Molecular and serological differentiation of staphylococcal exfoliative toxin synthesized under chromosomal and plasmid control

Abstract

Evidence for the existence of two molecular species of exfoliative toxin (ET) synthesized by phage group II Staphylococcus aureus under chromosomal and plasmid control is presented. Serological evidence that these molecular species of toxin are distinct from each other is given. The plasmid-controlled toxin was synthesized along with the chromosomally controlled toxin by the group II UT0002 strain, whereas another group II strain, UT0007, synthesized only the plasmid-controlled toxin. The molecular weight of the plasmid-controlled toxin was slightly less than that of the chromosomally controlled type and could be separated from the latter on 12.5% sodium dodecyl sulfate (SDS)-polyacrylamide slab gels. On 7.5% SDS-polyacrylamide cylindrical gels there was no hint of heterogeneity, and both ETs migrated together as a single homogeneous band. The existence of two serotypes of ET among phage group II strains complicates interpretation of previous work in this field and makes necessary the preparation of two different antigens for radioimmunobinding assays. Discovery of these ET serotypes provided an explanation for previously reported low binding by rabbit hyperimmune serum (B. Wiley, L. Glasgow, and M. Rogolsky, Infect. Immun. 13:513-520, 1976) in the radioimmunobinding test. A molecular species of ET differing from each of the other two serotypes was isolated from cultures of a phage group III S. aureus. This ET produced scalding in suckling mice and was lower in molecular weight than the ET produced under plasmid control by group II strains. Preliminary serological studies indicated that the ET in the group III strain is closely related to or possibly identical to the group II toxin produced under plasmid control.