Your search keyword '"Castilla, Joaquín"' showing total 11 results

1. 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, Våge, Jorn, Andréoletti, Olivier, and Torres, Juan María

Published

2024

2. Glycans are not necessary to maintain the pathobiological features of bovine spongiform encephalopathy.

Author

Otero, Alicia, Barrio, Tomás, Eraña, Hasier, Charco, Jorge M., Betancor, Marina, Díaz-Domínguez, Carlos M., Marín, Belén, Andréoletti, Olivier, Torres, Juan M., Kong, Qingzhong, Badiola, Juan J., Bolea, Rosa, and Castilla, Joaquín

Subjects

BOVINE spongiform encephalopathy, PRIONS, CREUTZFELDT-Jakob disease, GLYCANS, PRION diseases, TRANSGENIC mice, SPECIES hybridization

Abstract

The role of the glycosylation status of PrPC in the conversion to its pathological counterpart and on cross-species transmission of prion strains has been widely discussed. Here, we assessed the effect on strain characteristics of bovine spongiform encephalopathy (BSE) isolates with different transmission histories upon propagation on a model expressing a non-glycosylated human PrPC. Bovine, ovine and porcine-passaged BSE, and variant Creutzfeldt-Jakob disease (vCJD) isolates were used as seeds/inocula in both in vitro and in vivo propagation assays using the non-glycosylated human PrPC-expressing mouse model (TgNN6h). After protein misfolding cyclic amplification (PMCA), all isolates maintained the biochemical characteristics of BSE. On bioassay, all PMCA-propagated BSE prions were readily transmitted to TgNN6h mice, in agreement with our previous in vitro results. TgNN6h mice reproduced the characteristic neuropathological and biochemical hallmarks of BSE, suggesting that the absence of glycans did not alter the pathobiological features of BSE prions. Moreover, back-passage of TgNN6h-adapted BSE prions to BoTg110 mice recovered the full BSE phenotype, confirming that the glycosylation of human PrPC is not essential for the preservation of the human transmission barrier for BSE prions or for the maintenance of BSE strain properties. Author summary: Bovine spongiform encephalopathy (BSE), publicly known as "mad cow disease", is a neurodegenerative disorder affecting cattle, caused by unconventional agents called prions. BSE can naturally transmit to human beings, producing the variant form of Creutzfeldt-Jakob disease (vCJD), which caused an unprecedented health and economic crisis in the UE. Prions are composed of PrPSc, a misfolded form of the cellular protein PrPC, which can be variably glycosylated by conjugation with sugar molecules at two positions of its sequence. Several studies reported the role of PrPC-attached sugars on important aspects of prion biology, such as the existence of different prion strains. Here, we demonstrate that it is possible to propagate BSE prions (from different animal and human sources) in a non-glycosylated human PrPC environment without loss of their strain properties. Different BSE isolates were successfully transmitted to a transgenic mouse model expressing non-glycosylated human PrPC, and these animals manifested neuropathological and biochemical signs compatible with BSE. To definitely prove the maintenance of the strain, non-glycosylated BSE prions were transmitted to their original host: transgenic mice expressing cattle PrPC. These animals recovered the full BSE phenotype, confirming that the glycosylation of human PrPC is not relevant for the propagation of this particular prion strain. [ABSTRACT FROM AUTHOR]

Published

2022

3. Susceptibility of European Red Deer (Cervus elaphus elaphus) to Alimentary Challenge with Bovine Spongiform Encephalopathy.

Author

Dagleish, Mark P., Martin, Stuart, Steele, Philip, Finlayson, Jeanie, Eaton, Samantha L., Sisó, Sílvia, Stewart, Paula, Fernández-Borges, Natalia, Hamilton, Scott, Pang, Yvonne, Chianini, Francesca, Reid, Hugh W., Goldmann, Wilfred, González, Lorenzo, Castilla, Joaquín, and Jeffrey, Martin

Subjects

RED deer, BOVINE spongiform encephalopathy, DISEASE susceptibility, BIOMARKERS, PROTEIN folding, VENISON

