In Vitro Microbial Degradation of Abnormal Prions in Central Nervous System from Scrapie Affected Sheep

Abnormal prion protein (PrP super(Sc) is highly resistant to inactivation by conventional chemical and physical means. This study was to determine if microbes from the environment could be used to degrade PrP) super(S)c in central nervous system (CNS) tissues from scrapie positive sheep as measured by Western blot. In the first experiment, the number of microbes in CNS tissue suspended in saline was reduced by autoclaving the suspension at 121 degree C for 5 minutes. Aliquots of this preparation were then inoculated with additional ovine fecal microbes and controls were not inoculated. The results showed that the addition of microbes increased the degradation of PrP super(Sc in specimens during incubation at room temperature (RT) or at 60 degree C, but the reduction was greatest at 60 degree C. In the second experiment, a separate tissue suspension in saline was prepared from CNS tissue from each of 4 scrapie positive sheep and from each of 4 negative sheep. All specimens contained bacteria and after 90 days of incubation at 60 degree C, PrP) super(S)c in CNS specimens was degraded beyond the detection limit in tissues from 2 scrapie positive sheep and was partially degraded in the other two specimens. The tissues from scrapie negative sheep were consistently negative for PrP super(Sc. Analysis of microbial 16S ribosomal DNA indicated that during the 90 day incubation period the microbe population shifted from a predominance of mesophiles to thermophiles, based on guanine-cytosine (GC) content of ribosomal RNA genes. The results in this study suggest that microbes commonly found in sheep carcasses or manure could play a role in the degradation of PrP) super(S)c in CNS tissues during incubation at 60 degree C.