Your search keyword '"RT-QUIC"' showing total 10 results

1. Detection of Chronic Wasting Disease Prions in Fetal Tissues of Free-Ranging White-Tailed Deer

Author

Nalls, Amy V, McNulty, Erin E, Mayfield, Amber, Crum, James M, Keel, Michael K, Hoover, Edward A, Ruder, Mark G, and Mathiason, Candace K

Subjects

Microbiology, Biological Sciences, Pediatric, Emerging Infectious Diseases, Brain Disorders, Neurodegenerative, Transmissible Spongiform Encephalopathy (TSE), Perinatal Period - Conditions Originating in Perinatal Period, Rare Diseases, Neurosciences, Reproductive health and childbirth, Good Health and Well Being, Animals, Deer, Female, Fetal Diseases, Fetus, Infectious Disease Transmission, Vertical, Male, Pregnancy, Pregnancy Complications, Infectious, Prions, Wasting Disease, Chronic, West Virginia, prions, chronic wasting disease, mother-to-offspring transmission, sPMCA, RT-QuIC, fetal tissues

Abstract

The transmission of chronic wasting disease (CWD) has largely been attributed to contact with infectious prions shed in excretions (saliva, urine, feces, blood) by direct animal-to-animal exposure or indirect contact with the environment. Less-well studied has been the role that mother-to-offspring transmission may play in the facile transmission of CWD, and whether mother-to-offspring transmission before birth may contribute to the extensive spread of CWD. We thereby focused on a population of free-ranging white-tailed deer from West Virginia, USA, in which CWD has been detected. Fetal tissues, ranging from 113 to 158 days of gestation, were harvested from the uteri of CWD+ dams in the asymptomatic phase of infection. Using serial protein misfolding amplification (sPMCA), we detected evidence of prion seeds in 7 of 14 fetuses (50%) from 7 of 9 pregnancies (78%), with the earliest detection at 113 gestational days. This is the first report of CWD detection in free ranging white-tailed deer fetal tissues. Further investigation within cervid populations across North America will help define the role and impact of mother-to-offspring vertical transmission of CWD.

Published

2021

2. Detection of Chronic Wasting Disease Prions in Fetal Tissues of Free-Ranging White-Tailed Deer

Author

Amy V. Nalls, Erin E. McNulty, Amber Mayfield, James M. Crum, Michael K. Keel, Edward A. Hoover, Mark G. Ruder, and Candace K. Mathiason

Subjects

prions, chronic wasting disease, mother-to-offspring transmission, sPMCA, RT-QuIC, fetal tissues, Microbiology, QR1-502

Abstract

The transmission of chronic wasting disease (CWD) has largely been attributed to contact with infectious prions shed in excretions (saliva, urine, feces, blood) by direct animal-to-animal exposure or indirect contact with the environment. Less-well studied has been the role that mother-to-offspring transmission may play in the facile transmission of CWD, and whether mother-to-offspring transmission before birth may contribute to the extensive spread of CWD. We thereby focused on a population of free-ranging white-tailed deer from West Virginia, USA, in which CWD has been detected. Fetal tissues, ranging from 113 to 158 days of gestation, were harvested from the uteri of CWD+ dams in the asymptomatic phase of infection. Using serial protein misfolding amplification (sPMCA), we detected evidence of prion seeds in 7 of 14 fetuses (50%) from 7 of 9 pregnancies (78%), with the earliest detection at 113 gestational days. This is the first report of CWD detection in free ranging white-tailed deer fetal tissues. Further investigation within cervid populations across North America will help define the role and impact of mother-to-offspring vertical transmission of CWD.

Published

2021

3. Preclinical Detection of Alpha-Synuclein Seeding Activity in the Colon of a Transgenic Mouse Model of Synucleinopathy by RT-QuIC

Author

Jung-Youn Han, Chaewon Shin, and Young Pyo Choi

Subjects

RT-QuIC, alpha-synuclein, synucleinopathy, Parkinson’s disease, Microbiology, QR1-502

Abstract

In synucleinopathies such as Parkinson’s disease (PD) and dementia with Lewy body (DLB), pathological alpha-synuclein (α-syn) aggregates are found in the gastrointestinal (GI) tract as well as in the brain. In this study, using real-time quaking-induced conversion (RT-QuIC), we investigated the presence of α-syn seeding activity in the brain and colon tissue of G2-3 transgenic mice expressing human A53T α-syn. Here we show that pathological α-syn aggregates with seeding activity were present in the colon of G2-3 mice as early as 3 months old, which is in the presymptomatic stage prior to the observation of any neurological abnormalities. In contrast, α-syn seeding activity was not detectable in 3 month-old mouse brains and only identified at 6 months of age in one of three mice. In the symptomatic stage of 12 months of age, RT-QuIC seeding activity was consistently detectable in both the brain and colon of G2-3 mice. Our results indicate that the RT-QuIC assay can presymptomatically detect pathological α-syn aggregates in the colon of G2-3 mice several months prior to their detection in brain tissue.

