Your search keyword '"Candace K Mathiason"' showing total 90 results

1. Monitoring longitudinal immunological responses to bluetongue virus 17 in experimentally infected sheep

Author

Joseph A Westrich, Erin E McNulty, Molly Carpenter, Mollie Burton, Kirsten Reed, Amy Nalls, Audrey Sandoval, Christie Mayo, and Candace K Mathiason

Subjects

Bluetongue virus, Immune response, Sheep, BTV-17, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

Bluetongue virus (BTV) is an economically important pathogen of ruminant species with worldwide prevalence. While many BTV infections are asymptomatic, animals with symptomatic presentation deteriorate quickly with the sickest succumbing to disease within one week. Animals that survive the infection often require months to recover. The immune response to BTV infection is thought to play a central role in controlling the disease. Key to understanding BTV disease is profiling vertebrate host immunological cellular and cytokine responses. Studies to characterize immune responses in ruminants have been limited by a lack of species-specific reagents and assay technology. Here we assess the longitudinal immunological response to experimental BTV-17-California (CA) infection in sheep using the most up to date assays. We infected a cohort of sheep with BTV-17-CA and longitudinally monitored each animal for clinical disease, viremia and specific immunological parameters (B cells, T cells, monocytes) by RT-qPCR, traditional flow cytometry and/or fluorescent based antibody arrays. BTV-inoculated sheep exhibited clinical signs characteristic of bluetongue virus disease. Circulating virus was demonstrated after 8 days post inoculation (DPI) and remained detectable for the remainder of the time course (24 DPI). A distinct lymphopenia was observed between 7 and 14 DPI that rebounded to mock-inoculated control levels at 17 DPI. In addition, we observed increased expression of pro-inflammatory cytokines after 8 DPI. Taken together, we have established a model of BTV infection in sheep and have successfully monitored the longitudinal vertebrate host immunological response and viral infection progression using a combination of traditional methods and cutting-edge technology.

Published

2023

2. Progression of chronic wasting disease in white-tailed deer analyzed by serial biopsy RT-QuIC and immunohistochemistry.

Author

Davin M Henderson, Nathaniel D Denkers, Clare E Hoover, Erin E McNulty, Sarah K Cooper, Lauren A Bracchi, Candace K Mathiason, and Edward A Hoover

Subjects

Medicine, Science

Abstract

Chronic wasting disease (CWD) continues to spread or be recognized in the United States, Canada, and Europe. CWD is diagnosed by demonstration of the causative misfolded prion protein (PrPCWD) in either brain or lymphoid tissue using immunodetection methods, with immunohistochemistry (IHC) recognized as the gold standard. In recent years, in vitro amplification assays have been developed that can detect CWD prion seeding activity in tissues, excreta, and body fluids of affected cervids. These methods potentially offer earlier and more facile detection of CWD, both pre- and post-mortem. Here we provide a longitudinal profile of CWD infection progression, as assessed by both real-time quaking-induced conversion (RT-QuIC) and IHC on serial biopsies of mucosal lymphoid tissues of white-tailed deer orally exposed to low doses of CWD prions. We report that detection of CWD infection by RT-QuIC preceded that by IHC in both tonsil and recto-anal lymphoid tissue (RAMALT) in 14 of 19 deer (74%). Of the 322 biopsy samples collected in post-exposure longitudinal monitoring, positive RT-QuIC results were obtained for 146 samples, 91 of which (62%) were concurrently also IHC-positive. The lower frequency of IHC positivity was manifest most in the earlier post-exposure periods and in biopsies in which lymphoid follicles were not detected. For all deer in which RT-QuIC seeding activity was detected in a tonsil or RAMALT biopsy, PrPCWD was subsequently or concurrently detected by IHC. Overall, this study (a) provides a longitudinal profile of CWD infection in deer after low yet infectious oral prion exposure; (b) illustrates the value of RT-QuIC for sensitive detection of CWD; and (c) demonstrates an ultimate high degree of correlation between RT-QuIC and IHC positivity as CWD infection progresses.

Published

2020

3. Shedding and stability of CWD prion seeding activity in cervid feces.

Author

Joanne M Tennant, Manci Li, Davin M Henderson, Margaret L Tyer, Nathaniel D Denkers, Nicholas J Haley, Candace K Mathiason, and Edward A Hoover

Subjects

Medicine, Science

Abstract

CWD is an emergent prion disease that now affects cervid species on three continents. CWD is efficiently spread in wild and captive populations, likely through both direct animal contact and environmental contamination. Here, by longitudinally assaying in feces of CWD-exposed white-tailed deer by RT-QuIC, we demonstrate fecal shedding of prion seeding activity months before onset of clinical symptoms and continuing throughout the disease course. We also examine the impact of simulated environmental conditions such as repeated freeze-thaw cycles and desiccation on fecal prion seeding activity. We found that while multiple (n = 7) freeze-thaw cycles substantially decreased fecal seeding activity, desiccation had little to no effect on seeding activity. Finally, we examined whether RT-QuIC testing of landscape fecal deposits could distinguish two premises with substantial known CWD prevalence from one in which no CWD-infected animals had been detected. In the above pilot study, this distinction was possible. We conclude that fecal shedding of CWD prions occurs over much of the disease course, that environmental factors influence prion seeding activity, and that it is feasible to detect fecal prion contamination using RT-QuIC.

Published

2020

4. Very low oral exposure to prions of brain or saliva origin can transmit chronic wasting disease.

Author

Nathaniel D Denkers, Clare E Hoover, Kristen A Davenport, Davin M Henderson, Erin E McNulty, Amy V Nalls, Candace K Mathiason, and Edward A Hoover

Subjects

Medicine, Science

Abstract

The minimum infectious dose required to induce CWD infection in cervids remains unknown, as does whether peripherally shed prions and/or multiple low dose exposures are important factors in CWD transmission. With the goal of better understand CWD infection in nature, we studied oral exposures of deer to very low doses of CWD prions and also examined whether the frequency of exposure or prion source may influence infection and pathogenesis. We orally inoculated white-tailed deer with either single or multiple divided doses of prions of brain or saliva origin and monitored infection by serial longitudinal tissue biopsies spanning over two years. We report that oral exposure to as little as 300 nanograms (ng) of CWD-positive brain or to saliva containing seeding activity equivalent to 300 ng of CWD-positive brain, were sufficient to transmit CWD disease. This was true whether the inoculum was administered as a single bolus or divided as three weekly 100 ng exposures. However, when the 300 ng total dose was apportioned as 10, 30 ng doses delivered over 12 weeks, no infection occurred. While low-dose exposures to prions of brain or saliva origin prolonged the time from inoculation to first detection of infection, once infection was established, we observed no differences in disease pathogenesis. These studies suggest that the CWD minimum infectious dose approximates 100 to 300 ng CWD-positive brain (or saliva equivalent), and that CWD infection appears to conform more with a threshold than a cumulative dose dynamic.

Published

2020

5. Detection of CWD in cervids by RT-QuIC assay of third eyelids.

Author

Sarah K Cooper, Clare E Hoover, Davin M Henderson, Nicholas J Haley, Candace K Mathiason, and Edward A Hoover

Subjects

Medicine, Science

Abstract

The diagnosis of chronic wasting disease (CWD) relies on demonstration of the disease-associated misfolded CWD prion protein (PrPCWD) in brain or retropharyngeal lymph node tissue by immunodetection methods, e.g. ELISA and immunohistochemistry (IHC). The success of these methods relies on a quality sample of tissues, which requires both anatomical knowledge and considerable dissection to collect. As the prevalence of CWD continues to increase globally, the development of fast and cost-effective methods to detect the disease is vital to facilitate CWD detection and surveillance. To address these issues, we have evaluated third eyelids from CWD-infected deer and elk using real-time quaking induced conversion (RT-QuIC). We identified prion seeding activity in third eyelids in 24 of 25 (96%) CWD-infected white-tailed deer (Odocoileus virginianus). We detected RT-QuIC positivity in the third eyelid as early as 1 month after experimental CWD exposure. In addition, we identified prion seeding activity in third eyelids of 18 of 25 (72%) naturally exposed asymptomatic CWD-positive rocky mountain elk (Cervus canadensis nelson). We compared CWD detection by RT-QuIC and IHC in third eyelid, retropharyngeal lymph node, and brain in 10 deer in early symptomatic stage of disease. IHC detected PrPCWD deposition in third eyelid lymphoid follicles in 5 of 10 deer (50%) whereas third eyelids of all 10 animals were positive by RT-QuIC. This difference reflected in part a lower requirement for lymphoid follicle presence for seeding activity detection by RT-QuIC. In conclusion, RT-QuIC analysis of the third eyelid, an easily accessed tissue, has potential to advance CWD detection and testing compliance.

Published

2019

6. Comparison of conventional, amplification and bio-assay detection methods for a chronic wasting disease inoculum pool.

Author

Erin McNulty, Amy V Nalls, Samuel Mellentine, Erin Hughes, Laura Pulscher, Edward A Hoover, and Candace K Mathiason

Subjects

Medicine, Science

Abstract

Longitudinal studies of chronic wasting disease (CWD) in the native host have provided considerable understanding of how this prion disease continues to efficiently spread among cervid species. These studies entail great cost in animal, time and financial support. A variety of methods have emerged including transgenic mouse bioassay, western blot, enzyme-linked immunoassay (ELISA), immunohistochemistry (IHC), serial protein misfolding cyclic amplification (sPMCA) and real time quaking-induced conversion (RT-QuIC), that deepen our understanding of this and other protein misfolding disorders. To further characterize an inoculum source used for ongoing CWD studies and to determine how the readouts from each of these assays compare, we assayed a CWD-positive brain pool homogenate (CBP6) and a mouse dilutional bioassay of this homogenate using the above detection methods. We demonstrate that: (i) amplification assays enhanced detection of amyloid seeding activity in the CWD+ cervid brain pool to levels beyond mouse LD50, (ii) conventional detection methods (IHC and western blot) performed well in identifying the presence of PrPSc in terminal brain tissue yet lack sufficient detection sensitivity to identify all CWD-infected mice, and (iii) the incorporation of amplification assays enhanced detection of CWD-infected mice near the LD50. This cross-platform analysis provides a basis to calibrate the relative sensitivities of CWD detection assays.

Published

2019

7. PrPSc formation and clearance as determinants of prion tropism.

Author

Ronald A Shikiya, Katie A Langenfeld, Thomas E Eckland, Jonathan Trinh, Sara A M Holec, Candace K Mathiason, Anthony E Kincaid, and Jason C Bartz

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Prion strains are characterized by strain-specific differences in neuropathology but can also differ in incubation period, clinical disease, host-range and tissue tropism. The hyper (HY) and drowsy (DY) strains of hamster-adapted transmissible mink encephalopathy (TME) differ in tissue tropism and susceptibility to infection by extraneural routes of infection. Notably, DY TME is not detected in the secondary lymphoreticular system (LRS) tissues of infected hosts regardless of the route of inoculation. We found that similar to the lymphotropic strain HY TME, DY TME crosses mucosal epithelia, enters draining lymphatic vessels in underlying laminae propriae, and is transported to LRS tissues. Since DY TME causes disease once it enters the peripheral nervous system, the restriction in DY TME pathogenesis is due to its inability to establish infection in LRS tissues, not a failure of transport. To determine if LRS tissues can support DY TME formation, we performed protein misfolding cyclic amplification using DY PrPSc as the seed and spleen homogenate as the source of PrPC. We found that the spleen environment can support DY PrPSc formation, although at lower rates compared to lymphotropic strains, suggesting that the failure of DY TME to establish infection in the spleen is not due to the absence of a strain-specific conversion cofactor. Finally, we provide evidence that DY PrPSc is more susceptible to degradation when compared to PrPSc from other lymphotrophic strains. We hypothesize that the relative rates of PrPSc formation and clearance can influence prion tropism.

