Identifying transmission of a TSE from one species to another (or from animal to animal within a species) depends on the availability of a test that can distinguish the different strains of TSE.

• to date no in vitro test is capable of distinguishing the various strains of TSE
  • i.e. differentially recognizes the tertiary structure of PrPs
• only the tedious TSE serial passage test has the ability to distinguish the various strains
• as shown in the figure below passaging a TSE into similar but different strains of the same species may result in the diagnosis of different strains when examining the recipient (i.e. the hampsters differ in the development of a TSE)
  • clinical variables (time to onset, pathology, species barrier) depends on:
    • the strain of TSE used for infection (often what is trying to be determined)
    • the species of the donor
    • the genotype of the donor
      • in particular the Sinc/Prnp genotype of the donor
    • the species of the recipient
    • genotype of the recipient
      • in particular the Sinc/Prnp genotype of the donor
    • number of serial passages within the same species
      • the time to onset of the disease is ofter longer after TSE infection from one species to another and shortens with subsequent passaging within the recipient species
      • degree of lesion development or even the presence or absence of PrP resistant to proteinase K will change with serial passaging within the same recipient species
• however upon passaging into isogenic animals of the same species (mice in the figure below) or back into the original donor species, it can be shown that the characteristics of the TSE strain have been maintained (fidelity of passage)

• fidelity of transfer is of considerable concern
• early evidence from serial passaging of TSEs through different species or non-isogenic animals within a species lead to the conclusion that new strains could develop with passaging (see figure below)
  • in the example below, passaging through different strains of hamsters altered the TSE such that subsequent passaging into the same strain of mouse or back into cattle resulted in a new form of TSE
  • although two intermediate speces are shown in the figure below, one may be sufficient to cause the effect
• the current evidence indicates that TSE fidelity is maintained although development of new strains is possible
  • the genotype of the infected animal may alter the phenotype of the disease and presumably the exact folding of PrP^Sc
  • it is possible that an alteration in folding is maintained resulting in a new TSE strain when subsequently passaged

Keep in mind that fidelity of transfer is not the same as alterations in the species barrier, when the species barrier is bypassed the strain of TSE is maintained; loss of fidelity means a new strain of TSE arises independent of changes in the species barrier