Abstract

European red deer (Cervus elaphus elaphus) are susceptible to the agent of bovine spongiform encephalopathy, one of the transmissible spongiform encephalopathies, when challenged intracerebrally but their susceptibility to alimentary challenge, the presumed natural route of transmission, is unknown. To determine this, eighteen deer were challenged via stomach tube with a large dose of the bovine spongiform encephalopathy agent and clinical signs, gross and histological lesions, presence and distribution of abnormal prion protein and the attack rate recorded. Only a single animal developed clinical disease, and this was acute with both neurological and respiratory signs, at 1726 days post challenge although there was significant (27.6%) weight loss in the preceding 141 days. The clinically affected animal had histological lesions of vacuolation in the neuronal perikaryon and neuropil, typical of transmissible spongiform encephalopathies. Abnormal prion protein, the diagnostic marker of transmissible encephalopathies, was primarily restricted to the central and peripheral nervous systems although a very small amount was present in tingible body macrophages in the lymphoid patches of the caecum and colon. Serial protein misfolding cyclical amplification, an in vitro ultra-sensitive diagnostic technique, was positive for neurological tissue from the single clinically diseased deer. All other alimentary challenged deer failed to develop clinical disease and were negative for all other investigations. These findings show that transmission of bovine spongiform encephalopathy to European red deer via the alimentary route is possible but the transmission rate is low. Additionally, when deer carcases are subjected to the same regulations that ruminants in Europe with respect to the removal of specified offal from the human food chain, the zoonotic risk of bovine spongiform encephalopathy, the cause of variant Creutzfeldt-Jakob disease, from consumption of venison is probably very low. [ABSTRACT FROM AUTHOR]

Published

2015

4. Elements Modulating the Prion Species Barrier and Its Passage Consequences.

Author

Torres, Juan-Maria, Espinosa, Juan-Carlos, Aguilar-Calvo, Patricia, Herva, María-Eugenia, Relaño-Ginés, Aroa, Villa-Diaz, Ana, Morales, Mónica, Parra, Beatriz, Alamillo, Elia, Brun, Alejandro, Castilla, Joaquín, Molina, Susana, Hawkins, Steve A. C., and Andreoletti, Olivier

Subjects

CHRONIC wasting disease, PRIONS, BOVINE spongiform encephalopathy, TRANSGENIC mice, GENE expression, GENETIC engineering, VETERINARY medicine

Abstract

The specific characteristics of Transmissible Spongiform Encephalopathy (TSE) strains may be altered during passage across a species barrier. In this study we investigated the biochemical and biological characteristics of Bovine Spongiform Encephalopathy (BSE) after transmission in both natural host species (cattle, sheep, pigs and mice) and in transgenic mice overexpressing the corresponding cellular prion protein (PrPC) in comparison with other non-BSE related prions from the same species. After these passages, most features of the BSE agent remained unchanged. BSE-derived agents only showed slight modifications in the biochemical properties of the accumulated PrPSc, which were demonstrated to be reversible upon re-inoculation into transgenic mice expressing bovine-PrPC. Transmission experiments in transgenic mice expressing bovine, porcine or human-PrP revealed that all BSE-derived agents were transmitted with no or a weak transmission barrier. In contrast, a high species barrier was observed for the non-BSE related prions that harboured an identical PrP amino acid sequence, supporting the theory that the prion transmission barrier is modulated by strain properties (presumably conformation-dependent) rather than by PrP amino acid sequence differences between host and donor. As identical results were observed with prions propagated either in natural hosts or in transgenic mouse models, we postulate that the species barrier and its passage consequences are uniquely governed by the host PrPC sequence and not influenced by other host genetic factors. The results presented herein reinforce the idea that the BSE agent is highly promiscuous, infecting other species, maintaining its properties in the new species, and even increasing its capabilities to jump to other species including humans. These data are essential for the development of an accurate risk assessment for BSE. [ABSTRACT FROM AUTHOR]

Published

2014

5. Bovine Spongiform Encephalopathy Induces Misfolding of Alleged Prion-Resistant Species Cellular Prion Protein without Altering Its Pathobiological Features.