Published

2017

8. PrPC expression and prion seeding activity in the alimentary tract and lymphoid tissue of deer.

Author

Kristen A Davenport, Clare E Hoover, Jifeng Bian, Glenn C Telling, Candace K Mathiason, and Edward A Hoover

Subjects

Medicine, Science

Abstract

The agent responsible for prion diseases is a misfolded form of a normal protein (PrPC). The prion hypothesis stipulates that PrPC must be present for the disease to manifest. Cervid populations across the world are infected with chronic wasting disease, a horizontally-transmissible prion disease that is likely spread via oral exposure to infectious prions (PrPCWD). Though PrPCWD has been identified in many tissues, there has been little effort to characterize the overall PrPC expression in cervids and its relationship to PrPCWD accumulation. We used immunohistochemistry (IHC), western blot and enzyme-linked immunosorbent assay to describe PrPC expression in naïve white-tailed deer. We used real-time, quaking-induced conversion (RT-QuIC) to detect prion seeding activity in CWD-infected deer. We assessed tissues comprising the alimentary tract, alimentary-associated lymphoid tissue and systemic lymphoid tissue from 5 naïve deer. PrPC was expressed in all tissues, though expression was often very low compared to the level in the CNS. IHC identified specific cell types wherein PrPC expression is very high. To compare the distribution of PrPC to PrPCWD, we examined 5 deer with advanced CWD infection. Using RT-QuIC, we detected prion seeding activity in all 21 tissues. In 3 subclinical deer sacrificed 4 months post-inoculation, we detected PrPCWD consistently in alimentary-associated lymphoid tissue, irregularly in alimentary tract tissues, and not at all in the brain. Contrary to our hypothesis that PrPC levels dictate prion accumulation, PrPC expression was higher in the lower gastrointestinal tissues than in the alimentary-associated lymphoid system and was higher in salivary glands than in the oropharyngeal lymphoid tissue. These data suggest that PrPC expression is not the sole driver of prion accumulation and that alimentary tract tissues accumulate prions before centrifugal spread from the brain occurs.

Published

2017

9. Silent Prions and Covert Prion Transmission.

Author

Candace K Mathiason

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2015

10. In vitro detection of prionemia in TSE-infected cervids and hamsters.

Author

Alan M Elder, Davin M Henderson, Amy V Nalls, Jason M Wilham, Byron W Caughey, Edward A Hoover, Anthony E Kincaid, Jason C Bartz, and Candace K Mathiason

Subjects

Medicine, Science

Abstract

Blood-borne transmission of infectious prions during the symptomatic and asymptomatic stages of disease occurs for both human and animal transmissible spongiform encephalopathies (TSEs). The geographical distribution of the cervid TSE, chronic wasting disease (CWD), continues to spread across North America and the prospective number of individuals harboring an asymptomatic infection of human variant Creutzfeldt-Jakob Disease (vCJD) in the United Kingdom has been projected to be ~1 in 3000 residents. Thus, it is important to monitor cervid and human blood products to ensure herd health and human safety. Current methods for detecting blood-associated prions rely primarily upon bioassay in laboratory animals. While bioassay provides high sensitivity and specificity, it requires many months, animals, and it is costly. Here we report modification of the real time quaking-induced conversion (RT-QuIC) assay to detect blood-borne prions in whole blood from prion-infected preclinical white-tailed deer, muntjac deer, and Syrian hamsters, attaining sensitivity of >90% while maintaining 100% specificity. Our results indicate that RT-QuIC methodology as modified can provide consistent and reliable detection of blood-borne prions in preclinical and symptomatic stages of two animal TSEs, offering promise for prionemia detection in other species, including humans.

Published

2013

11. Rapid antemortem detection of CWD prions in deer saliva.

Author

Davin M Henderson, Matteo Manca, Nicholas J Haley, Nathaniel D Denkers, Amy V Nalls, Candace K Mathiason, Byron Caughey, and Edward A Hoover

Subjects

Medicine, Science

Abstract

Chronic wasting disease (CWD) is an efficiently transmitted prion disease of cervids, now identified in 22 United States, 2 Canadian provinces and Korea. One hallmark of CWD is the shedding of infectious prions in saliva, as demonstrated by bioassay in deer. It is also clear that the concentration of prions in saliva, blood, urine and feces is much lower than in the nervous system or lymphoid tissues. Rapid in vitro detection of CWD (and other) prions in body fluids and excreta has been problematic due to the sensitivity limits of direct assays (western blotting, ELISA) and the presence of inhibitors in these complex biological materials that hamper detection. Here we use real-time quaking induced conversion (RT-QuIC) to demonstrate CWD prions in both diluted and prion-enriched saliva samples from asymptomatic and symptomatic white-tailed deer. CWD prions were detected in 14 of 24 (58.3%) diluted saliva samples from CWD-exposed white-tailed deer, including 9 of 14 asymptomatic animals (64.2%). In addition, a phosphotungstic acid enrichment enhanced the RT-QuIC assay sensitivity, enabling detection in 19 of 24 (79.1%) of the above saliva samples. Bioassay in Tg[CerPrP] mice confirmed the presence of infectious prions in 2 of 2 RT-QuIC-positive saliva samples so examined. The modified RT-QuIC analysis described represents a non-invasive, rapid ante-mortem detection of prions in complex biologic fluids, excreta, or environmental samples as well as a tool for exploring prion trafficking, peripheralization, and dissemination.

Published

2013

12. Mother to offspring transmission of chronic wasting disease in reeves' muntjac deer.

Author

Amy V Nalls, Erin McNulty, Jenny Powers, Davis M Seelig, Clare Hoover, Nicholas J Haley, Jeanette Hayes-Klug, Kelly Anderson, Paula Stewart, Wilfred Goldmann, Edward A Hoover, and Candace K Mathiason

Subjects

Medicine, Science

Abstract

The horizontal transmission of prion diseases has been well characterized in bovine spongiform encephalopathy (BSE), chronic wasting disease (CWD) of deer and elk and scrapie of sheep, and has been regarded as the primary mode of transmission. Few studies have monitored the possibility of vertical transmission occurring within an infected mother during pregnancy. To study the potential for and pathway of vertical transmission of CWD in the native cervid species, we used a small cervid model-the polyestrous breeding, indoor maintainable, Reeves' muntjac deer-and determined that the susceptibility and pathogenesis of CWD in these deer reproduce that in native mule and white-tailed deer. Moreover, we demonstrate here that CWD prions are transmitted from doe to fawn. Maternal CWD infection also appears to result in lower percentage of live birth offspring. In addition, evolving evidence from protein misfolding cyclic amplification (PMCA) assays on fetal tissues suggest that covert prion infection occurs in utero. Overall, our findings demonstrate that transmission of prions from mother to offspring can occur, and may be underestimated for all prion diseases.

Published

2013

13. Detection of sub-clinical CWD infection in conventional test-negative deer long after oral exposure to urine and feces from CWD+ deer.

Author

Nicholas J Haley, Candace K Mathiason, Mark D Zabel, Glenn C Telling, and Edward A Hoover

Subjects

Medicine, Science

Abstract

Chronic wasting disease (CWD) of cervids is a prion disease distinguished by high levels of transmissibility, wherein bodily fluids and excretions are thought to play an important role. Using cervid bioassay and established CWD detection methods, we have previously identified infectious prions in saliva and blood but not urine or feces of CWD+ donors. More recently, we identified very low concentrations of CWD prions in urine of deer by cervid PrP transgenic (Tg[CerPrP]) mouse bioassay and serial protein misfolding cyclic amplification (sPMCA). This finding led us to examine further our initial cervid bioassay experiments using sPMCA.We sought to investigate whether conventional test-negative deer, previously exposed orally to urine and feces from CWD+ sources, may be harboring low level CWD infection not evident in the 19 month observation period. We further attempted to determine the peripheral PrP(CWD) distribution in these animals.Various neural and lymphoid tissues from conventional test-negative deer were reanalyzed for CWD prions by sPMCA and cervid transgenic mouse bioassay in parallel with appropriate tissue-matched positive and negative controls.PrP(CWD) was detected in the tissues of orally exposed deer by both sPMCA and Tg[CerPrP] mouse bioassay; each assay revealed very low levels of CWD prions previously undetectable by western blot, ELISA, or IHC. Serial PMCA analysis of individual tissues identified that obex alone was positive in 4 of 5 urine/feces exposed deer. PrP(CWD) was amplified from both lymphoid and neural tissues of positive control deer but not from identical tissues of negative control deer.Detection of subclinical infection in deer orally exposed to urine and feces (1) suggests that a prolonged subclinical state can exist, necessitating observation periods in excess of two years to detect CWD infection, and (2) illustrates the sensitive and specific application of sPMCA in the diagnosis of low-level prion infection. Based on these results, it is possible that low doses of prions, e.g. following oral exposure to urine and saliva of CWD-infected deer, bypass significant amplification in the LRS, perhaps utilizing a neural conduit between the alimentary tract and CNS, as has been demonstrated in some other prion diseases.

Published

2009

14. Infectious prions in pre-clinical deer and transmission of chronic wasting disease solely by environmental exposure.

Author

Candace K Mathiason, Sheila A Hays, Jenny Powers, Jeanette Hayes-Klug, Julia Langenberg, Sallie J Dahmes, David A Osborn, Karl V Miller, Robert J Warren, Gary L Mason, and Edward A Hoover

Subjects

Medicine, Science

Abstract

Key to understanding the epidemiology and pathogenesis of prion diseases, including chronic wasting disease (CWD) of cervids, is determining the mode of transmission from one individual to another. We have previously reported that saliva and blood from CWD-infected deer contain sufficient infectious prions to transmit disease upon passage into naïve deer. Here we again use bioassays in deer to show that blood and saliva of pre-symptomatic deer contain infectious prions capable of infecting naïve deer and that naïve deer exposed only to environmental fomites from the suites of CWD-infected deer acquired CWD infection after a period of 15 months post initial exposure. These results help to further explain the basis for the facile transmission of CWD, highlight the complexities associated with CWD transmission among cervids in their natural environment, emphasize the potential utility of blood-based testing to detect pre-clinical CWD infection, and could augur similar transmission dynamics in other prion infections.

Published

2009

15. Expression of the cellular prion protein by mast cells in the human carotid body

Author

Gregory D. Sweetland, Connor Eggleston, Jason C. Bartz, Candace K. Mathiason, and Anthony E. Kincaid

Subjects

Cellular and Molecular Neuroscience, Infectious Diseases, Cell Biology, Biochemistry

Published

2023

16. Bluetongue Research at a Crossroads: Modern Genomics Tools Can Pave the Way to New Insights

Author

Jennifer Kopanke, Molly Carpenter, Justin Lee, Kirsten Reed, Case Rodgers, Mollie Burton, Kierra Lovett, Joseph A. Westrich, Erin McNulty, Emily McDermott, Carly Barbera, Sean Cavany, Jason R. Rohr, T. Alex Perkins, Candace K. Mathiason, Mark Stenglein, and Christie Mayo

Subjects

Sheep, General Veterinary, Genetics, Animals, Sheep Diseases, Animal Science and Zoology, Genomics, Ruminants, Bluetongue, Bluetongue virus, Insect Vectors, Biotechnology

Abstract

Bluetongue virus (BTV) is an arthropod-borne, segmented double-stranded RNA virus that can cause severe disease in both wild and domestic ruminants. BTV evolves via several key mechanisms, including the accumulation of mutations over time and the reassortment of genome segments.Additionally, BTV must maintain fitness in two disparate hosts, the insect vector and the ruminant. The specific features of viral adaptation in each host that permit host-switching are poorly characterized. Limited field studies and experimental work have alluded to the presence of these phenomena at work, but our understanding of the factors that drive or constrain BTV's genetic diversification remains incomplete. Current research leveraging novel approaches and whole genome sequencing applications promises to improve our understanding of BTV's evolution, ultimately contributing to the development of better predictive models and management strategies to reduce future impacts of bluetongue epizootics.

