C-terminal half of tetanus toxin fragment C is sufficient for neuronal binding and interaction with a putative protein receptor.

Tetanus neurotoxin (TeNT) is a powerful bacterial protein toxin that cleaves VAMP/synaptobrevin, an essential protein of the synaptic vesicle fusion machinery, and consequently blocks neurotransmission. The extreme neurospecificity of TeNT is determined by the binding of its C-terminal domain (fragment C or H(C)) to neuronal receptors. Whereas polysialogangliosides are known acceptors for the toxin, the existence of additional protein receptors has also been suggested. We have reported previously on a 15 kDa cell-surface glycoprotein that interacts with TeNT in neuronal cell lines and motoneurons [Herreros, Lalli, Montecucco and Schiavo (2000) J. Neurochem., in the press]. Here, on the basis of the structural information provided by the crystallization of fragment C of TeNT, we have expressed its C-and N-terminal halves as recombinant proteins and analysed their binding abilities to rat phaeochromocytoma (PC12) cells differentiated with nerve growth factor. We found that the C-terminal subdomain of the fragment C of TeNT is necessary and sufficient for cell binding and for the interaction with the 15 kDa putative receptor. In contrast, the N-terminal half showed a very poor interaction with the cell surface. These results restrict the binding domain of TeNT to the C-terminal half of the fragment C and highlight the importance of this domain for the neurospecific interaction of the toxin with the synapse. Furthermore, these findings support the use of this portion of TeNT as a neurospecific targeting device, pointing to an involvement of the N-terminal subdomain in later steps of the intoxication pathway.