Author

Vidal, Enric, Fernández-Borges, Natalia, Pintado, Belén, Ordóñez, Montserrat, Márquez, Mercedes, Fondevila, Dolors, Torres, Juan María, Pumarola, Martí, and Castilla, Joaquín

Subjects

BOVINE spongiform encephalopathy, PRIONS, PUBLIC health, GENE expression, LABORATORY mice, DISEASE susceptibility

Abstract

Bovine spongiform encephalopathy (BSE) prions were responsible for an unforeseen epizootic in cattle which had a vast social, economic, and public health impact. This was primarily because BSE prions were found to be transmissible to humans. Other species were also susceptible to BSE either by natural infection (e.g., felids, caprids) or in experimental settings (e.g., sheep, mice). However, certain species closely related to humans, such as canids and leporids, were apparently resistant to BSE. In vitro prion amplification techniques (saPMCA) were used to successfully misfold the cellular prion protein (PrPc) of these allegedly resistant species into a BSE-type prion protein. The biochemical and biological properties of the new prions generated in vitro after seeding rabbit and dog brain homogenates with classical BSE were studied. Pathobiological features of the resultant prion strains were determined after their inoculation into transgenic mice expressing bovine and human PrPc. Strain characteristics of the in vi fro-adapted rabbit and dog BSE agent remained invariable with respect to the original cattle BSE prion, suggesting that the naturally low susceptibility of rabbits and dogs to prion infections should not alter their zoonotic potential if these animals became infected with BSE. This study provides a sound basis for risk assessment regarding prion diseases in purportedly resistant species. [ABSTRACT FROM AUTHOR]

Published

2013

6. Chronic Wasting Disease in Bank Voles: Characterisation of the Shortest Incubation Time Model for Prion Diseases.

Author

Di Bari, Michele Angelo, Nonno, Romolo, Castilla, Joaquín, D'Agostino, Claudia, Pirisinu, Laura, Riccardi, Geraldina, Conte, Michela, Richt, Juergen, Kunkle, Robert, Langeveld, Jan, Vaccari, Gabriele, and Agrimi, Umberto

Subjects

CHRONIC wasting disease, CLETHRIONOMYS, PRION diseases in animals, CREUTZFELDT-Jakob disease, BOVINE spongiform encephalopathy, METHIONINE

Abstract

In order to assess the susceptibility of bank voles to chronic wasting disease (CWD), we inoculated voles carrying isoleucine or methionine at codon 109 (Bv109I and Bv109M, respectively) with CWD isolates from elk, mule deer and white-tailed deer. Efficient transmission rate (100%) was observed with mean survival times ranging from 156 to 281 days post inoculation. Subsequent passages in Bv109I allowed us to isolate from all CWD sources the same vole-adapted CWD strain (Bv109ICWD), typified by unprecedented short incubation times of 25-28 days and survival times of ,35 days. Neuropathological and molecular characterisation of Bv109ICWD showed that the classical features of mammalian prion diseases were all recapitulated in less than one month after intracerebral inoculation. Bv109ICWD was characterised by a mild and discrete distribution of spongiosis and relatively low levels of protease-resistant PrPSc (PrPres) in the same brain regions. Despite the low PrPres levels and the short time lapse available for its accumulation, end-point titration revealed that brains from terminally-ill voles contained up to 108,4 i.c. ID50 infectious units per gram. Bv109ICWD was efficiently replicated by protein misfolding cyclic amplification (PMCA) and the infectivity faithfully generated in vitro, as demonstrated by the preservation of the peculiar Bv109ICWD strain features on re-isolation in Bv109I. Overall, we provide evidence that the same CWD strain was isolated in Bv109I from the three-cervid species. Bv109ICWD showed unique characteristics of "virulence", low PrPres accumulation and high infectivity, thus providing exceptional opportunities to improve basic knowledge of the relationship between PrPSc, neurodegeneration and infectivity. [ABSTRACT FROM AUTHOR]

Published

2013

7. Subclinical Bovine Spongiform Encephalopathy Infection in Transgenic Mice Expressing Porcine Prion Protein.

Author

Castilla, Joaquín, Gutiérrez-Adáan, Alfonso, Brun, Alejandro, Doyle, Deirdre, Pintado, Belén, Ramirez, Miguel A., Salguero, Francisco J., Parra, Beatriz, Díaz San Segundo, Fayna, Sánchez-Vizcaíno, José M., Rogers, Mark, and Torres, Juan M.

