24 research outputs found
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Rab5-mediated endosome formation is regulated at the trans-Golgi network
Early endosomes, also called sorting endosomes, are known to mature into late endosomesvia the Rab5-mediated endolysosomal trafficking pathway. Thus, early endosome existence isthought to be maintained by the continual fusion of transport vesicles from the plasmamembrane and thetrans-Golgi network (TGN). Here we show instead that endocytosis isdispensable and post-Golgi vesicle transport is crucial for the formation of endosomes andthe subsequent endolysosomal traffic regulated by yeast Rab5 Vps21p. Fittingly, all threeproteins required for endosomal nucleotide exchange on Vps21p arefirst recruited to theTGN before transport to the endosome, namely the GEF Vps9p and the epsin-relatedadaptors Ent3/5p. The TGN recruitment of these components is distinctly controlled, withVps9p appearing to require the Arf1p GTPase, and the Rab11s, Ypt31p/32p. These resultsprovide a different view of endosome formation and identify the TGN as a critical location forregulating progress through the endolysosomal trafficking pathway
Cofilin Phosphorylation by Protein Kinase Testicular Protein Kinase 1 and Its Role in Integrin-mediated Actin Reorganization and Focal Adhesion Formation
科研費報告書収録論文(課題番号:11480213・基盤研究(B)(2)・H11~H12/研究代表者:水野, 健作/LIMキナーゼによるアクチン細胞骨格の制御機構の解明
Rab5-independent activation and function of yeast Rab7-like protein, Ypt7p, in the AP-3 pathway.
The small GTPases, Rab5 and Rab7, are key regulators at multiple stages of the endocytic/endolysosomal pathway, including fusion and maturation of endosomes. In yeast, Vps21p (Rab5 homolog) recruits a GEF for Rab7 and activates the downstream Ypt7p (Rab7 homolog) on endosomal membrane. Although the model of this sequential activation from Vps21p to Ypt7p in the endocytic pathway has been established, activation mechanism of Ypt7p in the Vps21p-independent pathway has not been completely clarified. Here we show that Ypt7p is activated and mediates vacuolar fusion in cells lacking all yeast Rab5 genes, VPS21, YPT52, and YPT53. We also demonstrate that deletion of both VPS21 and YPT7 genes cause severe defect in the AP-3 pathway as well as the CPY pathway although the AP-3 pathway is mostly intact in each vps21Δ or ypt7Δ mutant. Interestingly, in vps21Δ ypt7Δ mutant cargos trafficked via the VPS or endocytic pathway accumulate beside nucleus whereas cargo trafficked via the AP-3 pathway disperse in the cytosol. These findings suggest that Ypt7p is activated and plays a Rab5-independent role in the AP-3-mediated pathway
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Distinct role of TGN-resident clathrin adaptors for Rab5 activation in the TGN-endosome trafficking pathway
Clathrin-mediated vesicle trafficking plays central roles in the post-Golgi transport pathways from the trans -Golgi network (TGN) to endosomes. In yeast, two clathrin adaptors – AP-1 complex and GGA proteins (GGAs) – are predicted to generate distinct transport vesicles at the TGN, and epsin-related Ent3p/Ent5p act as accessories for these adaptors. Recently, we showed that vesicle transport from the TGN, rather than from the plasma membrane, is crucial for Rab5-mediated endosome formation, and that Ent3p/5p are crucial for this process, whereas AP-1 and GGAs are dispensable. However, these observations were incompatible with previous studies showing that these adaptors are required for Ent3p/5p recruitment to the TGN, and thus the overall mechanism responsible for regulation of Rab5 activity remains ambiguous. Here we investigated the functional relationships between clathrin adaptors in post-Golgi-mediated Rab5 activation. We were able to show that AP-1 disruption in ent3 Δ/ 5 Δ mutant impairs Rab5-GEF Vps9p transport to the Rab5 compartment, and severely reduces Rab5 activity. Additionally, GGAs, Golgi-resident PI4 kinase Pik1p and Rab11 GTPases Ypt31p/32p were found to have partially overlapping functions for recruitment of AP-1 and Ent3p/5p to the TGN. These findings suggest a distinct role of clathrin adaptors for Rab5 activation in the TGN-endosome trafficking pathway