Two motifs with different function regulate the anterograde transport of the adiponectin receptor 1

The anterograde trafficking of GPCR has been described as a tightly controlled process involving specific amino acid sequences that mediate the receptor transport. In this study, we investigated whether the cell surface delivery of the adiponectin receptor 1, a newly identified class of heptahelix receptors different from G protein-coupled receptors, is regulated. Sequential N-terminal deletion revealed that the export of the AdipoR1 from the endoplasmic reticulum (ER) is controlled by distinct parts of the receptor N-terminus. Strong evidence is provided that the ER exit is mediated by two specific sequences, a F(X)3F(X)3F and a D(X)3LL motif. Disruption of these motifs led to a substantial accumulation of the AdipoR1 in the ER. Mutation of similar motifs in the AdipoR1 C-terminus did not result in aberrant receptor localization, suggesting that these motifs are sequence and position specific to the AdipoR1 N-terminus. Further analysis of the regulation mechanism identified an interaction with the chaperone BiP and additionally, strong evidence is provided that both motifs exert different biological function in the AdipoR1 ER export. In conclusion, our data demonstrate that the receptor transport shares similar ER exit motifs although AdipoR are structurally different from GPCR. However, since even two specific sequences are identified, the anterograde trafficking of the AdipoR1 seems to be regulated in a more complex manner.

► The AdipoR1 N-terminus controls the anterograde transport.
► The ER exit is mediated by two sequences, a F(X)3F(X)3F and a D(X)3LL motif.
► Both motifs are sequence and position specific to the AdipoR1 N-terminus.
► AdipoR and GPCR share similar regulation motifs but distinct mechanisms.