Published

2022

17. Longitudinal detection of prion shedding in nasal secretions of CWD-infected white-tailed deer

Author

Caitlyn N. Kraft, Nathaniel D. Denkers, Candace K. Mathiason, and Edward A. Hoover

Subjects

Virology

Abstract

Chronic wasting disease (CWD) is an emergent prion disease spreading in cervid populations in North America, South Korea and Scandinavia. Rapid detection of CWD prions shed by live animals using minimally invasive methods remains an important need. Previous studies in deer, elk and hamsters have demonstrated prion replication in the nasal olfactory mucosa, yet the temporal profile of CWD prion shedding in nasal secretions has not been well characterized. Here we report nasal prion shedding in 18 deer orally exposed to low doses of CWD prions and monitored longitudinally by several parameters. Serially collected nasal swabs were assayed for CWD prion seeding activity using iron oxide magnetic extraction and real-time quaking-induced conversion (IOME RT-QuIC). These findings were correlated with the results from longitudinal tonsil biopsies, terminal tissues and PRNP genotype. We detected nasal prion shedding 3–16 months after the first positive tonsil biopsy in ten of the 18 deer; detectable shedding persisted thereafter in nine of the ten animals. Surprisingly, nasal swabs were negative in eight deer, even though all were CWD-infected as determined by tonsil biopsies and terminal tissue assays. Nasal shedding was detected more often in deer that were homozygous for glycine at codon 96, and those that were near or demonstrating symptoms of clinical disease shed earlier and more frequently, irrespective of prion exposure dose. The results of this study demonstrate nasal shedding of CWD prions that can be detected using minimally invasive nasal swab sampling and RT-QuIC analysis.

Published

2023

18. Novel Use of Chlorine Dioxide Granules as an Alternative to Methyl Bromide Soil Fumigation

Author

Craig Ramsey, Retired – Usda-Aphis, Fort Collins, Colorado , Usa, and Candace K. Mathiason

Subjects

chemistry.chemical_compound, Chlorine dioxide, chemistry, Bromide, Fumigation, complex mixtures, Nuclear chemistry

Abstract

Two greenhouse studies were conducted to evaluate the effectiveness of chlorine dioxide (ClO2) granules as a soil fumigation alternative for methyl bromide. The objective of the first study was to determine the efficacy of chlorine dioxide granules to inactivate Bacillus subtilis spore samples placed in two soils and positioned at two soil depths in soil tubes. The objective of the second study was to measure ClO2 gas concentrations released over multiple days in the two soils. The granules were evenly distributed in the soils with datalogger/sensors positioned at two different locations (headspace and soil matrix). The first study achieved a maximum spore log10 reduction of 4.12 and 5.82 for play sand and mixed soil, respectively, for inoculated samples placed 8 cm deep in the soil tubes with a chlorine dioxide rate of 240 g/tube. There was a 21-fold increase in percent organic matter for the mixed soil when compared to the play sand soil. The increase in organic matter in the mixed soil resulted in a 1.7 log10 reduction decrease due to the absorption of the gas onto the organic matter. In the second study, chlorine dioxide was collected at the bottom of the soil instead of volatilizing into the headspace of the soil tube because it is denser than air. The ClO2 at the bottom of the soil was 3.95x and 3.8x higher than the headspace gas concentration for the mixed and play sand soil, respectively, as averaged over all test runs and periods. Both studies show that the chlorine dioxide granules are a promising alternative to soil fumigation with methyl bromide. Further research is needed to refine the granule formulation release rates and develop more economical application rates.

Published

2020

19. Dogs are resistant to prion infection, due to the presence of aspartic or glutamic acid at position 163 of their prion protein

Author

Jorge M. Charco, Belén Pintado, Miguel A. Pérez-Castro, Manuel Sánchez-Martín, Tomás Mayoral, Hasier Eraña, Joaquín Castilla, Enric Vidal, Martí Pumarola, Montserrat Ordóñez, Natalia Fernández-Borges, Candace K. Mathiason, Beatriz Parra, and Ministerio de Economía y Competitividad (España)

Subjects

0301 basic medicine, Genetically modified mouse, Prions, animal diseases, Bovine spongiform encephalopathy, Glutamic Acid, Scrapie, Biology, Biochemistry, Canine, Transgenic Model, Mice, Plasma Membrane Calcium-Transporting ATPases, 03 medical and health sciences, Dogs, 0302 clinical medicine, Transgenic mouse models, Aspartic acid, Dog, Genetics, medicine, Animals, Asparagine, Molecular Biology, Transmissible spongiform encephalopathy, Prion susceptibility, Transmission barrier, Aspartic Acid, Canids, Brain, Glutamic acid, medicine.disease, Virology, nervous system diseases, Interspecies transmission, 030104 developmental biology, Biological Assay, Prion infection, 030217 neurology & neurosurgery, Biotechnology

Abstract

Unlike other species, prion disease has never been described in dogs even though they were similarly exposed to the bovine spongiform encephalopathy (BSE) agent. This resistance prompted a thorough analysis of the canine PRNP gene and the presence of a negatively charged amino acid residue in position 163 was readily identified as potentially fundamental as it differed from all known susceptible species. In the present study, the first transgenic mouse model expressing dog prion protein (PrP) was generated and challenged intracerebrally with a panel of prion isolates, none of which could infect them. The brains of these mice were subjected to in vitro prion amplification and failed to find even minimal amounts of misfolded prions providing definitive experimental evidence that dogs are resistant to prion disease. Subsequently, a second transgenic model was generated in which aspartic acid in position 163 was substituted for asparagine (the most common in prion susceptible species) resulting in susceptibility to BSE‐derived isolates. These findings strongly support the hypothesis that the amino acid residue at position 163 of canine cellular prion protein (PrPC) is a major determinant of the exceptional resistance of the canidae family to prion infection and establish this as a promising therapeutic target for prion diseases., MINECO/FEDER. Grant Numbers: AGL2015‐65046‐C2‐1‐R, AGL2008‐05296‐C02 Interreg. Grant Number: POCTEFA EFA148/16

Published

2020

20. 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

Male, Wasting Disease, Prions, Infectious Disease Transmission, animal diseases, Reproductive health and childbirth, Neurodegenerative, Microbiology, sPMCA, Article, Rare Diseases, Fetus, Pregnancy, Virology, mother-to-offspring transmission, Vertical, Animals, Chronic, Pregnancy Complications, Infectious, prions, chronic wasting disease, RT-QuIC, fetal tissues, Pediatric, Deer, Infectious, Neurosciences, Transmissible Spongiform Encephalopathy (TSE), Perinatal Period - Conditions Originating in Perinatal Period, West Virginia, QR1-502, Infectious Disease Transmission, Vertical, Brain Disorders, Pregnancy Complications, Fetal Diseases, Infectious Diseases, Emerging Infectious Diseases, Good Health and Well Being, Wasting Disease, Chronic, Female

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

21. Characterization of subclinical ZIKV infection in immune-competent guinea pigs and mice

Author

Rushika Perera, Candace K. Mathiason, Amy V. Nalls, Erin McNulty, Joel Rovnak, Brian D. Foy, Megan R. Miller, Marisa J. Edmonds, and Joseph A. Westrich

Subjects

Male, placenta, Guinea Pigs, fetal transmission, Disease, Biology, Asymptomatic, Zika virus, Pathogenesis, Mice, Fetus, Immune system, Pregnancy, Interferon, Virology, Chlorocebus aethiops, medicine, Animals, Humans, RNA Viruses, Pregnancy Complications, Infectious, Vero Cells, Subclinical infection, Mice, Knockout, Zika Virus Infection, Animal, Transmission (medicine), animal model, Zika Virus, biology.organism_classification, Infectious Disease Transmission, Vertical, Mice, Inbred C57BL, Female, medicine.symptom, medicine.drug

Abstract

An infectious agent’s pathogenic and transmission potential is heavily influenced by early events during the asymptomatic or subclinical phase of disease. During this phase, the presence of infectious agent may be relatively low. An important example of this is Zika virus (ZIKV), which can cross the placenta and infect the foetus, even in mothers with subclinical infections. These subclinical infections represent roughly 80 % of all human infections. Initial ZIKV pathogenesis studies were performed in type I interferon receptor (IFNAR) knockout mice. Blunting the interferon response resulted in robust infectivity, and increased the utility of mice to model ZIKV infections. However, due to the removal of the interferon response, the use of these models impedes full characterization of immune responses to ZIKV-related pathologies. Moreover, IFNAR-deficient models represent severe disease whereas less is known regarding subclinical infections. Investigation of the anti-viral immune response elicited at the maternal-foetal interface is critical to fully understand mechanisms involved in foetal infection, foetal development, and disease processes recognized to occur during subclinical maternal infections. Thus, immunocompetent experimental models that recapitulate natural infections are needed. We have established subclinical intravaginal ZIKV infections in mice and guinea pigs. We found that these infections resulted in: the presence of both ZIKV RNA transcripts and infectious virus in maternal and placental tissues, establishment of foetal infections and ZIKV-mediated CXCL10 expression. These models will aid in discerning the mechanisms of subclinical ZIKV mother-to-offspring transmission, and by extension can be used to investigate other maternal infections that impact foetal development.

Published

2021

22. Creutzfeldt-Jakob disease in pregnancy: the use of modified RT-QuIC to determine infectivity in placental tissues

Author

Collin Luk, Christina D. Orrù, Byron Caughey, Gerard H. Jansen, Valerie L. Sim, Candace K. Mathiason, and Allison Thiele

Subjects

0301 basic medicine, Adult, Amniotic fluid, Prions, Placenta, Creutzfeldt–Jakob disease, Physiology, Autopsy, Case Report, Disease, Biochemistry, Creutzfeldt-Jakob Syndrome, Prion Proteins, prion, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Pregnancy, Report, medicine, Humans, Rt-QuIC, business.industry, Gestational age, Cell Biology, medicine.disease, 030104 developmental biology, Infectious Diseases, medicine.anatomical_structure, Cord blood, Gestation, Biological Assay, Female, vertical transmission, business, 030217 neurology & neurosurgery

Abstract

Sporadic Creutzfeldt–Jakob Disease (sCJD) rarely affects women of childbearing age. There is currently no evidence of vertical transmission. Given the biosafety implications of performing Caesarean sections (C-section) in these patients, we used sensitive real-time quaking-induced conversion (RT-QuIC) assays to test for the infectious prion protein (PrPSc) in products of gestation. A 35-year-old woman with sCJD presented in her 10th gestational week with an eight month history of progressive cognitive impairment. During C-section, amniotic fluid, cord blood and placental tissue were collected and analysed using RT-QuIC protocols adapted for use with these tissues. The patient’s diagnosis of sCJD, MM2 subtype, was confirmed at autopsy. There were borderline positive results in one sampled area of the placenta, but otherwise the cord blood and amniotic fluid were negative on our RT-QuIC assays. A healthy baby was delivered via C-section at 36 weeks and 3 days gestational age, with no evidence of neurological disease to date. We conclude that precautions should be taken with products of gestation, but the level of PrPSc is extremely low.