Published

2021

4. Clinical Use of Improved Diagnostic Testing for Detection of Prion Disease

Author

Mark P. Figgie and Brian S. Appleby

Subjects

prion disease, Creutzfeldt–Jakob disease (CJD), diagnostic testing, atypical prion disease, chronic wasting disease, RT-QuIC, Microbiology, QR1-502

Abstract

Prion diseases are difficult to recognize as many symptoms are shared among other neurologic pathologies and the full spectra of symptoms usually do not appear until late in the disease course. Additionally, many commonly used laboratory markers are non-specific to prion disease. The recent introduction of second-generation real time quaking induced conversion (RT-QuIC) has revolutionized pre-mortem diagnosis of prion disease due to its extremely high sensitivity and specificity. However, RT-QuIC does not provide prognostic data and has decreased diagnostic accuracy in some rarer, atypical prion diseases. The objective of this review is to provide an overview of the current clinical utility of fluid-based biomarkers, neurodiagnostic testing, and brain imaging in the diagnosis of prion disease and to suggest guidelines for their clinical use, with a focus on rarer prion diseases with atypical features. Recent advancements in laboratory-based testing and imaging criteria have shown improved diagnostic accuracy and prognostic potential in prion disease, but because these diagnostic tests are not sensitive in some prion disease subtypes and diagnostic test sensitivities are unknown in the event that CWD transmits to humans, it is important to continue investigations into the clinical utility of various testing modalities.

Published

2021

5. Clinical Use of Improved Diagnostic Testing for Detection of Prion Disease

Author

Brian S. Appleby and Mark P. Figgie

Subjects

0301 basic medicine, animal diseases, alpha-synuclein, Diagnostic accuracy, Disease, Review, Bioinformatics, Creutzfeldt-Jakob Syndrome, Prion Diseases, chemistry.chemical_compound, 0302 clinical medicine, Zoonoses, Medicine, tau, 14-3-3, chronic wasting disease, Diagnostic test, RT-QuIC, Electroencephalography, Neurodegenerative Diseases, atypical prion disease, Magnetic Resonance Imaging, Quality Improvement, QR1-502, Infectious Diseases, Disease Susceptibility, Prions, prion disease, Creutzfeldt–Jakob disease (CJD), Microbiology, Sensitivity and Specificity, diagnostic testing, Disease course, Diagnosis, Differential, 03 medical and health sciences, Neuroimaging, Virology, Animals, Humans, Genetic Predisposition to Disease, Alpha-synuclein, business.industry, Diagnostic Tests, Routine, Chronic wasting disease, medicine.disease, 030104 developmental biology, chemistry, business, 030217 neurology & neurosurgery, Biomarkers

Abstract

Prion diseases are difficult to recognize as many symptoms are shared among other neurologic pathologies and the full spectra of symptoms usually do not appear until late in the disease course. Additionally, many commonly used laboratory markers are non-specific to prion disease. The recent introduction of second-generation real time quaking induced conversion (RT-QuIC) has revolutionized pre-mortem diagnosis of prion disease due to its extremely high sensitivity and specificity. However, RT-QuIC does not provide prognostic data and has decreased diagnostic accuracy in some rarer, atypical prion diseases. The objective of this review is to provide an overview of the current clinical utility of fluid-based biomarkers, neurodiagnostic testing, and brain imaging in the diagnosis of prion disease and to suggest guidelines for their clinical use, with a focus on rarer prion diseases with atypical features. Recent advancements in laboratory-based testing and imaging criteria have shown improved diagnostic accuracy and prognostic potential in prion disease, but because these diagnostic tests are not sensitive in some prion disease subtypes and diagnostic test sensitivities are unknown in the event that CWD transmits to humans, it is important to continue investigations into the clinical utility of various testing modalities.