Subjects

*BOVINE spongiform encephalopathy, *TRANSGENIC mice, *PRIONS, *SCRAPIE, *IMMUNOBLOTTING, *MICE

Abstract

The bovine-porcine species barrier to bovine spongiform encephalopathy (BSE) infection was explored by generating transgenic mouse lines expressing the porcine prion protein (PrP) gene. All of the porcine transgenic (poTg) mice showed clinical signs of BSE after intracerebral inoculation with a high-titer BSE inoculum. The protease- resistant PrP (PrPres) was detected in 14% (3 of 22) of the BSE-infected poTg mice by immunohistochemical or immunoblot analysis. Despite being able to infect 42% (5 of 12) of control mice, a low-dose BSE inoculum failed to penetrate the species barrier in our poTg mouse model. The findings of these infectivity studies suggest that there is a strong species barrier between cows and pigs. However, after second-passage infection of poTg mice using brain homogenates of BSE-inoculated mice scoring negative for the incoming prion protein as inoculum, it was possible to detect the presence of the infectious agent. Thus, porcine-adapted BSE inocula were efficient at infecting poTg mice, giving rise to an incubation period substantially reduced from 300 to 177 d after inoculation and to the presence of PrPres in 100% (21 of 21) of the mice. We were therefore able to conclude that initial exposure to the bovine prion may lead to subclinical infection such that brain homogenates from poTg mice classified as uninfected on the basis of the absence of PrPres are infectious when used to reinoculate poTg mice. Collectively, our findings suggest that these poTg mice could be used as a sensitive bioassay model for prion detection in pigs. [ABSTRACT FROM AUTHOR]

Published

2004

8. Prion-Associated Neurodegeneration Causes Both Endoplasmic Reticulum Stress and Proteasome Impairment in a Murine Model of Spontaneous Disease.

Author

Otero, Alicia, Betancor, Marina, Eraña, Hasier, Fernández Borges, Natalia, Lucas, José J., Badiola, Juan José, Castilla, Joaquín, and Bolea, Rosa

Subjects

PROTEASOMES, ENDOPLASMIC reticulum, PROTEIN disulfide isomerase, PRION diseases, SCRAPIE, BOVINE spongiform encephalopathy, CENTRAL nervous system, CARRIER proteins

Abstract

Prion diseases are a group of neurodegenerative disorders that can be spontaneous, familial or acquired by infection. The conversion of the prion protein PrPC to its abnormal and misfolded isoform PrPSc is the main event in the pathogenesis of prion diseases of all origins. In spontaneous prion diseases, the mechanisms that trigger the formation of PrPSc in the central nervous system remain unknown. Several reports have demonstrated that the accumulation of PrPSc can induce endoplasmic reticulum (ER) stress and proteasome impairment from the early stages of the prion disease. Both mechanisms lead to an increment of PrP aggregates in the secretory pathway, which could explain the pathogenesis of spontaneous prion diseases. Here, we investigate the role of ER stress and proteasome impairment during prion disorders in a murine model of spontaneous prion disease (TgVole) co-expressing the UbG76V-GFP reporter, which allows measuring the proteasome activity in vivo. Spontaneously prion-affected mice showed a significantly higher accumulation of the PKR-like ER kinase (PERK), the ER chaperone binding immunoglobulin protein (BiP/Grp78), the ER protein disulfide isomerase (PDI) and the UbG76V-GFP reporter than age-matched controls in certain brain areas. The upregulation of PERK, BiP, PDI and ubiquitin was detected from the preclinical stage of the disease, indicating that ER stress and proteasome impairment begin at early stages of the spontaneous disease. Strong correlations were found between the deposition of these markers and neuropathological markers of prion disease in both preclinical and clinical mice. Our results suggest that both ER stress and proteasome impairment occur during the pathogenesis of spontaneous prion diseases. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

Eraña, Hasier, Charco, Jorge M., González-Miranda, Ezequiel, García-Martínez, Sandra, López-Moreno, Rafael, Pérez-Castro, Miguel A., Díaz-Domínguez, Carlos M., García-Salvador, Adrián, and Castilla, Joaquín

Subjects

PRION diseases, DIAGNOSIS, CHRONIC wasting disease, SCRAPIE, BOVINE spongiform encephalopathy, NEURODEGENERATION, BODY fluids

Abstract

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, PrPSc, 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 PrPSc 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 PrPSc 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. [ABSTRACT FROM AUTHOR]

Published

2020

10. Sheep-Passaged Bovine Spongiform Encephalopathy Agent Exhibits Altered Pathobiological Properties in Bovine-PrP Transgenic Mice.

