First Demonstration of Transmissible Spongiform Encephalopathy-associated Prion Protein (PrPTSE) in Extracellular Vesicles from Plasma of Mice Infected with Mouse-adapted Variant Creutzfeldt-Jakob Disease by in Vitro Amplification

Saá, Paula; Yakovleva, Oksana; Castro, Jorge de; Vasilyeva, Irina; Paoli, Silvia H. De; Šimák, Jan; Červen̆áková, Larisa

doi:10.1074/jbc.m114.589564

Cited by 59 publications

(44 citation statements)

References 93 publications

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“…This result confirms previous data showing the presence of PrP TSE in blood exosomes by the protein misfolding cyclic amplification (PMCA) method (Saá et al, 2014), in plasma by PMCA (Castilla et al, 2005) and real-time quaking-induced conversion assays (Orrú et al, 2011), and in human variant Creutzfeldt-Jakob disease patients by a solid-state binding matrix assay (Edgeworth et al, 2011), but adds the important novel information that PrP TSE , similarly to infectivity (Brown et al, 2001), is detectable in blood without using amplification techniques. The detection of PrP TSE by a standard Western blotting technique was only possible after reducing the interference of IgRES by exosomal pellet fractionation on a sucrose gradient.…”

supporting

confidence: 79%

“…Because blood components probably interfere with PrP TSE detection (Hartwell et al, 2005;Abdel-Haq, 2015), we aimed to bypass this difficulty by looking at plasma exosomes. Exosomes are nanovesicles that carry RNA, proteins, lipids, other metabolites (Théry et al, 2009;Fais et al, 2013), PrP C and, in prion-infected hosts, PrP TSE and infectivity (Fevrier et al, 2004;Alais et al, 2008;Coleman et al, 2012;Saá et al, 2014).…”

mentioning

confidence: 99%

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Detection of exosomal prions in blood by immunochemistry techniques

Properzi¹,

Logozzi²,

Abdel‐Haq³

et al. 2015

Journal of General Virology

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In most forms of prion diseases, blood is infectious, but detection by immunochemistry techniques of the only available marker of infection (the misfolded prion protein, PrP TSE ) in blood remains elusive. We developed a novel method for the detection of PrP TSE in blood of prion-infected rodents based on the finding that PrP TSE is associated with plasma exosomes.However, further purification of the exosomes on a sucrose gradient was necessary to remove plasma immunoglobulins, which interfere with PrP TSE , masking its detection by immunochemistry. Finally, we report that about 20% of plasma infectivity is associated with exosomes.

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supporting

confidence: 79%

mentioning

confidence: 99%

Detection of exosomal prions in blood by immunochemistry techniques

Properzi¹,

Logozzi²,

Abdel‐Haq³

et al. 2015

Journal of General Virology

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“…These results brought some hope to the possibility of detecting prions for the screening of blood for transfusion or other blood-derived products and importantly, for early diagnosis of prion diseases using an easily accessible body fluid. In fact, apart from the development of new PrP Sc detection methods for diagnosis, PMCA has permitted to detect PrP Sc in extracellular vesicles from plasma of vCJD infected mice [244], which was later confirmed by IHC [245]. Although other methods have been proposed (e.g., rapid tests based on ELISA [18,246], cellular assays using prion susceptible cells [247], or bioassay in Drosophila [248]), the worse specificity and sensitivity and difficulties associated to cell culture or fly models for standardization purposes have limited their use.…”

Section: Prp Sc In Blood According To New Detection Techniquesmentioning

confidence: 99%

Detection of Pathognomonic Biomarker PrPSc and the Contribution of Cell Free-Amplification Techniques to the Diagnosis of Prion Diseases

et al. 2020

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Transmissible spongiform encephalopathies or prion diseases are rapidly progressive neurodegenerative diseases, the clinical manifestation of which can resemble other promptly evolving neurological maladies. Therefore, the unequivocal ante-mortem diagnosis is highly challenging and was only possible by histopathological and immunohistochemical analysis of the brain at necropsy. Although surrogate biomarkers of neurological damage have become invaluable to complement clinical data and provide more accurate diagnostics at early stages, other neurodegenerative diseases show similar alterations hindering the differential diagnosis. To solve that, the detection of the pathognomonic biomarker of disease, PrP Sc , the aberrantly folded isoform of the prion protein, could be used. However, the amounts in easily accessible tissues or body fluids at pre-clinical or early clinical stages are extremely low for the standard detection methods. The solution comes from the recent development of in vitro prion propagation techniques, such as Protein Misfolding Cyclic Amplification (PMCA) and Real Time-Quaking Induced Conversion (RT-QuIC), which have been already applied to detect minute amounts of PrP Sc in different matrixes and make early diagnosis of prion diseases feasible in a near future. Herein, the most relevant tissues and body fluids in which PrP Sc has been detected in animals and humans are being reviewed, especially those in which cell-free prion propagation systems have been used with diagnostic purposes.

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“…121 Consistent with these in vitro findings, it has also been shown that EVs derived from plasma of mice infected with variant Creutzfeldt–Jakob disease (vCJD), one of the prion diseases, contains PRNP. 122 Due to the fact that transmission of vCJD has also been clinically reported to be associated with blood transfusion, 123 it is plausible to hypothesize that EVs might have a significant role in the transmission of prion diseases. Interestingly, upregulated miRNAs including let-7b, miR-146a, miR-103, miR-125a-5p and miR-342-3p were found to be present in the EVs isolated from human tissue samples affected with prion diseases, 124 suggesting thereby that PRNP-infected EVs also mediate the pathogenesis of prion disease through their contents in addition to spreading of PRNP.…”

Section: Prion Disease and Evsmentioning

confidence: 99%

Emerging roles of extracellular vesicles in neurodegenerative disorders: focus on HIV-associated neurological complications

Lü

Cai

et al. 2016

Cell Death Dis

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Exosomes are membrane-enriched extracellular vesicles with a proposed diameter in the range of 30–100 nm. They are released during both normal homeostasis as well as under pathological conditions by most cell types. In recent years, there has been robust interest in the study of these vesicles as conduits for the delivery of information between cells in both analogous as well as disparate tissues. Their ability to transport specialized cargo including signaling mediators, proteins, messenger RNA and miRNAs characterizes these vesicles as primary facilitators of cell-to-cell communication and regulation. Exosomes have also been demonstrated to have important roles in the field of cancer biology and metastasis. More recently, their role in several neurodegenerative disorders has been gaining increased momentum as these particles have been shown to promote the spread of toxic factors such as amyloid beta and prions, adding further validity to their role as important regulators of disease pathogenesis. This review briefly summarizes current findings and thoughts on exosome biology in the context of neurodegenerative disorders and the manipulation of these particles for the development of potential therapeutic strategies.

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First Demonstration of Transmissible Spongiform Encephalopathy-associated Prion Protein (PrPTSE) in Extracellular Vesicles from Plasma of Mice Infected with Mouse-adapted Variant Creutzfeldt-Jakob Disease by in Vitro Amplification

Cited by 59 publications

References 93 publications

Detection of exosomal prions in blood by immunochemistry techniques

Detection of exosomal prions in blood by immunochemistry techniques

Detection of Pathognomonic Biomarker PrPSc and the Contribution of Cell Free-Amplification Techniques to the Diagnosis of Prion Diseases

Emerging roles of extracellular vesicles in neurodegenerative disorders: focus on HIV-associated neurological complications

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