregates are more toxic and exhibit prion-like transmission, providing seeds for templated misfolding. Curiously, in its native state, tau is a highly soluble, heat-stable protein that does not form fibrils by itself, not even when hyperphosphorylated. In vitro studies have found that negatively charged molecules such as heparin, RNA, or arachidonic acid are generally required to induce tau aggregation. Two recent breakthroughs have provided new insights into tau aggregation mechanisms. First, as an intrinsically disordered protein, tau is found to undergo liquid-liquid phase separation (LLPS) both in vitro and inside cells. Second, cryo-electron microscopy has revealed diverse fibrillar tau conformations associated with different neurodegenerative disorders. Nonetheless, only the fibrillar core is structurally resolved, and the remainder of the protein appears as a "fuzzy coat". From this review, it appears that further studies are required (1) to clarify the role of LLPS in tau aggregation; (2) to unveil the structural features of soluble tau aggregates; (3) to understand the involvement of fuzzy coat regions in oligomer and fibril formation. [ABSTRACT FROM AUTHOR]

Published

2024

46. Exploring Fundamentals of Prion Biology Using Natural Yeast Prions and Mammalian PrP.

Author

Derkatch, Irina L. and Liebman, Susan W.

Subjects

SCRAPIE, PRIONS, CHRONIC wasting disease, YEAST, HEAT shock proteins

Abstract

This editorial explores the concept of prions, which are proteins that can adopt unconventional conformations and pass these conformations to other proteins. Prions have been associated with various human diseases and have been found in different species, including yeast. The document includes multiple articles that delve into various aspects of prion biology, such as the formation, propagation, and elimination of prions in yeast cells. It also discusses the role of chaperones and other cellular systems in regulating prion formation and propagation. The text highlights the importance of using different experimental approaches to understand the nature and impact of in vivo aggregates. The articles cover topics such as the study of human proteins in yeast, genetic prion diseases, and the analysis of the shadow of prion protein gene in cats. The authors express gratitude to the contributors and reviewers and emphasize the need for further research to develop disease treatment strategies and drug development. They also mention the ongoing discussion about the transmission of prion diseases to humans and the potential role of plants in environmental transmission. [Extracted from the article]

Published

2024

47. A Comparison of RML Prion Inactivation Efficiency by Heterogeneous and Homogeneous Photocatalysis.

Author

Paspaltsis, Ioannis, Kanata, Eirini, Sotiriadis, Sotirios, Correia, Susana Silva, Schmitz, Matthias, Zerr, Inga, Dafou, Dimitra, Xanthopoulos, Konstantinos, and Sklaviadis, Theodoros

Subjects

PRIONS, CHRONIC wasting disease, MICE, PHOTOCATALYSIS, CREUTZFELDT-Jakob disease, SCRAPIE

Abstract

Prions are proteinaceous pathogens responsible for a variety of devastating diseases in mammals, including scrapie in sheep and goats, chronic wasting disease in cervids, and Creutzfeldt–Jakob disease (CJD) in humans. They are characterized by their exceptional persistence to common inactivation procedures. This applies to all possible sources of prion contamination as prions may be present in the tissues and biological fluids of infected individuals. Hence, efficient prion inactivation procedures are still being sought to minimize the risk of intra- or inter-species transmission. In the past, photocatalytic treatment has been proven to be capable of efficiently oxidizing and inactivating prions. In the present study, the efficacy of homogeneous photo-Fenton-based photocatalysis as well as heterogeneous photocatalysis with TiO2 in reducing RML mouse scrapie infectivity was evaluated. Prion inactivation was assessed by means of a bioassay, and the results were confirmed by in vitro experiments. While the prion infectivity of the RML mouse scrapie was reduced after treatment with the photo-Fenton reagent, the heterogeneous photocatalytic treatment of the same prion strain completely eliminated prion infectivity. [ABSTRACT FROM AUTHOR]

Published

2024

48. Sensitive detection of pathological seeds of α-synuclein, tau and prion protein on solid surfaces.

Author

Orrú, Christina D., Groveman, Bradley R., Hughson, Andrew G., Barrio, Tomás, Isiofia, Kachi, Race, Brent, Ferreira, Natalia C., Gambetti, Pierluigi, Schneider, David A., Masujin, Kentaro, Miyazawa, Kohtaro, Ghetti, Bernardino, Zanusso, Gianluigi, and Caughey, Byron

Subjects

ALPHA-synuclein, TAU proteins, LEWY body dementia, SEED proteins, ALZHEIMER'S disease, PRIONS, PARKINSON'S disease