Author

Espinosa, Juan Carlos, Andréoletti, Olivier, Castilla, Joaquín, Herva, María Eugenia, Mora, Mónica, Alamillo, Elia, San-Segundo, Fayna Díaz, Lacroux, Caroline, Lugan, Séverine, Salguero, Francisco Javier, Langeveld, Jan, and Torres, Juan María

Subjects

*BOVINE spongiform encephalopathy, *VIRUS diseases in sheep, *VIRUS diseases in cattle, *INFECTIOUS disease transmission, *SCRAPIE, *PRION diseases in animals

Abstract

Sheep can be experimentally infected with bovine spongiform encephalopathy (BSE), and the ensuing disease is similar to scrapie in terms of pathogenesis and clinical signs. BSE infection in sheep is an animal and human health concern. In this study, the transmission in BoPrP-Tg110 mice of prions from BSE-infected sheep was examined and compared to the transmission of original cattle BSE in cattle and sheep scrapie prions. Our results indicate no transmission barrier for sheep BSE prions to infect BoPrP-Tg110 mice, but the course of the disease is accelerated compared to the effects of the original BSE isolate. The shortened incubation period of sheep BSE in the model was conserved in subsequent passage in BoPrP-Tg110 mice, indicating that it is not related to infectious titer differences. Biochemical signature, lesion profile, and PrPSc deposition pattern of both cattle and sheep BSE were similar. In contrast, all three sheep scrapie isolates tested showed an evident transmission barrier and further adaptation in subsequent passage. Taken together, those data indicate that BSE agent can be altered by crossing a species barrier, raising concerns about the virulence of this new prion towards other species, including humans. The BoPrP-Tg110 mouse bioassay should be considered as a valuable tool for discriminating scrapie and BSE in sheep. [ABSTRACT FROM AUTHOR]

Published

2007

11. Coenzyme Q and protein/lipid oxidation in a BSE-infected transgenic mouse model

Author

Martin, Sergio F., Burón, Isabel, Espinosa, Juan C., Castilla, Joaquín, Villalba, José M., and Torres, Juan M.

Subjects

*BOVINE spongiform encephalopathy, *UBIQUINONES, *TRANSGENIC mice, *FREE radical reactions

Abstract

Abstract: Oxidative stress and antioxidants play an important role in neurodegenerative diseases. However, the exact participation of antioxidants in the evolution of prion diseases is still largely unknown. The aim of this study was to assess brain levels of coenzyme Q (CoQ), an endogenous lipophilic antioxidant, and the antioxidant/pro-oxidant status by determining oxidative damage to proteins and lipids after intracerebral bovine spongiform encephalopathy (BSE) infection of transgenic mice expressing bovine prion protein (PrP). Our results indicate that, whereas the ratio between the two CoQ homologues present in mice (CoQ9 and CoQ10) is not altered by prion infection during the course of the disease, significant increases in total CoQ9 and CoQ10 were observed in BSE-infected mice 150 days after inoculation. This time point coincided with the first manifestation of PrPSc deposition in nervous tissue. In addition, CoQ9 and CoQ10 levels, neuropathological alterations, and PrPSc deposition in nervous tissues underwent further increases as the illness progressed. Lipid and protein oxidation were observed only at the final stage of the disease after clinical signs had appeared. These findings indicate upregulation of CoQ9- and CoQ10-dependent antioxidant systems in response to the increased oxidative stress induced by prion infection in nervous tissue. However, the induction of these endogenous antioxidant systems seems to be insufficient to prevent the development of the illness. [Copyright &y& Elsevier]

Published

2007