Transmission of classical scrapie using lymph node inoculum.

Scrapie is a fatal, transmissible neurodegenerative disease that affects sheep and goats. Replication of PrPSc in the lymphoid tissue allows for the scrapie agent to be shed into the environment. Brain and retropharyngeal lymph node (RPLN) from a sheep inoculated with the classical scrapie agent was used to compare infectivity of these tissues. Nine Cheviot sheep were used in this study, randomly assigned into two groups based on inocula. Group one (n = 4) received 1 mL of 10% brain homogenate and consisted of all VRQ/VRQ PRNP genotypes. Group two (n = 5) had three sheep receive 1 mL of a 10% RPLN homogenate (13-7), and two sheep receive 0.5 mL of a 10% RPLN homogenate (13-7) because of availability. Sheep in group two were also VRQ/VRQ genotyped. Brain and lymph tissues were tested by histopathology, immunohistochemistry, western blot, enzyme immunoassay, and conformational stability for PrPSc accumulation. Both groups displayed clinical signs of ataxia, moribund, head tremors, circling, and lethargy prior to euthanizing at an average of 16.2 mpi (months post inoculation) (group one) or 19.56 mpi (group two). Additionally, brainstem tissue from both groups displayed the same apparent molecular mass by western blot examination. Spongiform lesion profiling and PrPSc accumulation in brain and lymph tissues were similar in both groups. Conformational stability results displayed no significant difference in obex or RPLN tissue. Overall, these data suggest lymph nodes containing the classical scrapie agent are infectious to sheep, aiding in the understanding of sheep scrapie transmission.

Short incubation periods of atypical H-type BSE in cattle with EK211 and KK211 prion protein genotypes after intracranial inoculation.

In 2006, a case of atypical H-type BSE (H-BSE) was found to be associated with a germline mutation in the PRNP gene that resulted in a lysine substitution for glutamic acid at codon 211 (E211K). The E211K amino acid substitution in cattle is analogous to E200K in humans, which is associated with the development of genetic Creutzfeldt-Jakob disease (CJD). In the present study, we aimed to determine the effect of the EK211 prion protein genotype on incubation time in cattle inoculated with the agent of H-BSE; to characterize the molecular profile of H-BSE in KK211 and EK211 genotype cattle; and to assess the influence of serial passage on BSE strain. Eight cattle, representing three PRNP genotype groups (EE211, EK211, and KK211), were intracranially inoculated with the agent of H-BSE originating from either a case in a cow with the EE211 prion protein genotype or a case in a cow with E211K amino acid substitution. All inoculated animals developed clinical disease; post-mortem samples were collected, and prion disease was confirmed through enzyme immunoassay, anti-PrPSc immunohistochemistry, and western blot. Western blot molecular analysis revealed distinct patterns in a steer with KK211 H-BSE compared to EK211 and EE211 cattle. Incubation periods were significantly shorter in cattle with the EK211 and KK211 genotypes compared to the EE211 genotype. Inoculum type did not significantly influence the incubation period. This study demonstrates a shorter incubation period for H-BSE in cattle with the K211 genotype in both the homozygous and heterozygous forms.

Effect of inoculation with prion dilutions within the dynamic range of ELISA absorbance on prion incubation period.

This study examines the effect of various infectious prion titers within the dynamic range as measured by ELISA on incubation period. We inoculated ovinized transgenic mice with seven decreasing dilutions of a fast-incubating scrapie strain. The highest inoculum group was a 20% w/v brain homogenate from a sheep with scrapie. The subsequent six inoculum dilutions ranged from the highest ELISA optical density reading of 4.000 to a dilution where scrapie prions were not detectable by ELISA. Multiple comparison analysis demonstrated variation in the incubation periods between some inoculum groups. Incubation periods were similar between inoculum groups unless their optical density differed by more than ≈2 units of absorbance. These data will inform the interpretation of future studies that compare incubation periods in experimentally inoculated animals for TSE research.

Transmission of Raccoon-Passaged Chronic Wasting Disease Agent to White-Tailed Deer.

The transmission characteristics of prion diseases are influenced by host prion protein sequence and, therefore, the host species. Chronic wasting disease (CWD), a prion disease of cervids, has widespread geographical distribution throughout North America and occurs in both wild and farmed populations. CWD prions contaminate the environment through scattered excrement and decomposing carcasses. Fresh carcasses with CWD prions are accessible by free-ranging mesopredators such as raccoons and may provide a route of exposure. Previous studies demonstrated the susceptibility of raccoons to CWD from white-tailed deer. In this study, we demonstrate that white-tailed deer replicate raccoon-passaged CWD prions which results in clinical disease similar to intraspecies CWD transmission. Six white-tailed deer were oronasally inoculated with brain homogenate from a raccoon with CWD. All six deer developed clinical disease, had widespread lymphoid distribution of misfolded CWD prions (PrPSc), and had neuropathologic lesions with PrPSc accumulation in the brain. The presence of PrPSc was confirmed by immunohistochemistry, enzyme-linked immunoassay, and western blot. The western blot migration pattern of raccoon-passaged CWD was different from white-tailed deer CWD. Transmission of raccoon CWD back to white-tailed deer resulted in an interposed molecular phenotype that was measurably different from white-tailed deer CWD.