The C-terminal Tail of the M sub(3)-muscarinic Receptor Possesses Anti- apoptotic Properties

This study investigates the mechanisms by which the muscarinic receptor gene family can protect against apoptosis. Chinese hamster ovary cells transfected with human muscarinic receptor subtypes underwent apoptotic cell death following treatment with the DNA-damaging agent etoposide. Apoptosis was significantly reduced following muscarinic receptor stimulation of cells that were transfected with receptor subtypes that couple to the G sub(q/11)/phospholipase C pathway, namely M sub(1), M sub(3), and M sub(5). No protection was detected in cells transfected with the G sub(i)-coupled M sub(2) and M sub(4) receptors. Further analysis of the G sub(q/11)-coupled M sub(3) receptor revealed that truncation of the carboxyl-tail ([Delta]565-M sub(3) mutant) removed the ability of the receptor to protect against etoposide-induced cell death. This mutation did not affect the ability of the receptor to signal through the phospholipase C pathway. Furthermore, activation of the [Delta]565-M sub(3) receptor resulted in robust activation of the extracellular-regulated kinase (ERK) and c-Jun kinase (JNK). The [Delta]565-M sub(3) receptor mutant also underwent agonist-driven phosphorylation in a similar manner to the wild-type receptor indicating that the anti-apoptotic effect of the M sub(3) receptor is independent of receptor phosphorylation. Consistent with this was the fact that two M sub(3)-muscarinic receptor mutants deficient in agonist-induced receptor phosphorylation were capable of producing a full anti-apoptotic response. We conclude that the anti- apoptotic response of the muscarinic receptor family was confined to the G sub(q/11)-coupled members of this family. The direct involvement of G sub(q/11)/phospholipase C signaling and the ERK-1/2 and JNK pathways together with receptor phosphorylation in the anti-apoptotic response were eliminated. Mutation of a poly-basic region within the short C-terminal tail of the M sub(3)- muscarinic receptor inhibited the ability of the receptor to induce an anti- apoptotic response. We conclude that the conserved poly-basic region in the C- terminal tail of the M sub(1), M sub(3), and M sub(5) receptors contributes to the ability of these receptors to mediate protection against apoptotic cell death.