Close association between clathrin and the hydrophobic domain of boundary membranes in brain endocytic vesicles.

Purified bovine brain clathrin binds readily, in a pH-dependent fashion, to protein-free phospholipid bilayers. The association is tight and leads to inter-bilayer fusion, however, photolabeling studies using the amphiphilic photoreactive glycolipid 12-(4-azido-2-nitrophenoxy)stearoyl[1-14C]glucosamine provide no evidence for direct insertion of clathrin into the central, hydrophobic domain of of these target membranes. In contrast, similar photolabeling studies of isolated, intact clathrin-coated vesicles show that, in these structures, clathrin is readily accessible to a probe which is known to reside preferentially within the hydrophobic domain of the membrane. The results are consistent with a natural requirement, by clathrin, for accessory proteins in order to effect membrane penetration.