Ricin A-chain cytotoxicity depends on its presentation to the cell membrane

Anti-ricin-A-chain monoclonal antibodies (mAbs) were raised in order to study epitopes of the A-chain involved in the initiation of its transmembrane passage. Five nonoverlapping epitopes were selected by cluster formation using a cross-inhibition assay of mAbs from 172 specific hybridomas. For each cluster, representative high affinity mAbs were selected. These mAbs were disulfide-linked to F(ab')2 fragments of a mAb directed against the CD5 antigen. The cytotoxicity of ricin A-chain bound by affinity through different epitopes to these hybrid mAbs was explored on the CD5-positive CEM cells. Without any enhancer, the hybrids displayed cytotoxicity varying in IC50 within a range of 1-10; in the presence of the enhancer NH4Cl, this variation of activity was maintained ranging from 1 to 20; with the enhancer monensin, the variation of cytotoxicity of hybrids extended over a 1-80-fold range. These differences of cytotoxicity were not correlated with mAb properties such as the inhibition of A-chain enzymatic activity, the A-chain binding affinity, the capacity for releasing A-chain at low pH, or the capacity of hybrids for delivering A-chain on the cell surface. This lack of correlation strongly suggests that the different presentations of A-chain epitopes to the cell membrane may be the essential reason for cytotoxicity variations.