The interaction with the cytoplasmic loops of rhodopsin plays a crucial role in arrestin activation and binding

The binding of arrestin to rhodopsin is initiated by the interaction of arrestin with the phosphorylated rhodopsin C-terminus and/or the cytoplasmic loops, followed by conformational changes that expose an additional high-affinity site on arrestin. Here we use an arrestin mutant (R175E) that binds similarly to phosphorylated and unphosphorylated, wild-type rhodopsin to identify rhodopsin elements other than C-terminus important for arrestin interaction. R175E-arrestin demonstrated greatly reduced binding to unphosphorylated cytoplasmic loop mutants L72A, N73A, P142A and M143A, suggesting that these residues are crucial for high-affinity binding. Interestingly, when these rhodopsin mutants are phosphorylated, R175E-arrestin binding is less severely affected. This effect of phosphorylation on R175E-arrestin binding highlights the co-operative nature of the multi-site interaction between arrestin and the cytoplasmic loops and C-terminus of rhodopsin. However, a combination of any two mutations disrupts the ability of phosphorylation to enhance binding of R175E-arrestin. N73A, P142A and M143A exhibited accelerated rates of dissociation from wild-type arrestin. Using sensitivity to calpain II as an assay, these cytoplasmic loop mutants also demonstrated reduced ability to induce conformational changes in arrestin that correlated with their reduced ability to bind arrestin. These results suggest that arrestin bound to rhodopsin is in a distinct conformation that is co-ordinately regulated by association with the cytoplasmic loops and the C-terminus of rhodopsin.