Modulation of the arrestin-clathrin interaction in cells. Characterization of beta-arrestin dominant-negative mutants.

We recently demonstrated that nonvisual arrestins interact via a C-terminal binding domain with clathrin and function as adaptor proteins to promote beta2-adrenergic receptor (beta2AR) internalization. Here, we investigated the potential utility of a mini-gene expressing the clathrin-binding domain of beta-arrestin (beta-arrestin (319-418)) to function as a dominant-negative with respect to beta2AR internalization and compared its properties with those of beta-arrestin and beta-arrestin-V53D, a previously reported dominant-negative mutant. In vitro studies demonstrated that beta-arrestin-V53D bound better to clathrin than beta-arrestin but was significantly impaired in its interaction with phosphorylated G protein-coupled receptors. In contrast, whereas beta-arrestin (319-418) also bound well to clathrin it completely lacked receptor binding activity. When coexpressed with the beta2AR in HEK293 cells, beta-arrestin (319-418) effectively inhibited agonist-promoted receptor internalization, whereas beta-arrestin-V53D was only modestly effective. However, both constructs significantly inhibited the stimulation of beta2AR internalization by beta-arrestin in COS-1 cells. Interestingly, immunofluorescence microscopy analysis reveals that both beta-arrestin (319-418) and beta-arrestin-V53D are constitutively localized in clathrin-coated pits in COS-1 cells. These results indicate the potential usefulness of beta-arrestin (319-418) to effectively block arrestin-clathrin interaction in cells and suggest that this construct may prove useful in further defining the mechanisms involved in G protein-coupled receptor trafficking.