Published

2021

23. Detection of Chronic Wasting Disease prions in fetal tissues of free-ranging white-tailed deer

Author

MK Keel, Mark G. Ruder, Amy V. Nalls, A Mayfield, Edward A. Hoover, Candace K. Mathiason, JM Crum, and Erin McNulty

Subjects

Saliva, education.field_of_study, Fetus, Transmission (medicine), animal diseases, Population, Physiology, Chronic wasting disease, Biology, medicine.disease, In utero, medicine, Gestation, education, Feces

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 mother-to-offspring transmission may play in the facile transmission of CWD. We asked whether such extensive spread may also be due to mother-to-offspring transmission, perhaps before birth. We thereby focused on a population of 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 6 of 14 in utero harvested fetuses, with 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

24. Ecological Dynamics Impacting Bluetongue Virus Transmission in North America

Author

Mark D. Stenglein, Christie E. Mayo, T. Alex Perkins, Candace K. Mathiason, Molly Carpenter, Justin S. Lee, Kirsten Reed, Jennifer Kopanke, and Emily G McDermott

Subjects

040301 veterinary sciences, Virus transmission, Reassortment, Review, Arbovirus, 0403 veterinary science, 03 medical and health sciences, bluetongue virus, Reassortant Viruses, evolution, medicine, 030304 developmental biology, 0303 health sciences, infectious disease dynamics, lcsh:Veterinary medicine, General Veterinary, business.industry, Ecology, Ecological dynamics, 04 agricultural and veterinary sciences, medicine.disease, Geography, Infectious disease (medical specialty), Enzootic, lcsh:SF600-1100, Veterinary Science, Livestock, epidemiology, ecology, business

Abstract

Bluetongue virus (BTV) is an arbovirus transmitted to domestic and wild ruminants by certain species of Culicoides midges. The disease resulting from infection with BTV is economically important and can influence international trade and movement of livestock, the economics of livestock production, and animal welfare. Recent changes in the epidemiology of Culicoides-transmitted viruses, notably the emergence of exotic BTV genotypes in Europe, have demonstrated the devastating economic consequences of BTV epizootics and the complex nature of transmission across host-vector landscapes. Incursions of novel BTV serotypes into historically enzootic countries or regions, including the southeastern United States (US), Israel, Australia, and South America, have also occurred, suggesting diverse pathways for the transmission of these viruses. The abundance of BTV strains and multiple reassortant viruses circulating in Europe and the US in recent years demonstrates considerable genetic diversity of BTV strains and implies a history of reassortment events within the respective regions. While a great deal of emphasis is rightly placed on understanding the epidemiology and emergence of BTV beyond its natural ecosystem, the ecological contexts in which BTV maintains an enzootic cycle may also be of great significance. This review focuses on describing our current knowledge of ecological factors driving BTV transmission in North America. Information presented in this review can help inform future studies that may elucidate factors that are relevant to longstanding and emerging challenges associated with prevention of this disease.

Published

2020

25. In vitro detection of haematogenous prions in white-tailed deer orally dosed with low concentrations of chronic wasting disease

Author

Erin McNulty, Randy Xun, Nathaniel D. Denkers, Amy V. Nalls, Candace K. Mathiason, and Edward A. Hoover

Subjects

0301 basic medicine, Infectivity, Saliva, Amyloid, animal diseases, 030106 microbiology, Disease, Biology, Chronic wasting disease, medicine.disease, Virology, In vitro, nervous system diseases, Pathogenesis, 03 medical and health sciences, 030104 developmental biology, medicine, Protein Misfolding Cyclic Amplification, Research Article

Abstract

Infectivity associated with prion disease has been demonstrated in blood throughout the course of disease, yet the ability to detect blood-borne prions by in vitro methods remains challenging. We capitalized on longitudinal pathogenesis studies of chronic wasting disease (CWD) conducted in the native host to examine haematogenous prion load by real-time quaking-induced conversion (RT-QuIC) and protein misfolding cyclic amplification. Our study demonstrated in vitro detection of amyloid seeding activity (prions) in buffy-coat cells harvested from deer orally dosed with low concentrations of CWD positive (+) brain (1 gr and 300 ng) or saliva (300 ng RT-QuIC equivalent). These findings make possible the longitudinal assessment of prion disease and deeper investigation of the role haematogenous prions play in prion pathogenesis.

Published

2019

26. Detection of chronic wasting disease prion seeding activity in deer and elk feces by real-time quaking-induced conversion

Author

Candace K. Mathiason, Nicholas J. Haley, Nathaniel D. Denkers, Joanne M. Tennant, Davin M. Henderson, and Edward A. Hoover

Subjects

0301 basic medicine, Amyloid, Prions, Deer, animal diseases, Disease, Biology, Chronic wasting disease, medicine.disease, Virology, Prion Proteins, Feces, 03 medical and health sciences, 030104 developmental biology, medicine, Animals, Wasting Disease, Chronic, Biological Assay, Research Article

Abstract

Chronic wasting disease (CWD) is an emergent prion disease affecting cervid species in North America, Canada, South Korea, and recently, Norway. Detection of CWD has been advanced by techniques that rely on amplification of low levels of prion amyloid to a detectable level. However, the increased sensitivity of amplification assays is often compromised by inhibitors and/or activators in complex biologic samples including body fluids, excreta, or the environment. Here, we adapt real-time quaking-induced conversion conditions to specifically detect CWD prions in fecal samples from both experimentally infected deer and naturally infected elk and estimate environmental contamination. The results have application to detection, surveillance and management of CWD, and potentially to other protein-misfolding diseases.

Published

2017

27. The amino acid residue in position 163 of canine PrPC is critical to the exceptional resistance of dogs to prion infections: evidence from transgenic mouse models

Author

Beatriz Parra, Hasier Eraña, Tomás Mayoral, Manuel Sánchez-Martín, Jorge M. Charco, Candace K. Mathiason, Enric Vidal, Miguel A. Pérez-Castro, Belén Pintado, Martí Pumarola, Joaquín Castilla, Natalia Fernández-Borges, and Montserrat Ordóñez

Subjects

chemistry.chemical_classification, Genetically modified mouse, animal diseases, Bovine spongiform encephalopathy, Scrapie, Chronic wasting disease, Biology, medicine.disease, Virology, nervous system diseases, Transgenic Model, Amino acid, PRNP, chemistry, medicine, Peptide sequence

Abstract

Unlike other species, such as cattle, cats or humans, prion disease has never been described in dogs, even though they were similarly exposed to the bovine spongiform encephalopathy (BSE) agent. This resistance prompted a thorough analysis of the canine PRNP gene and the presence of a negatively charged amino acid residue in position 163 was readily identified as potentially fundamental as it differed from all known susceptible species. Furthermore, recent results from our group demonstrated that mouse PRNP with the dog substitution N158D (mouse equivalent to position 163) rendered mice resistant to prion infection. In the present study, a transgenic mouse model was generated expressing dog prion protein (with glutamic acid at position 163) and challenged intracerebrally with a panel of prion isolates (including cattle BSE, sheep scrapie, atypical sheep scrapie, atypical BSE-L, sheep-BSE and chronic wasting disease, among others) none of which could infect them. The brains of these mice were subjected to in vitro prion amplification and failed to find even minimal amounts of misfolded prions providing definitive experimental evidence that dogs are resistant to prion disease. Subsequently, a second transgenic model was generated in which aspartic acid in position 163 was substituted for asparagine (the most common amino acid in this position in prion susceptible species) and this mutation resulted in susceptibility to BSE-derived isolates.These findings strongly support the hypothesis that the amino acid residue at position 163 of canine PrPC is a major determinant of the exceptional resistance of the canidae family to prion infection and establish this as a promising therapeutic target for prion diseases.AUTHOR SUMMARYCats, cattle, people and dogs were all exposed to mad cow disease but, unlike the other three, dogs never succumbed to the disease. We generated a mouse model expressing canine prion protein (instead of mouse prion protein) to provide experimental evidence that dogs are resistant to prion infection by challenging the mice with a panel of prion isolates. None of the prions could infect our transgenic mice that expressed dog prion protein. When the prion protein amino acid sequence of dogs was compared to that of other susceptible species, one amino acid in a specific position was found to be different to all the prion-susceptible animals. To determine if this amino acid was the one responsible for dogs’ resistance to prions, a second mouse model was generated with the canine prion protein but the critical amino acid was substituted for the one susceptible species have. When this model was challenged with the same panel of prions it could be infected with at least one of them. These results demonstrate the relevance of this amino acid position in determining susceptibility or resistance to prions, and this information can be used to design preventative treatments for prion diseases.

Published

2019

28. Intra-host mathematical model of chronic wasting disease dynamics in deer (Odocoileus)

Author

Michael F. Antolin, Candace K. Mathiason, Nathan L. Galloway, and Karen M. Holcomb

Subjects

0301 basic medicine, Saliva, Diagnostic methods, Prions, animal diseases, 030106 microbiology, Biology, Odocoileus, Biochemistry, sPMCA, Sensitivity and Specificity, prion, 03 medical and health sciences, Cellular and Molecular Neuroscience, Feces, medicine, Bioassay, Animals, western blot, Models, Statistical, Host (biology), chronic wasting disease, Deer, environmental shedding, RT-QuIC, Cell Biology, within-host disease dynamics, Chronic wasting disease, horizontal transmission, medicine.disease, biology.organism_classification, Virology, Research Papers, Highly sensitive, nervous system diseases, Body Fluids, 030104 developmental biology, Infectious Diseases, Wasting Disease, Chronic

Abstract

Bioassays of native cervid hosts have established the presence of infectious chronic wasting disease (CWD) prions in saliva, blood, urine, and feces of clinically diseased and pre-clinical infected deer. The intra-host trafficking of prions from the time of initial infection to shedding has been less well defined. We created a discrete-time compartmentalized model to simulate the misfolding catalysis, trafficking, and shedding of infectious prions throughout the organ systems of CWD-infected cervids. Using parameter values derived from experimental infections of North American deer (Odocoileus spp.), the exponential-based model predicts prion deposition over time with: 1) nervous tissues containing the highest deposition of prions at 20 months post-infection and 2) excreted fluids containing low levels of prions throughout infection with the highest numbers of prions predicted to be shed in saliva and feces (as high as 10 lethal doses (1.34 × 1029 prions) in 11–15 months). These findings are comparable to prion deposition described in literature as assayed by conventional and ultrasensitive amplification assays. The comparison of our model to published data suggests that highly sensitive assays (sPMCA, RT-QuIC, and bioassay) are appropriate for early prion detection in bodily fluids and secretions. The model provides a view of intra-host prion catalysis leading to pre-clinical shedding and provides a framework for continued development of antemortem diagnostic methods.

Published

2016

29. Maternal Influenza A Virus Infection Restricts Fetal and Placental Growth and Adversely Affects the Fetal Thymic Transcriptome

Author

Gerrit J. Bouma, Richard A. Bowen, Jeanette V. Bishop, Vikki M. Abrahams, Thomas R. Hansen, Helle Bielefeldt-Ohmann, Hana Van Campen, Candace K. Mathiason, Christie E. Mayo, and Quinton A Winger

Subjects

Male, 0301 basic medicine, Placenta, growth, lcsh:QR1-502, CD34, Thymus Gland, Biology, medicine.disease_cause, lcsh:Microbiology, Article, Virus, Fetal Development, Andrology, Transcriptome, Mice, 03 medical and health sciences, Influenza A Virus, H1N1 Subtype, 0302 clinical medicine, Pregnancy, thymus, Immunity, Virology, Influenza, Human, Gene expression, Influenza A virus, medicine, Animals, Humans, 030212 general & internal medicine, reproductive and urinary physiology, Fetus, Gene Expression Regulation, Developmental, Mal, immunity, Mice, Inbred C57BL, fetus, 030104 developmental biology, Infectious Diseases, Prenatal Exposure Delayed Effects, embryonic structures, Immunohistochemistry, Female, influenza

Abstract

Maternal influenza A viral infections in humans are associated with low birth weight, increased risk of pre-term birth, stillbirth and congenital defects. To examine the effect of maternal influenza virus infection on placental and fetal growth, pregnant C57BL/6 mice were inoculated intranasally with influenza A virus A/CA/07/2009 pandemic H1N1 or phosphate-buffered saline (PBS) at E3.5, E7.5 or E12.5, and the placentae and fetuses collected and weighed at E18.5. Fetal thymuses were pooled from each litter. Placentae were examined histologically, stained by immunohistochemistry (IHC) for CD34 (hematopoietic progenitor cell antigen) and vascular channels quantified. RNA from E7.5 and E12.5 placentae and E7.5 fetal thymuses was subjected to RNA sequencing and pathway analysis. Placental weights were decreased in litters inoculated with influenza at E3.5 and E7.5. Placentae from E7.5 and E12.5 inoculated litters exhibited decreased labyrinth development and the transmembrane protein 150A gene was upregulated in E7.5 placentae. Fetal weights were decreased in litters inoculated at E7.5 and E12.5 compared to controls. RNA sequencing of E7.5 thymuses indicated that 957 genes were downregulated &ge, 2-fold including Mal, which is associated with Toll-like receptor signaling and T cell differentiation. There were 28 upregulated genes. It is concluded that maternal influenza A virus infection impairs fetal thymic gene expression as well as restricting placental and fetal growth.

