ABSTRACT: Endocytosis of signaling receptors, such as epidermal growth factor receptor (EGFR), tightly controls the signal transduction process triggered by ligand activation of these receptors. To identify new regulators of the endocytic trafficking of EGFR an RNA interference screen was performed for genes involved in ubiquitin conjugation and down-regulation of EGFR. The screen revealed that small interfering RNAs (siRNAs) that target the conserved ubiquitin-binding domain Uev1 increased down-regulation of EGFR. Since these siRNAs simultaneously targeted multiple genes containing a Uev1 domain, we analyzed the role of these gene products by overexpressing individual Uev1-related proteins. This analysis revealed that overexpression of Uev1A (UBE2V1) has no effect on the degradation of EGFR:EGF complexes. In contrast, overexpression of Uev1B (TMEM189-UBE2V1 isoform 2) slowed the degradation of EGF:receptor complexes. The Uev1B protein was found to strongly colocalize and associate with ubiquitin and Hrs in endosomes. Moreover, overexpression of Uev1B abrogated the ability of Hrs to colocalize with EGFR. The B-domain of Uev1B, and not the UEV-domain, was mainly responsible for the observed phenotypes suggesting the presence of a novel endosomal targeting sequence within the B-domain. Together, the data show that elevated levels of Uev1B protein in cells lead to decreased efficiency of endosomal sorting by associating with ubiquitinated proteins and Hrs.