| Summary: | Integral membrane proteins are targeted to discrete compartments through the action of a number of transport pathways. The post-translational modification of cargo with ubiquitin is a key regulator of protein sorting. Ubiquitinated cargo are bound by specific cargo sorting machinery and directed towards the appropriate destination. Therefore, the identification and characterization of the proteins involved in cargo ubiquitination is critical to understanding the regulation of protein sorting. In the work presented here, we characterize the role of the E3 ubiquitin ligases, RNF126 and Rabring7, in two distinct membrane trafficking pathways. First, we show that RNF126 and Rabring7 are involved in the ligand induced downregulation of cell surface receptors. RNF126 and Rabring7 associate with the EGFR, amongst other RTKs, and promotes its ubiquitination. RNF126 and Rabring7 are required for the efficient sorting of the EGFR through the late endocytic compartment. We also show that the depletion of Rabring7 attenuates the degradation of MET and that both RNF126 and Rabring7 regulate the sorting of CXCR4 from an early endocytic compartment. In addition, the depletion of RNF126 or Rabring7 destabilizes ESCRT-II and reduces the number of multivesicular bodies formed after EGF stimulation. Second, we found that RNF126 regulates the sorting of the CI-MPR. In cells transiently depleted of RNF126, the CI-MPR is dispersed into a transferrin receptor positive endocytic compartment. This effect is specific to the CI-MPR as other cargos that are sorted between the endosome at the Golgi remain unaffected. We found that RNF126 physically associates with the clathrin adaptor GGA3 and promotes its ubiquitination, suggesting that RNF126 regulates GGA3 mediated CI-MPR sorting. Together, this work furthers our understanding regarding the role of ubiquitin in membrane traffic.
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