Published

2020

30. Very low oral exposure to prions of brain or saliva origin can transmit chronic wasting disease

Author

Davin M. Henderson, Candace K. Mathiason, Edward A. Hoover, Amy V. Nalls, Kristen A. Davenport, Erin McNulty, Nathaniel D. Denkers, and Clare E. Hoover

Subjects

0301 basic medicine, Saliva, Physiology, Biopsy, animal diseases, Disease, Biochemistry, Animal Diseases, Prion Diseases, Pathogenesis, Medical Conditions, Zoonoses, Medicine and Health Sciences, Mammals, Multidisciplinary, medicine.diagnostic_test, Transmission (medicine), Cumulative dose, Infectious dose, Brain, Eukaryota, Ruminants, Tonsils, Body Fluids, Animal Prion Diseases, Infectious Diseases, Vertebrates, Wasting Disease, Chronic, Medicine, Anatomy, Research Article, Prions, Science, 030106 microbiology, Surgical and Invasive Medical Procedures, Throat, 03 medical and health sciences, medicine, Animals, Euthanasia, business.industry, Deer, Organisms, Correction, Biology and Life Sciences, Proteins, Environmental Exposure, Chronic wasting disease, medicine.disease, 030104 developmental biology, Amniotes, business, Zoology, Chronic Wasting Disease, Neck

Abstract

The minimum infectious dose required to induce CWD infection in cervids remains unknown, as does whether peripherally shed prions and/or multiple low dose exposures are important factors in CWD transmission. With the goal of better understand CWD infection in nature, we studied oral exposures of deer to very low doses of CWD prions and also examined whether the frequency of exposure or prion source may influence infection and pathogenesis. We orally inoculated white-tailed deer with either single or multiple divided doses of prions of brain or saliva origin and monitored infection by serial longitudinal tissue biopsies spanning over two years. We report that oral exposure to as little as 300 nanograms (ng) of CWD-positive brain or to saliva containing seeding activity equivalent to 300 ng of CWD-positive brain, were sufficient to transmit CWD disease. This was true whether the inoculum was administered as a single bolus or divided as three weekly 100 ng exposures. However, when the 300 ng total dose was apportioned as 10, 30 ng doses delivered over 12 weeks, no infection occurred. While low-dose exposures to prions of brain or saliva origin prolonged the time from inoculation to first detection of infection, once infection was established, we observed no differences in disease pathogenesis. These studies suggest that the CWD minimum infectious dose approximates 100 to 300 ng CWD-positive brain (or saliva equivalent), and that CWD infection appears to conform more with a threshold than a cumulative dose dynamic.

Published

2020

31. Shedding and stability of CWD prion seeding activity in cervid feces

Author

Nicholas J. Haley, Edward A. Hoover, Candace K. Mathiason, Joanne M. Tennant, Manci Li, Margaret L. Tyer, Nathaniel D. Denkers, and Davin M. Henderson

Subjects

0301 basic medicine, Physiology, Biopsy, animal diseases, Molting, Animal Diseases, Prion Diseases, Feces, Zoonoses, Medicine and Health Sciences, Prevalence, Mammals, Multidisciplinary, Physics, Eukaryota, Ruminants, Condensed Matter Physics, Body Fluids, Animal Prion Diseases, Infectious Diseases, Vertebrates, Physical Sciences, Wasting Disease, Chronic, Medicine, Biological Assay, Seeding, Anatomy, Phase Transitions, Research Article, Prions, Science, 030106 microbiology, Zoology, Surgical and Invasive Medical Procedures, Thawing, Biology, Disease course, 03 medical and health sciences, medicine, Animals, Saliva, Extramural, Deer, Organisms, Rectum, Biology and Life Sciences, Environmental Exposure, Chronic wasting disease, medicine.disease, Gastrointestinal Tract, 030104 developmental biology, Amniotes, Feasibility Studies, Physiological Processes, Desiccation, Chronic Wasting Disease, Digestive System

Abstract

CWD is an emergent prion disease that now affects cervid species on three continents. CWD is efficiently spread in wild and captive populations, likely through both direct animal contact and environmental contamination. Here, by longitudinally assaying in feces of CWD-exposed white-tailed deer by RT-QuIC, we demonstrate fecal shedding of prion seeding activity months before onset of clinical symptoms and continuing throughout the disease course. We also examine the impact of simulated environmental conditions such as repeated freeze-thaw cycles and desiccation on fecal prion seeding activity. We found that while multiple (n = 7) freeze-thaw cycles substantially decreased fecal seeding activity, desiccation had little to no effect on seeding activity. Finally, we examined whether RT-QuIC testing of landscape fecal deposits could distinguish two premises with substantial known CWD prevalence from one in which no CWD-infected animals had been detected. In the above pilot study, this distinction was possible. We conclude that fecal shedding of CWD prions occurs over much of the disease course, that environmental factors influence prion seeding activity, and that it is feasible to detect fecal prion contamination using RT-QuIC.

Published

2020

32. Modified Protein Misfolding Cyclic Amplification Overcomes Real-Time Quaking-Induced Conversion Assay Inhibitors in Deer Saliva To Detect Chronic Wasting Disease Prions

Author

Candace K. Mathiason, Nathaniel D. Denkers, Edward A. Hoover, Kristen A. Davenport, and Clare E. Hoover

Subjects

0301 basic medicine, Microbiology (medical), Protein Folding, Saliva, Prions, animal diseases, Biology, Sensitivity and Specificity, Clinical Veterinary Microbiology, Sonication, 03 medical and health sciences, medicine, Animals, Feces, Transmission (medicine), Deer, Mucin, Mucins, Temperature, Chronic wasting disease, medicine.disease, Virology, 030104 developmental biology, Wasting Disease, Chronic, Protein Misfolding Cyclic Amplification, Biological Assay, Horizontal transmission

Abstract

Chronic wasting disease (CWD), a fatal neurodegenerative prion disease of cervids, has spread across North America and has been detected in The Republic of Korea, Finland, and Norway. CWD appears to spread by horizontal transmission, and prions shed in saliva, feces, and urine are thought to contribute. However, studies investigating the rapid spread of CWD have been hampered by assay inhibitors and a lack of consistent and sensitive means to detect the relatively low levels of prions in these samples. Here we show that saliva frequently contains an inhibitor of the real-time quaking-induced conversion assay (RT-QuIC) and that the inhibitor is a member of the mucin family. To circumvent the inhibitor, we developed a modified protein misfolding cyclic amplification (PMCA) method to amplify CWD prions in saliva that were undetectable or ambiguous by RT-QuIC. Our results reinforce the impact of saliva in horizontal CWD transmission and highlight the importance of detection optimization.

Published

2018

33. Comparative analysis of prions in nervous and lymphoid tissues of chronic wasting disease-infected cervids

Author

Joseph Gallegos, Aru Balachandran, Jifeng Bian, Sehun Kim, Glenn C. Telling, Michael Young, Jeffrey R. Christiansen, Kristen A. Davenport, Candace K. Mathiason, and Edward A. Hoover

Subjects

0301 basic medicine, Genetically modified mouse, Lymphoid Tissue, Prions, animal diseases, Short Communication, Mice, Transgenic, Disease, Odocoileus, 03 medical and health sciences, Mice, Virology, medicine, Disease Transmission, Infectious, Animals, Transmissible spongiform encephalopathy, biology, Transmission (medicine), Deer, Brain, Chronic wasting disease, biology.organism_classification, medicine.disease, nervous system diseases, 030104 developmental biology, Lymphatic system, Wasting Disease, Chronic, Horizontal transmission

Abstract

The prevalence, host range and geographical bounds of chronic wasting disease (CWD), the prion disease of cervids, are expanding. Horizontal transmission likely contributes the majority of new CWD cases, but the mechanism by which prions are transmitted among CWD-affected cervids remains unclear. To address the extent to which prion amplification in peripheral tissues contributes to contagious transmission, we assessed the prion levels in central nervous and lymphoreticular system tissues in white-tailed deer (Odocoileus virginianus), red deer (Cervus elaphus elaphus) and elk (Cervus canadensis). Using real-time quaking-induced conversion, cervid prion cell assay and transgenic mouse bioassay, we found that the retropharyngeal lymph nodes of red deer, white-tailed deer and elk contained similar prion titres to brain from the same individuals. We propose that marked lymphotropism is essential for the horizontal transmission of prion diseases and postulate that shed CWD prions are produced in the periphery.

Published

2018

34. Mucosal immunization with an attenuated Salmonella vaccine partially protects white-tailed deer from chronic wasting disease

Author

Lucía Yim, Veronica Estevez, David R. Brown, Thomas Wisniewski, Fernando Goni, David A. Osborn, Jeanette Hayes-Klug, Karl V. Miller, Candace K. Mathiason, Edward A. Hoover, Kinlung Wong, Amy V. Nalls, Robert J. Warren, Daniel Peyser, Jinfeng Xu, José A. Chabalgoity, and Nathaniel D. Denkers

Subjects

Saliva, Prions, Salmonella Vaccines, animal diseases, Bovine spongiform encephalopathy, Scrapie, Salmonella Vaccine Strain, Biology, Vaccines, Attenuated, Prion Protein, Article, Bovine Spongiform Encephalopathy, Incubation period, Pathogenesis, medicine, Administration, Mucosal, Animals, Vaccines, Synthetic, General Veterinary, General Immunology and Microbiology, Deer, Public Health, Environmental and Occupational Health, Salmonella vaccine, Chronic wasting disease, medicine.disease, Virology, Immunoglobulin A, nervous system diseases, Vaccination, Blood, Infectious Diseases, Mucosal Vaccination, White-Tailed Deer, Immunoglobulin G, Immunology, Wasting Disease, Chronic, Molecular Medicine, Immunization, Chronic Wasting Disease

Abstract

Illustrates the study design of the CWD vaccination experiment. There were five vaccinated white-tailed deer and 6 vehicle controls. Deer were matched for Prnp genotype (95Q/96G/116A/138S/226Q), except two deer in both the control and vaccinated group had the most common polymorphism (∼26% of deer) that confers partial resistance to CWD infection, codon 96 G/S instead of 96 G/G. •We have developed a Salmonella vaccine strain that expresses cervid PrP.•The Salmonella vaccine has been tested in white tailed deer.•The vaccine induced a mucosal and systemic response to cervid PrP and PrPCWD.•Vaccinated deer had partial protection for chronic wasting disease.•This is the first partially effective vaccine for a prion disease. Prion disease is a unique category of illness, affecting both animals and humans, in which the underlying pathogenesis is related to a conformational change of a normal, self-protein called PrPC (C for cellular) to a pathological and infectious conformer known as PrPSc (Sc for scrapie). Bovine spongiform encephalopathy (BSE), a prion disease believed to have arisen from feeding cattle with prion contaminated meat and bone meal products, crossed the species barrier to infect humans. Chronic wasting disease (CWD) infects large numbers of deer and elk, with the potential to infect humans. Currently no prionosis has an effective treatment. Previously, we have demonstrated we could prevent transmission of prions in a proportion of susceptible mice with a mucosal vaccine. In the current study, white-tailed deer were orally inoculated with attenuated Salmonella expressing PrP, while control deer were orally inoculated with vehicle attenuated Salmonella. Once a mucosal response was established, the vaccinated animals were boosted orally and locally by application of polymerized recombinant PrP onto the tonsils and rectal mucosa. The vaccinated and control animals were then challenged orally with CWD-infected brain homogenate. Three years post CWD oral challenge all control deer developed clinical CWD (median survival 602 days), while among the vaccinated there was a significant prolongation of the incubation period (median survival 909 days p=0.012 by Weibull regression analysis) and one deer has remained CWD free both clinically and by RAMALT and tonsil biopsies. This negative vaccinate has the highest titers of IgA in saliva and systemic IgG against PrP. Western blots showed that immunoglobulins from this vaccinate react to PrPCWD. We document the first partially successful vaccination for a prion disease in a species naturally at risk.

