Bovine spongiform encephalopathy: the need for knowledge, balance, patience, and action

ImmunoAT method: An initial assessment for the detection of abnormal isoforms of prion protein in formalin-fixed and paraffin-embedded tissues

The AT-tailing method is a labelling technique that utilises oligo(dA-dT)-dependent signal amplification. In this study, a new immunohistochemical application of the immunoAT method was developed. This method uses an oligo(dA-dT)-conjugated primary antibody (direct immunoAT method) or an oligo(dA-dT)-conjugated secondary antibody (indirect immunoAT method). Fifteen-base oligo(dA-dT)-conjugated antibodies (IgG-ATs) were prepared in advance by conjugating maleimide-activated oligo(dA-dT) to IgG via free sulfhydryl residues that had been introduced on the surface of IgG using Traut's reagent. Following the reaction with the target antigen and the IgG-AT, oligo(dA-dT) was elongated by DeltaTth DNA polymerase in the presence of dATP, dTTP and biotinylated dUTP, consequently labelling the antigen-antibody complex with a large amount of biotin. To initially evaluate the immunoAT method, the presence or absence of prion protein (PrP(sc)) was determined in formalin-fixed and paraffin-embedded sections of the medulla oblongata of cattle which had been under active surveillance for bovine spongiform encephalopathy. Sections were examined using direct and indirect immunoAT methods and the EnVision+ system (Dako) under conditions that were identical except for the differing IgG-AT and AT-tailing methods. PrP(sc) detection was consistent using all three methods. The clearest signals were obtained using the indirect immunoAT method, suggesting significant potential for this method.

"Life, Jim, but not as we know it"? Transmissible dementias and the prion protein

The spongiform encephalopathies are unusual in several respects. Firstly, they are transmissible, and in some cases inheritable. Secondly, variants of these disorders occur in many species and can be transmitted by consumption of infected material; this has led to concern as to the potential risk from eating contaminated animal products. Thirdly, increasing evidence suggests that a 'prion' protein is central to their aetiology and pathogenesis, and that no nucleic acid is involved in the infective process. The role of the prion gene and its protein is outlined and proposed as the basis for an improved classification of the transmissible dementias.