Intracellular trafficking and membrane translocation of pertussis toxin into host cells.

The translocation of the pertussis toxin (PTX) S1 subunit into the cytoplasm of host cells was analysed in CHO cells producing S1 fused to a signal peptide. This protein channelled into the endoplasmic reticulum (ER) by the signal peptide, was found to ADP-ribosylate its target G proteins, suggesting that membrane translocation can occur from the ER and does not require the B oligomer. Similar results were obtained with a C-terminally truncated S1 subunit, indicating that this hydrophobic tail is not involved in the translocation mechanism. We also analysed the activity of two PTX mutants in which the S3 and S2 subunits were substituted for each other. The mutant protein containing two S3 subunits (PTXAS2) presented a decreased binding to fetuin or haptoglobin but higher in vivo activity than the wild-type PTX, suggesting that replacement of S2 by S3 favours the targeting of PTX to the compartment where translocation occurs and/or the dissociation of S1 from the B oligomer, thereby leading to a better translocation of S1 into the cytoplasm.