Studies with fragments of the gastrointestinal peptide, motilin, indicate that the C-terminal region of this peptide plays an important role in the desensitization of the motilin receptor (MTLR).
Aim: To verify this hypothesis we studied the desensitization, phosphorylation and internalization induced by motilin analogues of different chain length with agonistic and antagonistic properties in CHO-MTLR cells.
Methods: We studied motilin [1-22], the [1-14] fragment, the analogues Phe(3)[1-22] and Phe(3)[1-14], and two putative antagonists, GM-109 and MA-2029 (modified 1-4 and 1-3 fragments). Activation and desensitization (2h preincubation with the motilin analogues 10muM) were studied in CHO-MTLR cells by an aequorin based luminescence assay. Phosphorylation was studied by immunoprecipitation and internalization was visualized in CHO-MTLR cells containing an enhanced green fluorescent protein (CHO-MTLR-EGFP).
Results: Motilin [1-22] and [1-14] were more potent than Phe(3)[1-22] and Phe(3)[1-14] (pEC(50): 9.77, 8.78, 7.36 and 6.65, respectively) to induce Ca(2+) release. GM-109 and MA-2029 were without agonist activity. [1-22] and Phe(3)[1-22] decreased the second response to motilin from 78+/-2% to 11+/-3% and 34+/-3% (P<0.001), respectively, whereas [1-14], Phe(3)[1-14], GM-109 and MA-2029 had no desensitizing effect (68+/-5%, 78+/-3%, 78+/-6% and 78+/-5%, respectively, P>0.05). The rank order of MTLR-phosphorylation was: [1-22]>[1-14]>Phe(3)[1-22]=Phe(3)[1-14]>GM-109=MA-2029. Only motilin [1-22] and [1-14] induced receptor MTLR-EGFP internalization as shown by a decrease in membrane fluorescence: 20+/-3% and 7+/-3%, respectively.
Conclusion: The C-terminus of motilin enhances desensitization, phosphorylation and internalization of the MTLR while modifications of the N-terminus can favor a conformation of the receptor that is less susceptible to phosphorylation and internalization.