Palmitoylation of cysteine 415 of CB receptor affects ligand-stimulated internalization and selective interaction with membrane cholesterol and caveolin 1.

We previously demonstrated that CB receptor is palmitoylated at cysteine 415, and that such a post-translational modification affects its biological activity. To assess the molecular mechanisms responsible for modulation of CB receptor function by S-palmitoylation, in this study biochemical and morphological approaches were paralleled with computational analyses. Molecular dynamics simulations suggested that this acyl chain stabilizes helix 8 as well as the interaction of CB receptor with membrane cholesterol. In keeping with these in silico data, experimental results showed that the non-palmitoylated CB receptor was unable to interact efficaciously with caveolin 1, independently of its activation state. Moreover, in contrast with the wild-type receptor, the lack of S-palmitoylation in the helix 8 made the mutant CB receptor completely irresponsive to agonist-induced effects in terms of both lipid raft partitioning and receptor internalization. Overall, our results support the notion that palmitoylation of cysteine 415 modulates the conformational state of helix 8 and influences the interactions of CB receptor with cholesterol and caveolin 1, suggesting that the palmitoyl chain may serve as a functional interface for CB receptor localization and function.