Abstract
Clathrin-mediated endocytosis requires cargo-specific adaptor proteins that recognize specific receptors and recruit them into coated pits. ARH [also called low-density lipoprotein receptor (LDLR) adaptor protein] serves as an adaptor for LDLR endocytosis in liver. However, ARH is dispensable for LDL uptake by some other cell types. Here, we show that the adaptor Dab2 plays a major role in LDLR internalization in HeLa cells and fibroblasts. Dab2 mediates internalization of LDLRs but not transferrin receptors independently of ARH and the classic clathrin adaptor AP-2. If Dab2 is absent, ARH can mediate LDLR endocytosis, but its action requires AP-2. Furthermore, the rate of LDLR endocytosis is decreased when Dab2 is absent and Dab2, but not ARH, catalyzes the efficient clustering of LDLR into coated pits. Dab2 activity requires its binding to clathrin, LDLR and phospholipids. Dab2 is also involved in moving LDLRs off filopodia. We suggest that Dab2 is a cargo-specific endocytic adaptor protein, stably associating with phospholipids and clathrin to sort LDLR to nascent-coated pits, whereas ARH might accelerate later steps in LDLR endocytosis in cooperation with AP-2.
Highlights
Clathrin-mediated endocytosis (CME) is responsible for the internalization of a wide range of signaling receptors and essential macromolecules
Dab2 activity requires its binding to clathrin, low-density lipoprotein receptor (LDLR) and phospholipids
We suggest that Dab2 is a cargo-specific endocytic adaptor protein, stably associating with phospholipids and clathrin to sort LDLR to nascentcoated pits, whereas ARH might accelerate later steps in LDLR endocytosis in cooperation with AP-2
Summary
Clathrin-mediated endocytosis (CME) is responsible for the internalization of a wide range of signaling receptors and essential macromolecules. Receptors are selected for internalization by adaptor proteins, which recruit their cargo into clathrin-coated pits (CCPs) by binding to clathrin and to internalization signals within the cytoplasmic regions of the receptors. AP-2 binds to phosphatidylinositol (4,5)-bisphosphate [PtdIns(4,5)P2] and to some receptor internalization motifs, such as the Yxx⌽ signal in the transferrin receptor (TfnR), via its 2 subunit (Kirchhausen, 1999). The 2 subunit binds clathrin (Owen et al, 2000) and the ␣ subunit recruits accessory proteins involved in coated-pit invagination and scission (Traub et al, 1999). Different subunits within AP-2 are responsible for binding to cargo and to different components of the endocytosis machinery
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