We used replication-deficient adenoviruses overexpressing antisense against G(q) class alpha-subunits to determine the roles of G(q) and G(11) in mediating M(3)-receptor-coupled Ca(2+) mobilization in intact HT29 human colonic carcinoma epithelial cells. Western blot analysis and confocal microscopy showed that the viruses expressing antisense directed against the alpha-subunits of G(q) or G(11) produced isoform-specific reductions in the levels of these alpha-subunits. Fura-2 was used to measure changes in the Ca(2+) response following activation of the M(3) receptors by carbachol. The G(alpha)(q) antisense virus suppressed the peak Ca(2+) response by 70%, whereas the G(alpha)(11) antisense virus reduced it by 34%. We then used co-infection with both viruses to determine the effect of concomitant suppression of both G(alpha)(q) and G(alpha)(11). Overexpression of antisense to both alpha-subunits reduced by approximately 50% the levels of both G(alpha)(q) and G(alpha)(11). It also almost completely inhibited the Ca(2+) response to carbachol. These data show that both G(q) and G(11) are involved in mediating the action of the M(3) receptor on cytosolic Ca(2+) in HT29 cells. Furthermore, they suggest that the coupling of the M(3) receptor to these G proteins is specific, in that G(alpha)(q) cannot substitute for G(alpha)(11), and vice versa.