Structural basis for the interaction of superantigen with the alternative superantigen-binding receptor p85.

Superantigens are microbial products which bind both to the TCR beta-chain and, with moderate affinity, to MHC class II molecules. Class II-bearing cells bind the superantigen and present the superantigen to T cells expressing certain TCR beta-chain variable region alleles. We have previously reported that the superantigen staphylococcal enterotoxin B (SEB) binds with moderate affinity to the protein p85 expressed on COS-1, an African Green Monkey kidney fibroblast-like cell line. In the present report we carry out a structural analysis to examine the basis for the interaction of superantigen to p85. We show that SEC1, SEC2, and SEC3 also bind to p85 based on inhibition of the binding of radiolabeled SEB. On the other hand, SEA, SED, SEE and toxic shock syndrome toxin-1 do not exhibit detectable binding. In an effort to characterize the structural basis for the SEB binding to p85, we have generated both amino- and carboxy-terminal truncations of SEB expressed as fusion proteins with the maltose-binding protein of Escherichia coli. Our results show that the full-length SEB fusion protein and a truncation missing the 81 amino-terminal amino acids both compete successfully with native SEB for binding. On the other hand, carboxy-terminal truncations in which 19 or 34 residues are deleted both fail to compete for binding. These results are consistent with results which show that monoclonal anti-SEB antibodies specific for carboxy-terminal determinants block SEB binding to p85, but an amino-terminal mAb fails to exhibit any alteration in binding. These results suggest that residues at or near the carboxy-terminus of SEB play a role in binding to p85.