The small GTPase Rab5 regulates the early endocytic pathway of transferrin (Tfn), and Rab5 deactivation is required for Tfn recycling. Rab5 deactivation is achieved by RabGAP5, a GTPase-activating protein, on the endosomes. Here we report that recruitment of RabGAP5 is insufficient to deactivate Rab5 and that developmentally regulated GTP-binding protein 2 (DRG2) is required for Rab5 deactivation and Tfn recycling. DRG2 was associated with phosphatidylinositol 3-phosphate-containing endosomes. It colocalized and interacted with EEA1 and Rab5 on endosomes in a phosphatidylinositol 3-kinase-dependent manner. DRG2 depletion did not affect Tfn uptake and recruitment of RabGAP5 and Rac1 to Rab5 endosomes. However, it resulted in impairment of interaction between Rab5 and Rab-GAP5, Rab5 deactivation on endosomes, and Tfn recycling. Ectopic expression of shRNA-resistant DRG2 rescued Tfn recycling in DRG2-depleted cells. Our results demonstrate that DRG2 is an endosomal protein and a key regulator of Rab5 deactivation and Tfn recycling.
INTRODUCTIONIntracellular vesicular trafficking contributes to diverse cellular processes, such as nutrient uptake and cell migration (Mellman, 1996). Small GTPase Rab proteins ensure the delivery of cargoes to their correct destinations by binding to various effectors, such as molecular motors and tethering factors (Stenmark, 2009). Rab5, a wellknown early endosome marker, recruits early endosome antigen 1 (EEA1; Christoforidis et al., 1999a) and regulates fusion and motility of early endosomes (Nielsen et al., 1999). Rab7 plays key roles in biogenesis and maintenance of lysosomes (Bucci et al., 2000) by making endosomes competent for fusion with lysosomes (Rink et al., 2005). Rab11 is the most prominent recycling endosome marker and regulates vesicular recycling to the plasma membrane (Ullrich et al., 1996;Grant and Donaldson, 2009). As cargoes move along endocytic pathways, the transition between early and late or recycling endosomes is mediated by Rab conversion, a process in which cascades of Rab guanine nucleotide exchange factors (GEFs) and Rab GTPase-activating proteins (GAPs) act as key regulators (Hutagalung and Novick, 2011). One well-studied Rab conversion is that from Rab5 to Rab7 as endosomes mature from early endosomes to late endosomes (Rink et al., 2005). Rab5 recruits the SAND-1(Mon1)/CZZ-1 heterodimer, which in turn recruits and activates Rab7 as the endosome matures (Poteryaev et al., 2010). Activated Rab7 recruits Rab5 GAP and facilitates inactivation and removal of Rab5 (Rink et al., 2005). Defects in Rab5 GAP inhibit the Rab5-to-Rab7 conversion and result in accumulation of large vesicles containing both Rab5 and Rab7 (Chotard et al., 2010). In contrast to Rab5-to-Rab7 conversion, little is known about how Rab5-to-Rab11 conversion along the recycling pathway is controlled. Krauss and Haucke, 2007). To confirm the localization of DRG2, we cotransfected MCF7 cells with DRG2 and markers for PIs, including Akt-PH for phosphatidylinositol (3,4,5)-trisphosphat...
