RAB7 and TSG101 are required for the constitutive recycling of unliganded EGFRs via distinct mechanisms

Abstract

Both constitutive and ligand-mediated membrane trafficking regulate Epidermal Growth Factor Receptor (EGFR) signaling. The constitutive endocytosis and recycling of the unliganded EGFR is a critical determinant of cell surface EGFR expression and the cell’s sensitivity to ligands. We report that two proteins with established roles in trafficking the EGF:EGFR complex to the lysosome also regulate the recycling of the unliganded EGFR. Knock down of either Tumor suppressor gene 101 (TSG101) or RAB7 causes the endosomal accumulation of the inactive, unliganded receptor in morphologically and biochemically distinct organelles. Knock down of TSG101 causes the EGFR to accumulate in low density endosomes whereas RAB7 knock down results in EGFR accumulation in high density endosomes. Knock down of either protein caused the receptor to co-localize primarily with LAMP-1, but not EEA1. These two proteins regulate EGFR slow, perinuclear recycling, via distinct mechanism and are new molecular targets that regulate cell surface EGFR expression.