Published

2021

6. Factors That Improve RT-QuIC Detection of Prion Seeding Activity

Author

Christina D. Orrú, Andrew G. Hughson, Bradley R. Groveman, Katrina J. Campbell, Kelsie J. Anson, Matteo Manca, Allison Kraus, and Byron Caughey

Subjects

prion, CJD, olfactory mucosa, RT-QuIC, scrapie, CWD, BSE, Microbiology, QR1-502

Abstract

Rapid and sensitive detection of prions is important in managing prion diseases. The real-time quaking-induced conversion (RT-QuIC) assay for prion seeding activity has been applied to many prion diseases and provides for specific antemortem diagnostic testing. We evaluated RT-QuIC’s long-term consistency and varied multiple reaction parameters. Repeated assays of a single scrapie sample using multiple plate readers and recombinant prion protein (rPrPSen) substrates gave comparable results. N-terminal truncated hamster rPrPSen (residues 90–231) hastened both prion-seeded and prion-independent reactions but maintained a clear kinetic distinction between the two. Raising temperatures or shaking speeds accelerated RT-QuIC reactions without compromising specificity. When applied to nasal brushings from Creutzfeldt-Jakob disease patients, higher temperatures accelerated RT-QuIC kinetics, and the use of hamster rPrPSen (90–231) strengthened RT-QuIC responses. Elongation of shaking periods reduced scrapie-seeded reaction times, but continuous shaking promoted false-positive reactions. Furthermore, pH 7.4 provided for more rapid RT-QuIC reactions than more acidic pHs. Additionally, we show that small variations in the amount of sodium dodecyl sulfate (SDS) significantly impacted the assay. Finally, RT-QuIC performed in multiplate thermoshakers followed by fluorescence readings in separate plate readers enhanced assay throughput economically. Collectively, these results demonstrate improved speed, efficacy and practicality of RT-QuIC assays and highlight variables to be optimized for future applications.

Published

2016

7. Phenotypic Heterogeneity of Variably Protease-Sensitive Prionopathy: A Report of Three Cases Carrying Different Genotypes at PRNP Codon 129.

Author

Baiardi S, Mammana A, Rossi M, Ladogana A, Carlà B, Gambetti P, Capellari S, and Parchi P

Subjects

Aged, Brain metabolism, Brain pathology, Codon, Endopeptidase K metabolism, Female, Genotype, Humans, Male, Phenotype, PrPSc Proteins genetics, Prion Diseases diagnosis, PrPSc Proteins metabolism, Prion Diseases metabolism, Prion Diseases pathology

Abstract

Variably protease-sensitive prionopathy is an exceedingly rare, likely underestimated, sporadic prion disease that is characterized by heterogeneous and often non-specific clinical and pathological features posing diagnostic challenges. We report the results of a comprehensive analysis of three emblematic cases carrying different genotypes at the methionine (M)/valine (V) polymorphic codon 129 in the prion protein gene ( PRNP ). Clinical, biochemical, and neuropathological findings highlighted the prominent role of the host genetic background as a phenotypic modulator. In particular, the PRNP codon 129 showed a remarkable influence on the physicochemical properties of the pathological prion protein (PrP Sc ), especially on the sensitivity to proteinase K (PK) digestion (VV > MV > MM), which variably affected the three main fragments (i.e., of 19, 17, and 7 kDa, respectively) comprising the PrP Sc profile after PK digestion and immunoblotting. This, in turn, correlated with significant differences in the ratio between the 19 kDa and the 7 kDa fragments which was highest in the MM case and lowest in the VV one. The relative amount of cerebral and cerebellar PrP mini-plaques immunohistochemistry showed a similar association with the codon 129 genotype (i.e., VV > MV > MM). Clinical manifestations and results of diagnostic investigations were non-specific, except for the detection of prion seeding activity by the real-time quaking-induced conversion assay in the only cerebrospinal fluid sample that we tested (from patient 129VV).

Published

2022

8. Clinical Use of Improved Diagnostic Testing for Detection of Prion Disease.

Author

Figgie MP Jr and Appleby BS

Subjects

Animals, Creutzfeldt-Jakob Syndrome diagnosis, Diagnosis, Differential, Disease Susceptibility, Electroencephalography, Genetic Predisposition to Disease, Humans, Magnetic Resonance Imaging, Neurodegenerative Diseases diagnosis, Neurodegenerative Diseases etiology, Prion Diseases complications, Prion Diseases etiology, Prions genetics, Prions metabolism, Quality Improvement, Sensitivity and Specificity, Zoonoses, Biomarkers, Diagnostic Tests, Routine methods, Diagnostic Tests, Routine standards, Prion Diseases diagnosis