Published

2015

35. Quantitative assessment of prion infectivity in tissues and body fluids by real-time quaking-induced conversion

Author

Nicholas J. Haley, Davin M. Henderson, Kristen A. Davenport, Nathaniel D. Denkers, Edward A. Hoover, and Candace K. Mathiason

Subjects

Amyloid, Saliva, Serial dilution, Prions, animal diseases, Urine, Biology, Prion Diseases, Virology, medicine, Animals, Bioassay, Infectivity, Transmissible spongiform encephalopathy, Deer, Brain, Chronic wasting disease, medicine.disease, Body Fluids, TSE Agents, Biochemistry, Wasting Disease, Chronic, Biological Assay, Protein folding

Abstract

Prions are amyloid-forming proteins that cause transmissible spongiform encephalopathies through a process involving the templated conversion of the normal cellular prion protein (PrP(C)) to a pathogenic misfolded conformation. Templated conversion has been modelled in several in vitro assays, including serial protein misfolding amplification, amyloid seeding and real-time quaking-induced conversion (RT-QuIC). As RT-QuIC measures formation of amyloid fibrils in real-time, it can be used to estimate the rate of seeded conversion. Here, we used samples from deer infected with chronic wasting disease (CWD) in RT-QuIC to show that serial dilution of prion seed was linearly related to the rate of amyloid formation over a range of 10(-3) to 10(-8) µg. We then used an amyloid formation rate standard curve derived from a bioassayed reference sample (CWD+ brain homogenate) to estimate the prion seed concentration and infectivity in tissues, body fluids and excreta. Using these methods, we estimated that urine and saliva from CWD-infected deer both contained 1-5 LD50 per 10 ml. Thus, over the 1-2 year course of an infection, a substantial environmental reservoir of CWD prion contamination accumulates.

Published

2015

36. Scrapie, CWD, and Transmissible Mink Encephalopathy

Author

Candace K, Mathiason

Subjects

Zoonoses, Animals, Humans, Wasting Disease, Chronic, Prion Diseases, Scrapie

Abstract

Transmissible spongiform encephalopathies (TSEs), or prions, are neurodegenerative diseases that affect a variety of animal species, including humans. Cruetzfeldt-Jakob disease (CJD) in humans, sheep and goat scrapie, chronic wasting disease (CWD) of cervids, and transmissible mink encephalopathy (TME) of mink are classified as TSEs. According to the "protein-only" hypothesis (Prusiner, 1982)

Published

2017

37. Chronic wasting disease prion infection of differentiated neurospheres

Author

Glenn C. Telling, Candace K. Mathiason, Edward A. Hoover, and Yoshifumi Iwamaru

Subjects

0301 basic medicine, Genetically modified mouse, Prions, animal diseases, Short Communication, 030106 microbiology, Mice, Transgenic, Biology, Biochemistry, 03 medical and health sciences, Cellular and Molecular Neuroscience, Mice, Prion infection, Neurosphere, medicine, Animals, PrPC Proteins, Prion protein, Neurons, Deer, Brain, Cell Differentiation, Cell Biology, Chronic wasting disease, medicine.disease, Virology, In vitro, nervous system diseases, Disease Models, Animal, 030104 developmental biology, Infectious Diseases, Gene Expression Regulation, Cell culture, In vitro system, Wasting Disease, Chronic

Abstract

A possible strategy to develop more diverse cell culture systems permissive to infection with naturally occurring prions is to exploit culture of neurospheres from transgenic mice expressing the normal prion protein (PrP) of the native host species. Accordingly, we developed differentiated neurosphere cultures from the cervid PrP-expressing mice to investigate whether this in vitro system would support replication of non-adapted cervid-origin chronic wasting disease (CWD) prions. Here we report the successful amplification of disease-associated PrP in differentiated neurosphere cultures within 3 weeks after exposure to CWD prions from both white-tailed deer or elk. This neurosphere culture system provides a new in vitro tool that can be used to assess non-adapted CWD prion propagation and transmission.

Published

2017

38. Pathways of Prion Spread during Early Chronic Wasting Disease in Deer

Author

Davin M. Henderson, Nathaniel D. Denkers, Edward A. Hoover, Claudio Soto, Mark D. Zabel, Candace K. Mathiason, Kristen A. Davenport, and Clare E. Hoover

Subjects

0301 basic medicine, Nervous system, Prions, Lymphoid Tissue, animal diseases, 030106 microbiology, Immunology, Blotting, Western, Biology, Microbiology, Prion Proteins, Pathogenesis, 03 medical and health sciences, Virology, medicine, Animals, Transmissible spongiform encephalopathy, Deer, Pharynx, Brain, Chronic wasting disease, medicine.disease, Immunohistochemistry, nervous system diseases, 030104 developmental biology, medicine.anatomical_structure, Lymphatic system, Insect Science, Wasting Disease, Chronic, Terminal Disease

Abstract

Among prion infections, two scenarios of prion spread are generally observed: (i) early lymphoid tissue replication or (ii) direct neuroinvasion without substantial antecedent lymphoid amplification. In nature, cervids are infected with chronic wasting disease (CWD) prions by oral and nasal mucosal exposure, and studies of early CWD pathogenesis have implicated pharyngeal lymphoid tissue as the earliest sites of prion accumulation. However, knowledge of chronological events in prion spread during early infection remains incomplete. To investigate this knowledge gap in early CWD pathogenesis, we exposed white-tailed deer to CWD prions by mucosal routes and performed serial necropsies to assess PrP CWD tissue distribution by real-time quaking-induced conversion (RT-QuIC) and tyramide signal amplification immunohistochemistry (TSA-IHC). Although PrP CWD was not detected by either method in the initial days (1 and 3) postexposure, we observed PrP CWD seeding activity and follicular immunoreactivity in oropharyngeal lymphoid tissues at 1 and 2 months postexposure (MPE). At 3 MPE, PrP CWD replication had expanded to all systemic lymphoid tissues. By 4 MPE, the PrP CWD burden in all lymphoid tissues had increased and approached levels observed in terminal disease, yet there was no evidence of nervous system invasion. These results indicate the first site of CWD prion entry is in the oropharynx, and the initial phase of prion amplification occurs in the oropharyngeal lymphoid tissues followed by rapid dissemination to systemic lymphoid tissues. This lymphoid replication phase appears to precede neuroinvasion. IMPORTANCE Chronic wasting disease (CWD) is a universally fatal transmissible spongiform encephalopathy affecting cervids, and natural infection occurs through oral and nasal mucosal exposure to infectious prions. Terminal disease is characterized by PrP CWD accumulation in the brain and lymphoid tissues of affected animals. However, the initial sites of prion accumulation and pathways of prion spread during early CWD infection remain unknown. To investigate the chronological events of early prion pathogenesis, we exposed deer to CWD prions and monitored the tissue distribution of PrP CWD over the first 4 months of infection. We show CWD uptake occurs in the oropharynx with initial prion replication in the draining oropharyngeal lymphoid tissues, rapidly followed by dissemination to systemic lymphoid tissues without evidence of neuroinvasion. These data highlight the two phases of CWD infection: a robust prion amplification in systemic lymphoid tissues prior to neuroinvasion and establishment of a carrier state.

Published

2017

39. Infectious Prions in the Pregnancy Microenvironment of Chronic Wasting Disease-Infected Reeves' Muntjac Deer

Author

Candace K. Mathiason, Clare E. Hoover, Amy V. Nalls, Edward A. Hoover, Laura Pulscher, and Erin McNulty

Subjects

0301 basic medicine, Amniotic fluid, Offspring, Prions, animal diseases, Immunology, Microbiology, Chemistry Techniques, Analytical, Muntjacs, 03 medical and health sciences, Mice, Pregnancy, Virology, medicine, Animals, Pregnancy Complications, Infectious, Fetus, biology, Transmission (medicine), Animal Structures, Chronic wasting disease, biology.organism_classification, medicine.disease, 030104 developmental biology, Insect Science, Protein Misfolding Cyclic Amplification, Wasting Disease, Chronic, Biological Assay, Female, Muntjac

Abstract

Ample evidence exists for the presence of infectious agents at the maternal-fetal interface, often with grave outcomes to the developing fetus (i.e., Zika virus, brucella, cytomegalovirus, and toxoplasma). While less studied, pregnancy-related transmissible spongiform encephalopathies (TSEs) have been implicated in several species, including humans. Our previous work has shown that prions can be transferred from mother to offspring, resulting in the development of clinical TSE disease in offspring born to muntjac dams infected with chronic wasting disease (CWD) (1). We further demonstrated protein misfolding cyclic amplification (PMCA)-competent prions within the female reproductive tract and in fetal tissues harvested from CWD experimentally and naturally exposed cervids (1, 2). To assess whether the PMCA-competent prions residing at the maternal-fetal interface were infectious and to determine if the real-time quaking-induced conversion (RT-QuIC) methodology may enhance our ability to detect amyloid fibrils within the pregnancy microenvironment, we employed a mouse bioassay and RT-QuIC. In this study, we have demonstrated RT-QuIC seeding activity in uterus, placentome, ovary, and amniotic fluid but not in allantoic fluids harvested from CWD-infected Reeves' muntjac dams showing clinical signs of infection (clinically CWD-infected) and in some placentomes from pre-clinically CWD-infected dams. Prion infectivity was confirmed within the uterus, amniotic fluid, and the placentome, the semipermeable interface that sustains the developing fetus, of CWD-infected dams. This is the first report of prion infectivity within the cervid pregnancy microenvironment, revealing a source of fetal CWD exposure prior to the birthing process, maternal grooming, or encounters with contaminated environments. IMPORTANCE The facile dissemination of chronic wasting disease within captive and free-range cervid populations has led to questions regarding the transmission dynamics of this disease. Direct contact with infected animals and indirect contact with infectious prions in bodily fluids and contaminated environments are suspected to explain the majority of this transmission. A third mode of transmission, from mother to offspring, may be underappreciated. The presence of pregnancy-related prion infectivity within the uterus, amniotic fluid, and the placental structure reveals that the developing fetus is exposed to a source of prions long before exposure to the infectious agent during and after the birthing process or via contact with contaminated environments. These findings have impact on our current concept of CWD disease transmission.

Published

2017

40. Scrapie, CWD, and Transmissible Mink Encephalopathy

Author

Candace K. Mathiason

Subjects

0301 basic medicine, Transmissible mink encephalopathy, biology, animal diseases, Scrapie, Disease, Chronic wasting disease, medicine.disease, Virology, nervous system diseases, 03 medical and health sciences, 030104 developmental biology, biology.animal, mental disorders, medicine, Normal protein, Prion protein, Mink, Animal species

Abstract

Transmissible spongiform encephalopathies (TSEs), or prions, are neurodegenerative diseases that affect a variety of animal species, including humans. Cruetzfeldt-Jakob disease (CJD) in humans, sheep and goat scrapie, chronic wasting disease (CWD) of cervids, and transmissible mink encephalopathy (TME) of mink are classified as TSEs. According to the "protein-only" hypothesis (Prusiner, 1982),1 prions are devoid of nucleic acids and consist of assemblies of misfolded host-encoded normal protein, the prion protein (PrPC). Prion propagation is thought to occur by a templating mechanism during which PrPC is recruited, converted to a disease-associated isoform (PrPD), and assembled onto the growing amyloid fibril. This fibular assembly is infectious, with ability to initiate disease processes similar to other pathogenic agents. Evidence indicates that scrapie, CWD, and TME disease processes follow this rule.

