Modification of Heterotrimeric G-Proteins in Swiss 3T3 Cells Stimulated with Pasteurella multocida Toxin

Many bacterial toxins covalently modify components of eukaryotic signalling pathways in a highly specific manner, and can be used as powerful tools to decipher the function of their molecular target(s). The Pasteurella multocida toxin (PMT) mediates its cellular effects through the activation of members of three of the four heterotrimeric G-protein families, G_q, G₁₂ and G_i. PMT has been shown by others to lead to the deamidation of recombinant Gα_i at Gln-205 to inhibit its intrinsic GTPase activity. We have investigated modification of native Gα subunits mediated by PMT in Swiss 3T3 cells using 2-D gel electrophoresis and antibody detection. An acidic change in the isoelectric point was observed for the Gα subunit of the G_q and G_i families following PMT treatment of Swiss 3T3 cells, which is consistent with the deamidation of these Gα subunits. Surprisingly, PMT also induced a similar modification of Gα₁₁, a member of the G_q family of G-proteins that is not activated by PMT. Furthermore, an alkaline change in the isoelectric point of Gα₁₃ was observed following PMT treatment of cells, suggesting differential modification of this Gα subunit by PMT. G_s was not affected by PMT treatment. Prolonged treatment with PMT led to a reduction in membrane-associated Gα_i, but not Gα_q. We also show that PMT inhibits the GTPase activity of G_q.