Abstract

Prion diseases are difficult to recognize as many symptoms are shared among other neurologic pathologies and the full spectra of symptoms usually do not appear until late in the disease course. Additionally, many commonly used laboratory markers are non-specific to prion disease. The recent introduction of second-generation real time quaking induced conversion (RT-QuIC) has revolutionized pre-mortem diagnosis of prion disease due to its extremely high sensitivity and specificity. However, RT-QuIC does not provide prognostic data and has decreased diagnostic accuracy in some rarer, atypical prion diseases. The objective of this review is to provide an overview of the current clinical utility of fluid-based biomarkers, neurodiagnostic testing, and brain imaging in the diagnosis of prion disease and to suggest guidelines for their clinical use, with a focus on rarer prion diseases with atypical features. Recent advancements in laboratory-based testing and imaging criteria have shown improved diagnostic accuracy and prognostic potential in prion disease, but because these diagnostic tests are not sensitive in some prion disease subtypes and diagnostic test sensitivities are unknown in the event that CWD transmits to humans, it is important to continue investigations into the clinical utility of various testing modalities.

Published

2021

9. Preclinical Detection of Alpha-Synuclein Seeding Activity in the Colon of a Transgenic Mouse Model of Synucleinopathy by RT-QuIC.

Author

Han JY, Shin C, and Choi YP

Subjects

Animals, Biological Assay, Brain metabolism, Brain pathology, Colon pathology, Disease Models, Animal, Humans, Mice, Mice, Transgenic, Synucleinopathies pathology, alpha-Synuclein genetics, Colon metabolism, Disease Susceptibility, Synucleinopathies etiology, Synucleinopathies metabolism, alpha-Synuclein metabolism

Abstract

In synucleinopathies such as Parkinson's disease (PD) and dementia with Lewy body (DLB), pathological alpha-synuclein (α-syn) aggregates are found in the gastrointestinal (GI) tract as well as in the brain. In this study, using real-time quaking-induced conversion (RT-QuIC), we investigated the presence of α-syn seeding activity in the brain and colon tissue of G2-3 transgenic mice expressing human A53T α-syn. Here we show that pathological α-syn aggregates with seeding activity were present in the colon of G2-3 mice as early as 3 months old, which is in the presymptomatic stage prior to the observation of any neurological abnormalities. In contrast, α-syn seeding activity was not detectable in 3 month-old mouse brains and only identified at 6 months of age in one of three mice. In the symptomatic stage of 12 months of age, RT-QuIC seeding activity was consistently detectable in both the brain and colon of G2-3 mice. Our results indicate that the RT-QuIC assay can presymptomatically detect pathological α-syn aggregates in the colon of G2-3 mice several months prior to their detection in brain tissue.

Published

2021

10. Factors That Improve RT-QuIC Detection of Prion Seeding Activity.

Author

Orrú CD, Hughson AG, Groveman BR, Campbell KJ, Anson KJ, Manca M, Kraus A, and Caughey B

Subjects

Animals, Humans, Hydrogen-Ion Concentration, Reproducibility of Results, Temperature, Time Factors, Clinical Laboratory Techniques methods, Creutzfeldt-Jakob Syndrome diagnosis, Diagnostic Tests, Routine methods, Prions analysis, Scrapie diagnosis, Specimen Handling methods

Abstract

Rapid and sensitive detection of prions is important in managing prion diseases. The real-time quaking-induced conversion (RT-QuIC) assay for prion seeding activity has been applied to many prion diseases and provides for specific antemortem diagnostic testing. We evaluated RT-QuIC's long-term consistency and varied multiple reaction parameters. Repeated assays of a single scrapie sample using multiple plate readers and recombinant prion protein (rPrP(Sen)) substrates gave comparable results. N-terminal truncated hamster rPrP(Sen) (residues 90-231) hastened both prion-seeded and prion-independent reactions but maintained a clear kinetic distinction between the two. Raising temperatures or shaking speeds accelerated RT-QuIC reactions without compromising specificity. When applied to nasal brushings from Creutzfeldt-Jakob disease patients, higher temperatures accelerated RT-QuIC kinetics, and the use of hamster rPrP(Sen) (90-231) strengthened RT-QuIC responses. Elongation of shaking periods reduced scrapie-seeded reaction times, but continuous shaking promoted false-positive reactions. Furthermore, pH 7.4 provided for more rapid RT-QuIC reactions than more acidic pHs. Additionally, we show that small variations in the amount of sodium dodecyl sulfate (SDS) significantly impacted the assay. Finally, RT-QuIC performed in multiplate thermoshakers followed by fluorescence readings in separate plate readers enhanced assay throughput economically. Collectively, these results demonstrate improved speed, efficacy and practicality of RT-QuIC assays and highlight variables to be optimized for future applications.

Published

2016