Abstract
Co-inoculation of prion strains into the same host can result in interference, where replication of one strain hinders the ability of another strain to cause disease. The drowsy (DY) strain of hamster-adapted transmissible mink encephalopathy (TME) extends the incubation period or completely blocks the hyper (HY) strain of TME following intracerebral, intraperitoneal or sciatic nerve routes of inoculation. However, it is not known if the interfering effect of the DY TME agent is exclusive to the HY TME agent by these experimental routes of infection. To address this issue, we show that the DY TME agent can block hamster-adapted chronic wasting disease (HaCWD) and the 263K scrapie agent from causing disease following sciatic nerve inoculation. Additionally, per os inoculation of DY TME agent slightly extends the incubation period of per os superinfected HY TME agent. These studies suggest that prion strain interference can occur by a natural route of infection and may be a more generalized phenomenon of prion strains.
Acknowledgements
We would like to thank Dr. Jean Manson for productive discussions and constructive feedback and Dr. Anthony Kincaid for critical reading of the manuscript. This work was supported by the National Center for Research Resources (P20 RR0115635-6 and C06 RR17417-01), the National Institute for Neurological Disorders and Stroke (R01 NS052609) and the National Prion Research Program (NP020041) to J.C.B.
Figures and Tables
Figure 1 The strain-specific properties of PrPSc correspond to the clinical diagnosis of disease. Western blot analysis of 250 µg brain equivalents of proteinase K digested brain homogenate from prion-infected hamsters following intracerebral (i.c.), sciatic nerve (i.sc.) or per os inoculation with either the HY TME (HY), DY TME (DY), 263K scrapie (263K), hamster-adapted CWD (CWD) agents or mock-infected (UN). The unglycoyslated PrPSc glycoform of HY TME, 263K scrapie and hamster-adapted CWD migrates at 21 kDa. The unglycosylated PrPSc glycoform of DY PrPSc migrates at 19 kDa. Migration of 19 and 21 kDa PrPSc are indicated by the arrows on the left of the figure. n.a., not applicable.
![Figure 1 The strain-specific properties of PrPSc correspond to the clinical diagnosis of disease. Western blot analysis of 250 µg brain equivalents of proteinase K digested brain homogenate from prion-infected hamsters following intracerebral (i.c.), sciatic nerve (i.sc.) or per os inoculation with either the HY TME (HY), DY TME (DY), 263K scrapie (263K), hamster-adapted CWD (CWD) agents or mock-infected (UN). The unglycoyslated PrPSc glycoform of HY TME, 263K scrapie and hamster-adapted CWD migrates at 21 kDa. The unglycosylated PrPSc glycoform of DY PrPSc migrates at 19 kDa. Migration of 19 and 21 kDa PrPSc are indicated by the arrows on the left of the figure. n.a., not applicable.](/cms/asset/96bb2a0a-1def-491d-8e75-2679e5438fca/kprn_a_10906806_f0001.gif)
Table 1 Clinical signs and incubation periods of hamsters inoculated in the sciatic nerve with either the HY TME, HaCWD or 263K scrapie agents, or co-infected with the DY TME agent 120 days prior to superinfection of hamsters with the HY TME, HaCWD or 263K agents
Table 2 Clinical signs and incubation periods of hamsters per os inoculated with either the HY TME or DY TME agent, or per os co-infected with the DY TME agent 60, 90 or 120 days prior to superinfection of hamsters with the HY TME agent
Addendum to: