The alpha chain of the AP-2 adaptor is a clathrin binding subunit.

We have utilized a rabbit reticulocyte lysate coupled transcription-translation system to express the large subunits of the clathrin associated protein-2 (AP-2) complex so that their individual functions may be studied separately. Appropriate folding of each subunit into N-terminal core and C-terminal appendage domains was confirmed by limited proteolysis. Translated beta 2 subunit bound to both assembled clathrin cages and immobilized clathrin trimers, confirming and extending earlier studies with preparations obtained by chemical denaturation-renaturation. Translated alpha a exhibited rapid, reversible and specific binding to clathrin cages. As with native AP-2, proteolysis of alpha a bound to clathrin cages released the appendages, while cores were retained. Further digestion revealed a approximately 29-kDa alpha a clathrin-binding fragment that remained tightly cage-associated. Translated alpha a also bound to immobilized clathrin trimers, although with greater sensitivity to increasing pH than the translated beta 2 subunit. Clathrin binding by both the alpha and beta subunits is consistent with a bivalent cross-linking model for lattice assembly (Keen, J. H. (1987) Cell Biol. 105, 1989). It also raises the possibility that the alpha-clathrin interaction may have other consequences, such as modulation of lattice stability or shape, or other alpha functions.