Regulation of CB1 cannabinoid receptor internalization by a promiscuous phosphorylation-dependent mechanism

Agonists stimulate cannabinoid 1 receptor (CB₁R) internalization. Previous work suggests that the extreme carboxy-terminus of the receptor regulates this internalization – likely through the phosphorylation of serines and threonines clustered within this region. While truncation of the carboxy-terminus (V460Z CB₁) and consequent removal of these putative phosphorylation sites prevents endocytosis in AtT20 cells, the residues necessary for CB₁R internalization remain elusive. To determine the structural requirements for internalization, we evaluated endocytosis of carboxy-terminal mutant CB₁Rs stably expressed in HEK293 cells. In contrast to AtT20 cells, V460Z CB₁R expressed in HEK293 cells internalized to the same extent and with similar kinetics as the wild-type receptor. However, mutation of serine and/or threonine residues within the extreme carboxy-terminal attenuated internalization when these receptors were expressed in HEK293 cells. These results establish that the extreme carboxy-terminal phosphorylation sites are not required for internalization of truncated receptors, but are required for internalization of full-length receptors in HEK293 cells. Analysis of β-arrestin-2 recruitment to mutant CB₁R suggests that putative carboxy-terminal phosphorylation sites mediate β-arrestin-2 translocation. This study indicates that the local cellular environment affects the structural determinants of CB₁R internalization. Additionally, phosphorylation likely regulates the internalization of (full-length) CB₁Rs.