Published

2017

41. Structural effects of PrP polymorphisms on intra- and interspecies prion transmission

Author

Glenn C. Telling, Candace K. Mathiason, Edward A. Hoover, Michael Sheetz, Rachel Angers, Nora Hunter, Hae-Eun Kang, Amy V. Nalls, and Jeffrey R. Christiansen

Subjects

PrPSc Proteins, animal diseases, Transgene, Mutation, Missense, Sheep Diseases, Mice, Transgenic, Biology, Protein Structure, Secondary, Epitope, Serine, Mice, Protein structure, medicine, Animals, Missense mutation, Genetics, Polymorphism, Genetic, Sheep, Multidisciplinary, Deer, Biological Sciences, Chronic wasting disease, medicine.disease, nervous system diseases, Glutamine, Amino Acid Substitution, Wasting Disease, Chronic

Abstract

Understanding the molecular parameters governing prion propagation is crucial for controlling these lethal, proteinaceous, and infectious neurodegenerative diseases. To explore the effects of prion protein (PrP) sequence and structural variations on intra- and interspecies transmission, we integrated studies in deer, a species naturally susceptible to chronic wasting disease (CWD), a burgeoning, contagious epidemic of uncertain origin and zoonotic potential, with structural and transgenic (Tg) mouse modeling and cell-free prion amplification. CWD properties were faithfully maintained in deer following passage through Tg mice expressing cognate PrP, and the influences of naturally occurring PrP polymorphisms on CWD susceptibility were accurately reproduced in Tg mice or cell-free systems. Although Tg mice also recapitulated susceptibility of deer to sheep prions, polymorphisms that provided protection against CWD had distinct and varied influences. Whereas substitutions at residues 95 and 96 in the unstructured region affected CWD propagation, their protective effects were overridden during replication of sheep prions in Tg mice and, in the case of residue 96, deer. The inhibitory effects on sheep prions of glutamate at residue 226 in elk PrP, compared with glutamine in deer PrP, and the protective effects of the phenylalanine for serine substitution at the adjacent residue 225, coincided with structural rearrangements in the globular domain affecting interaction between α-helix 3 and the loop between β2 and α-helix 2. These structure-function analyses are consistent with previous structural investigations and confirm a role for plasticity of this tertiary structural epitope in the control of PrP conversion and strain propagation.

Published

2014

42. Detection of CWD in cervids by RT-QuIC assay of third eyelids

Author

Davin M. Henderson, Sarah K. Cooper, Nicholas J. Haley, Clare E. Hoover, Edward A. Hoover, and Candace K. Mathiason

Subjects

0301 basic medicine, Pathology, animal diseases, Odocoileus, Animal Diseases, Prion Diseases, Retropharyngeal lymph nodes, Zoonoses, Medicine and Health Sciences, Skin, Rocky Mountain elk, Mammals, Lymphoid Follicles, Brain Diseases, Multidisciplinary, biology, Eukaryota, Ruminants, 3. Good health, Animal Prion Diseases, Infectious Diseases, medicine.anatomical_structure, Neurology, Vertebrates, Medicine, Wasting Disease, Chronic, Immunohistochemistry, Biological Assay, Anatomy, Integumentary System, medicine.symptom, Research Article, medicine.medical_specialty, Science, 030106 microbiology, Research and Analysis Methods, Asymptomatic, Lymphatic System, 03 medical and health sciences, Computer Systems, medicine, Animals, Immunohistochemistry Techniques, Third Eyelids, business.industry, Deer, Organisms, Biology and Life Sciences, Eyelids, Chronic wasting disease, biology.organism_classification, medicine.disease, Histochemistry and Cytochemistry Techniques, 030104 developmental biology, Amniotes, Immunologic Techniques, Lymph Nodes, Eyelid, business, Zoology, Chronic Wasting Disease

Abstract

The diagnosis of chronic wasting disease (CWD) relies on demonstration of the disease-associated misfolded CWD prion protein (PrPCWD) in brain or retropharyngeal lymph node tissue by immunodetection methods, e.g. ELISA and immunohistochemistry (IHC). The success of these methods relies on a quality sample of tissues, which requires both anatomical knowledge and considerable dissection to collect. As the prevalence of CWD continues to increase globally, the development of fast and cost-effective methods to detect the disease is vital to facilitate CWD detection and surveillance. To address these issues, we have evaluated third eyelids from CWD-infected deer and elk using real-time quaking induced conversion (RT-QuIC). We identified prion seeding activity in third eyelids in 24 of 25 (96%) CWD-infected white-tailed deer (Odocoileus virginianus). We detected RT-QuIC positivity in the third eyelid as early as 1 month after experimental CWD exposure. In addition, we identified prion seeding activity in third eyelids of 18 of 25 (72%) naturally exposed asymptomatic CWD-positive rocky mountain elk (Cervus canadensis nelson). We compared CWD detection by RT-QuIC and IHC in third eyelid, retropharyngeal lymph node, and brain in 10 deer in early symptomatic stage of disease. IHC detected PrPCWD deposition in third eyelid lymphoid follicles in 5 of 10 deer (50%) whereas third eyelids of all 10 animals were positive by RT-QuIC. This difference reflected in part a lower requirement for lymphoid follicle presence for seeding activity detection by RT-QuIC. In conclusion, RT-QuIC analysis of the third eyelid, an easily accessed tissue, has potential to advance CWD detection and testing compliance.

Published

2019

43. Assessment of the PrPc Amino-Terminal Domain in Prion Species Barriers

Author

Kristen A. Davenport, Candace K. Mathiason, Davin M. Henderson, and Edward A. Hoover

Subjects

0301 basic medicine, Gene isoform, congenital, hereditary, and neonatal diseases and abnormalities, Protein Folding, Amyloid, Prions, Bovine spongiform encephalopathy, animal diseases, Immunology, Scrapie, Biology, Microbiology, Host Specificity, Prion Diseases, 03 medical and health sciences, Chimera (genetics), Virology, mental disorders, medicine, Animals, Humans, PrPC Proteins, Protein Interaction Domains and Motifs, Amino Acid Sequence, chemistry.chemical_classification, Sequence Homology, Amino Acid, Arvicolinae, Deer, Brain, Chronic wasting disease, medicine.disease, biology.organism_classification, Cell biology, Amino acid, nervous system diseases, Bank vole, Encephalopathy, Bovine Spongiform, 030104 developmental biology, chemistry, Insect Science, Wasting Disease, Chronic, Cattle, Disease Susceptibility

Abstract

Chronic wasting disease (CWD) in cervids and bovine spongiform encephalopathy (BSE) in cattle are prion diseases that are caused by the same protein-misfolding mechanism, but they appear to pose different risks to humans. We are interested in understanding the differences between the species barriers of CWD and BSE. We used real-time, quaking-induced conversion (RT-QuIC) to model the central molecular event in prion disease, the templated misfolding of the normal prion protein, PrP c , to a pathogenic, amyloid isoform, scrapie prion protein, PrP Sc . We examined the role of the PrP c amino-terminal domain (N-terminal domain [NTD], amino acids [aa] 23 to 90) in cross-species conversion by comparing the conversion efficiency of various prion seeds in either full-length (aa 23 to 231) or truncated (aa 90 to 231) PrP c . We demonstrate that the presence of white-tailed deer and bovine NTDs hindered seeded conversion of PrP c , but human and bank vole NTDs did the opposite. Additionally, full-length human and bank vole PrP c s were more likely to be converted to amyloid by CWD prions than were their truncated forms. A chimera with replacement of the human NTD by the bovine NTD resembled human PrP c . The requirement for an NTD, but not for the specific human sequence, suggests that the NTD interacts with other regions of the human PrP c to increase promiscuity. These data contribute to the evidence that, in addition to primary sequence, prion species barriers are controlled by interactions of the substrate NTD with the rest of the substrate PrP c molecule. IMPORTANCE We demonstrate that the amino-terminal domain of the normal prion protein, PrP c , hinders seeded conversion of bovine and white-tailed deer PrP c s to the prion forms, but it facilitates conversion of the human and bank vole PrP c s to the prion forms. Additionally, we demonstrate that the amino-terminal domain of human and bank vole PrP c s requires interaction with the rest of the molecule to facilitate conversion by CWD prions. These data suggest that interactions of the amino-terminal domain with the rest of the PrP c molecule play an important role in the susceptibility of humans to CWD prions.

Published

2016

44. PrPSc formation and clearance as determinants of prion tropism

Author

Thomas E. Eckland, Jason C. Bartz, Jonathan Trinh, Anthony E. Kincaid, Ronald A. Shikiya, Candace K. Mathiason, Katie Langenfeld, and Sara A. M. Holec

Subjects

0301 basic medicine, Male, PrPSc Proteins, Pulmonology, Physiology, animal diseases, Biochemistry, Prion Diseases, Animal Diseases, Pathogenesis, Cricetinae, Immune Physiology, Zoonoses, Medicine and Health Sciences, Enzyme Chemistry, lcsh:QH301-705.5, Mammals, biology, Immunohistochemistry, 3. Good health, Animal Prion Diseases, medicine.anatomical_structure, Lymphatic system, Infectious Diseases, Vertebrates, Hamsters, Protein Misfolding Cyclic Amplification, Anatomy, Research Article, lcsh:Immunologic diseases. Allergy, Prions, Immunology, Blotting, Western, Spleen, Microbiology, Rodents, Tropism, Lymphatic System, 03 medical and health sciences, Virology, Genetics, medicine, Animals, Molecular Biology, Transmissible mink encephalopathy, Mesocricetus, Organisms, Biology and Life Sciences, biology.organism_classification, Disease Models, Animal, 030104 developmental biology, lcsh:Biology (General), Amniotes, Respiratory Infections, Tissue tropism, Enzymology, Cofactors (Biochemistry), Parasitology, sense organs, Lymph Nodes, lcsh:RC581-607, Zoology, Organism Development, Developmental Biology

Abstract

Prion strains are characterized by strain-specific differences in neuropathology but can also differ in incubation period, clinical disease, host-range and tissue tropism. The hyper (HY) and drowsy (DY) strains of hamster-adapted transmissible mink encephalopathy (TME) differ in tissue tropism and susceptibility to infection by extraneural routes of infection. Notably, DY TME is not detected in the secondary lymphoreticular system (LRS) tissues of infected hosts regardless of the route of inoculation. We found that similar to the lymphotropic strain HY TME, DY TME crosses mucosal epithelia, enters draining lymphatic vessels in underlying laminae propriae, and is transported to LRS tissues. Since DY TME causes disease once it enters the peripheral nervous system, the restriction in DY TME pathogenesis is due to its inability to establish infection in LRS tissues, not a failure of transport. To determine if LRS tissues can support DY TME formation, we performed protein misfolding cyclic amplification using DY PrPSc as the seed and spleen homogenate as the source of PrPC. We found that the spleen environment can support DY PrPSc formation, although at lower rates compared to lymphotropic strains, suggesting that the failure of DY TME to establish infection in the spleen is not due to the absence of a strain-specific conversion cofactor. Finally, we provide evidence that DY PrPSc is more susceptible to degradation when compared to PrPSc from other lymphotrophic strains. We hypothesize that the relative rates of PrPSc formation and clearance can influence prion tropism., Author summary Strain specific distribution of prions throughout the infected host are observed in both naturally occurring and experimentally induced prion diseases. The distribution of prions in the host can influence prion shedding and transmission (e.g. iatrogenic prion transmission). The mechanism(s) responsible for strain tropism are unknown. Here we show that entry and transport of prions to lymphoid tissue are not influenced by the prion strain. However, we show that lymphotropic prion strains have a higher rate of PrPSc formation and a lower rate of prion degradation compared to a non-lymphotropic prion strain. We hypothesize that the relative rates of PrPSc formation and clearance is one of potentially several mechanisms that can determine prion strain tropism.

