In many cells endosomal vacuoles show clathrin coats of which the function is unknown. Herein, we show that this coat is predominantly present on early endosomes and has a characteristic bilayered appearance in the electron microscope. By immunoelectron miscroscopy we show that the coat contains clathrin heavy as well as light chain, but lacks the adaptor complexes AP1, AP2, and AP3, by which it differs from clathrin coats on endocytic vesicles and recycling endosomes. The coat is insensitive to short incubations with brefeldin A, but disappears in the presence of the phosphatidylinositol 3-kinase inhibitor wortmannin. No association of endosomal coated areas with tracks of tubulin or actin was found. By quantitative immunoelectron microscopy, we found that the lysosomal-targeted receptors for growth hormone (GHR) and epidermal growth factor are concentrated in the coated membrane areas, whereas the recycling transferrin receptor is not. In addition, we found that the proteasomal inhibitor MG 132 induces a redistribution of a truncated GHR (GHR-369) toward recycling vesicles, which coincided with a redistribution of endosomal vacuole-associated GHR-369 to the noncoated areas of the limiting membrane. Together, these data suggest a role for the bilayered clathrin coat on vacuolar endosomes in targeting of proteins to lysosomes.
INTRODUCTIONThe best-documented way of endocytosis is receptor-mediated uptake of ligands via clathrin-coated vesicles (reviewed in Schmid, 1997). Receptors are recruited and concentrated into clathrin-coated pits at the plasma membrane. After coated vesicle formation, the clathrin coat is removed by the concerted action of auxilin and heat shock protein 70 (Ungewickell et al., 1995). The uncoated vesicles fuse with early endosomes (EEs) in a rab5-regulated manner (Rubino et al., 2000). The highly dynamic EE consists of a vacuolar part (also known as sorting endosome) and emerging tubular extensions. The tubulovacuolar organization of EEs reflects their critical role in protein sorting. Receptors destined for degradation in lysosomes, such as epidermal growth factor receptor (EGFR) and growth hormone receptor (GHR), are incorporated into small vesicles in the lumen of the endosomal vacuole, which form by inward budding of the limiting membrane (microautophagy). Recycling receptors, such as the transferrin receptor (TfR) enter the tubular extensions of EEs and recycling endosomes (REs) from where they are routed back to the plasma membrane (Stoorvogel et al., 1987;Hopkins et al., 1994).Despite the progress on the structural and molecular characterization of EEs, little is known about the mechanisms of intraendosomal protein sorting. It has been suggested that sorting occurs in a process of "iterative fractioning" (Dunn et al., 1989). This model, based on recycling receptors of which the ligands are released upon entry in the acidic environment of the sorting endosome, proposes that receptors rapidly and continuously enter the tubular extensions for recycling to the plasma membrane, whereas ...