Abstract

Prions or prion-like aggregates such as those composed of PrP, α-synuclein, and tau are key features of proteinopathies such as prion, Parkinson's and Alzheimer's diseases, respectively. Their presence on solid surfaces may be biohazardous under some circumstances. PrP prions bound to solids are detectable by ultrasensitive real-time quaking-induced conversion (RT-QuIC) assays if the solids can be immersed in assay wells or transferred to pads. Here we show that PrP prions can remain detectable on steel wires for at least a year, or even after enzymatic cleaning and sterilization. We also show that contamination of larger objects with pathological seeds of α-synuclein, tau, and PrP can be detected by simply assaying a sampling medium that has been transiently applied to the surface. Human α-synuclein seeds in dementia with Lewy bodies brain tissue was detected by α-synuclein RT-QuIC after drying of tissue dilutions with concentrations as low as 10−6 onto stainless steel. Tau RT-QuIC detected tau seeding activity on steel exposed to Alzheimer's disease brain tissue diluted as much as a billion fold. Prion RT-QuIC assays detected seeding activity on plates exposed to brain dilutions as extreme as 10−5–10−8 from prion-affected humans, sheep, cattle and cervids. Sampling medium collected from surgical instruments used in necropsies of sporadic Creutzfeldt-Jakob disease-infected transgenic mice was positive down to 10−6 dilution. Sensitivity for prion detection was not sacrificed by omitting the recombinant PrP substrate from the sampling medium during its application to a surface and subsequent storage as long as the substrate was added prior to performing the assay reaction. Our findings demonstrate practical prototypic surface RT-QuIC protocols for the highly sensitive detection of pathologic seeds of α-synuclein, tau, and PrP on solid objects. Author summary: Prions and prion-like protein aggregates associated with neurodegenerative diseases such as Creutzfeldt-Jakob disease, Alzheimer's disease, and dementia with Lewy bodies may persist in the environment or on medical instruments and in some cases be transmissible. Sensitive detection of these self-propagating aggregates, or seeds, on solid surfaces, machinery, tools, and surgical instruments might help prevent fomite-borne disease dissemination. Here we describe a novel RT-QuIC (sfRT-QuIC) to detect a variety of pathological brain-derived prion, α-synuclein, or tau seeds on stainless steel and acrylic surfaces. sfRT-QuIC testing showed that α-synuclein and tau seeds remained active on surgical forceps and scissors, even after routine instrument sterilization. Furthermore, we found that pathological protein seeds eluted from surfaces could be collected and stored for transport or delayed testing. sfRT-QuIC is a simple and effective, high throughput assay for sensitive detection of pathological protein seed contamination of common surfaces. [ABSTRACT FROM AUTHOR]

Published

2024

49. Wnt, glucocorticoid and cellular prion protein cooperate to drive a mesenchymal phenotype with poor prognosis in colon cancer.

Author

Mouillet-Richard, Sophie, Gougelet, Angélique, Passet, Bruno, Brochard, Camille, Le Corre, Delphine, Pitasi, Caterina Luana, Joubel, Camille, Sroussi, Marine, Gallois, Claire, Lavergne, Julien, Castille, Johan, Vilotte, Marthe, Daniel-Carlier, Nathalie, Pilati, Camilla, de Reyniès, Aurélien, Djouadi, Fatima, Colnot, Sabine, André, Thierry, Taieb, Julien, and Vilotte, Jean-Luc

Subjects

COLON cancer prognosis, GENE regulatory networks, PRIONS, GLUCOCORTICOID receptors, WNT genes, GENE expression

Abstract

Background: The mesenchymal subtype of colorectal cancer (CRC), associated with poor prognosis, is characterized by abundant expression of the cellular prion protein PrPC, which represents a candidate therapeutic target. How PrPC is induced in CRC remains elusive. This study aims to elucidate the signaling pathways governing PrPC expression and to shed light on the gene regulatory networks linked to PrPC. Methods: We performed in silico analyses on diverse datasets of in vitro, ex vivo and in vivo models of mouse CRC and patient cohorts. We mined ChIPseq studies and performed promoter analysis. CRC cell lines were manipulated through genetic and pharmacological approaches. We created mice combining conditional inactivation of Apc in intestinal epithelial cells and overexpression of the human prion protein gene PRNP. Bio-informatic analyses were carried out in two randomized control trials totalizing over 3000 CRC patients. Results: In silico analyses combined with cell-based assays identified the Wnt-β-catenin and glucocorticoid pathways as upstream regulators of PRNP expression, with subtle differences between mouse and human. We uncover multiple feedback loops between PrPC and these two pathways, which translate into an aggravation of CRC pathogenesis in mouse. In stage III CRC patients, the signature defined by PRNP-CTNNB1-NR3C1, encoding PrPC, β-catenin and the glucocorticoid receptor respectively, is overrepresented in the poor-prognosis, mesenchymal subtype and associates with reduced time to recurrence. Conclusions: An unleashed PrPC-dependent vicious circle is pathognomonic of poor prognosis, mesenchymal CRC. Patients from this aggressive subtype of CRC may benefit from therapies targeting the PRNP-CTNNB1-NR3C1 axis. [ABSTRACT FROM AUTHOR]

Published

2024

50. A Story Between s and S: [Het-s] Prion of the Fungus Podospora anserina.

Author

Son, Moonil

Subjects

PODOSPORA anserina, PRIONS, APOPTOSIS, MEIOTIC drive, SCRAPIE, CELL fusion

Abstract

In filamentous fungi, vegetative cell fusion occurs within and between individuals. These fusions of growing hyphae (anastomosis) from two individuals produce binucleated cells with mixed cytoplasm known as heterokaryons. The fate of heterokaryotic cells was genetically controlled with delicacy by specific loci named het (heterokaryon) or vic (vegetative incompatibility) as a part of self-/nonself-recognition system. When het loci of two individuals are incompatible, the resulting heterokaryotic cells underwent programmed cell death or showed severely impaired fungal growth. In Podospora anserina, het-s is one of at least nine alleles that control heterokaryon incompatibility and the altered protein conformation [Het-s] prion. The present study describes the [Het-s] prion in terms of (1) the historical discovery based on early genetic and physiological studies, (2) architecture built on its common and unique nature compared with other prions, and (3) functions related to meiotic drive and programmed cell death. [ABSTRACT FROM AUTHOR]

Published

2024