Published

2016

45. Detection and Quantification of CWD Prions in Fixed Paraffin Embedded Tissues by Real-Time Quaking-Induced Conversion

Author

Davin M. Henderson, Kristen A. Davenport, Clare E. Hoover, Laura A. Pulscher, Mark D. Zabel, Candace K. Mathiason, and Edward A. Hoover

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Time Factors, Amyloid, Prions, 040301 veterinary sciences, Separate sample, animal diseases, Biology, Sensitivity and Specificity, Article, 0403 veterinary science, 03 medical and health sciences, medicine, Animals, Tissue distribution, Prion protein, Multidisciplinary, Histocytochemistry, 04 agricultural and veterinary sciences, Chronic wasting disease, medicine.disease, Paraffin embedded, 030104 developmental biology, Tissue sections, Wasting Disease, Chronic, Immunohistochemistry

Abstract

Traditional diagnostic detection of chronic wasting disease (CWD) relies on immunodetection of misfolded CWD prion protein (PrPCWD) by western blotting, ELISA, or immunohistochemistry (IHC). These techniques require separate sample collections (frozen and fixed) which may result in discrepancies due to variation in prion tissue distribution and assay sensitivities that limit detection especially in early and subclinical infections. Here, we harness the power of real-time quaking induced conversion (RT-QuIC) to amplify, detect, and quantify prion amyloid seeding activity in fixed paraffin-embedded (FPE) tissue sections. We show that FPE RT-QuIC has greater detection sensitivity than IHC in tissues with low PrPCWD burdens, including those that are IHC-negative. We also employ amyloid formation kinetics to yield a semi-quantitative estimate of prion concentration in a given FPE tissue. We report that FPE RT-QuIC has the ability to enhance diagnostic and investigative detection of disease-associated PrPRES in prion, and potentially other, protein misfolding disease states.

Published

2016

46. Detection of Chronic Wasting Disease Prions in Salivary, Urinary, and Intestinal Tissues of Deer: Potential Mechanisms of Prion Shedding and Transmission

Author

Edward A. Hoover, Scott Carver, Candace K. Mathiason, Glenn C. Telling, Nicholas J. Haley, and Mark D. Zabel

Subjects

Protein Folding, Saliva, Prions, animal diseases, Blotting, Western, Immunology, Mice, Transgenic, Biology, Microbiology, Pathogenesis, Mice, Virology, medicine, Animals, Intestinal Mucosa, Feces, Salivary gland, Deer, Brain, Chronic wasting disease, medicine.disease, Intestines, medicine.anatomical_structure, Excretory system, Insect Science, Wasting Disease, Chronic, Pathogenesis and Immunity, Protein Misfolding Cyclic Amplification, Biological Assay, Horizontal transmission

Abstract

Efficient horizontal transmission is a signature trait of chronic wasting disease (CWD) in cervids. Infectious prions shed into excreta appear to play a key role in this facile transmission, as has been demonstrated by bioassays of cervid and transgenic species and serial protein misfolding cyclic amplification (sPMCA). However, the source(s) of infectious prions in these body fluids has yet to be identified. In the present study, we analyzed tissues proximate to saliva, urine, and fecal production by sPMCA in an attempt to elucidate this unique aspect of CWD pathogenesis. Oropharyngeal, urogenital, and gastrointestinal tissues along with blood and obex from CWD-exposed cervids (comprising 27 animals and >350 individual samples) were analyzed and scored based on the apparent relative CWD burden. PrP CWD -generating activity was detected in a range of tissues and was highest in the salivary gland, urinary bladder, and distal intestinal tract. In the same assays, blood from the same animals and unseeded normal brain homogenate controls ( n = 116 of 117) remained negative. The PrP-converting activity in peripheral tissues varied from 10 −11 - to 10 0 -fold of that found in brain of the same animal. Deer with highest levels of PrP CWD amplification in the brain had higher and more widely disseminated prion amplification in excretory tissues. Interestingly, PrP CWD was not demonstrable in these excretory tissues by conventional Western blotting, suggesting a low prion burden or the presence of protease-sensitive infectious prions destroyed by harsh proteolytic treatments. These findings offer unique insights into the transmission of CWD in particular and prion infection and trafficking overall.

Published

2011

47. Prion Strain Mutation Determined by Prion Protein Conformational Compatibility and Primary Structure

Author

Debbie McKenzie, Catherine Graham, Glenn C. Telling, Jean E. Jewell, Rachel Angers, Claudio Soto, Dana Napier, Aru Balachandran, Tanya Seward, Hae-Eun Kang, Edward A. Hoover, Shawn Browning, Candace K. Mathiason, and Joaquín Castilla

Subjects

Gene isoform, Protein Folding, PrPSc Proteins, Protein Conformation, animal diseases, Transgene, Mice, Transgenic, Biology, Mice, Protein structure, Species Specificity, Serial passage, medicine, Animals, PrPC Proteins, Amino Acid Sequence, Selection, Genetic, Serial Passage, Peptide sequence, Brain Chemistry, Genetics, Multidisciplinary, Deer, Protein primary structure, Brain, Chronic wasting disease, medicine.disease, Virology, Mutation, Wasting Disease, Chronic, Protein folding, Disease Susceptibility

Abstract

CWD Strain Variation So-called prion diseases are fatal neurogenerative disorders that include chronic wasting disease (CWD) found in deer and other cervids. Prion diseases are thought to be caused by infectious proteins (prions) in the absence of associated infectious DNA. Nevertheless, prion strains have been isolated that can mutate in the absence of nucleic acids, and these strain properties control the ability of prions to cross species barriers. Angers et al. (p. 1154 , published online 13 May; see the Perspective by Collinge ) address the issue of strain variation in the context of CWD. Whereas the host range of this contagious disease continues to expand, the prevalence of CWD strains has not been determined. Understanding CWD strain variation may be important in predicting and preventing any future risks to human health.

Published

2010

48. Experimental Chronic Wasting Disease (CWD) in the Ferret

Author

Giuseppe Manco, Christina J. Sigurdson, Markus Glatzel, G.A. Eliason, Terry R. Spraker, Candace K. Mathiason, Michael W. Miller, Matthew R. Perrott, Edward A. Hoover, and Jason C. Bartz

Subjects

Pathology, medicine.medical_specialty, Neuropil, Ataxia, Prions, animal diseases, Biology, Pathology and Forensic Medicine, Incubation period, Basal ganglia, medicine, Animals, Transmissible spongiform encephalopathy, General Veterinary, Deer, Ferrets, Brain, Chronic wasting disease, medicine.disease, Virology, Pons, Survival Rate, Disease Models, Animal, medicine.anatomical_structure, Polyphagia, Wasting Disease, Chronic, medicine.symptom

Abstract

Chronic wasting disease (CWD), a prion disease of North American deer, elk and moose, affects both free-ranging and captive cervids. The potential host range for CWD remains uncertain. The susceptibility of the ferret to CWD was examined experimentally by administering infectious brain material by the intracerebral (IC) or oral (PO) route. Between 15 and 20 months after IC inoculation, ferrets developed neurological signs consistent with prion disease, including polyphagia, somnolence, piloerection, lordosis and ataxia. Upon first sub-passage of ferret-adapted CWD, the incubation period decreased to 5 months. Spongiform change in the neuropil was most marked in the basal ganglia, thalamus, midbrain and pons. The deposition of PrP(CWD) was granular and was occasionally closely associated with, or localized within, neurons. There were no plaque-like or perivascular PrP aggregates as seen in CWD-infected cervids. In western blots, the PrP(CWD) glycoform profile resembled that of CWD in deer, typified by a dominant diglycosylated glycoform. CWD disease in ferrets followed IC but not PO inoculation, even after 31 months of observation. These findings indicate that CWD-infected ferrets share microscopical and biochemical features of CWD in cervids, but appear to be relatively resistant to oral infection by primary CWD inoculum of deer origin.

Published

2008

49. In utero transmission and tissue distribution of chronic wasting disease-associated prions in free-ranging Rocky Mountain elk

Author

Amber Mayfield, Monica Brandhuber, Candace K. Mathiason, Stephenie Fullaway, Mark M. Zabel, Margaret A. Wild, Wilfred Goldmann, Christy A. Wyckoff, Jenny G. Powers, Edward A. Hoover, Amy V. Nalls, and Anca Selariu

Subjects

Central Nervous System, Male, Colorado, Offspring, Prions, animal diseases, Population, Adipose tissue, Animals, Wild, Prion Diseases, Virology, medicine, Animals, Tissue Distribution, education, Rocky Mountain elk, Fetus, education.field_of_study, biology, Deer, Chronic wasting disease, biology.organism_classification, medicine.disease, Infectious Disease Transmission, Vertical, Standard, Protein Misfolding Cyclic Amplification, Immunohistochemistry, Wasting Disease, Chronic, Female

Abstract

The presence of disease-associated prions in tissues and bodily fluids of chronic wasting disease (CWD)-infected cervids has received much investigation, yet little is known about mother-to-offspring transmission of CWD. Our previous work demonstrated that mother-to-offspring transmission is efficient in an experimental setting. To address the question of relevance in a naturally exposed free-ranging population, we assessed maternal and fetal tissues derived from 19 elk dam-calf pairs collected from free-ranging Rocky Mountain elk from north-central Colorado, a known CWD endemic region. Conventional immunohistochemistry identified three of 19 CWD-positive dams, whereas a more sensitive assay [serial protein misfolding cyclic amplification (sPMCA)] detected CWD prion seeding activity (PrPCWD) in 15 of 19 dams. PrPCWD distribution in tissues was widespread, and included the central nervous system (CNS), lymphoreticular system, and reproductive, secretory, excretory and adipose tissues. Interestingly, five of 15 sPMCA-positive dams showed no evidence of PrPCWD in either CNS or lymphoreticular system, sites typically assessed in diagnosing CWD. Analysis of fetal tissues harvested from the 15 sPMCA-positive dams revealed PrPCWD in 80 % of fetuses (12 of 15), regardless of gestational stage. These findings demonstrated that PrPCWD is more abundant in peripheral tissues of CWD-exposed elk than current diagnostic methods suggest, and that transmission of prions from mother to offspring may contribute to the efficient transmission of CWD in naturally exposed cervid populations.

Published

2015

50. Insights into Chronic Wasting Disease and Bovine Spongiform Encephalopathy Species Barriers by Use of Real-Time Conversion

Author

Glenn C. Telling, Candace K. Mathiason, Edward A. Hoover, Jifeng Bian, Davin M. Henderson, and Kristen A. Davenport

Subjects

Amyloid, Prions, Bovine spongiform encephalopathy, animal diseases, Immunology, Biology, Microbiology, Creutzfeldt-Jakob Syndrome, law.invention, Species Specificity, law, Virology, medicine, Animals, Humans, PrPC Proteins, Prion protein, Feline spongiform encephalopathy, Innate immune system, Arvicolinae, Chronic wasting disease, medicine.disease, nervous system diseases, Encephalopathy, Bovine Spongiform, Insect Science, Species barrier, Recombinant DNA, Cats, Wasting Disease, Chronic, Cattle

Abstract

The propensity for transspecies prion transmission is related to the structural characteristics of the enciphering and new host PrP, although the exact mechanism remains incompletely understood. The effects of variability in prion protein on cross-species prion transmission have been studied with animal bioassays, but the influence of prion protein structure versus that of host cofactors (e.g., cellular constituents, trafficking, and innate immune interactions) remains difficult to dissect. To isolate the effects of protein-protein interactions on transspecies conversion, we used recombinant PrP C and real-time quaking-induced conversion (RT-QuIC) and compared chronic wasting disease (CWD) and classical bovine spongiform encephalopathy (cBSE) prions. To assess the impact of transmission to a new species, we studied feline CWD (fCWD) and feline BSE (i.e., feline spongiform encephalopathy [FSE]). We cross-seeded fCWD and FSE into each species' full-length, recombinant PrP C and measured the time required for conversion to the amyloid (PrP Res ) form, which we describe here as the rate of amyloid conversion. These studies revealed the following: (i) CWD and BSE seeded their homologous species' PrP best; (ii) fCWD was a more efficient seed for feline rPrP than for white-tailed deer rPrP; (iii) conversely, FSE more efficiently converted bovine than feline rPrP; (iv) and CWD, fCWD, BSE, and FSE all converted human rPrP, although not as efficiently as homologous sCJD prions. These results suggest that (i) at the level of protein-protein interactions, CWD adapts to a new species more readily than does BSE and (ii) the barrier preventing transmission of CWD to humans may be less robust than estimated. IMPORTANCE We demonstrate that bovine spongiform encephalopathy prions maintain their transspecies conversion characteristics upon passage to cats but that chronic wasting disease prions adapt to the cat and are distinguishable from the original prion. Additionally, we showed that chronic wasting disease prions are effective at seeding the conversion of normal human prion protein to an amyloid conformation, perhaps the first step in crossing the species barrier.

Published

2015