Greg Odorizzi scite author profile

The sorting of proteins into the inner vesicles of multivesicular bodies is required for many key cellular processes, which range from the downregulation of activated signalling receptors to the proper stimulation of the immune response. Recent advances in our understanding of the multivesicular-body sorting pathway have resulted from the identification of ubiquitin as a signal for the efficient sorting of proteins into this transport route, and from the discovery of components of the sorting and regulatory machinery that directs this complex process.

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Fab1p PtdIns(3)P 5-Kinase Function Essential for Protein Sorting in the Multivesicular Body

Odorizzi

Babst

Emr

1998

Cell

619

701

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Sorting of signal-transducing cell surface receptors within multivesicular bodies (MVBs) is required for their rapid down-regulation and degradation within lysosomes. Yeast mutants defective in late stages of transport to the vacuole/lysosome accumulate MVBs. We demonstrate that the membrane glycoprotein carboxypeptidase S and the G protein-coupled receptor Ste2p are targeted into the vacuole lumen, and this process requires a subset of VPS gene products essential for normal endosome function. The PtdIns(3)P 5-kinase activity of Fab1p, which converts the product of the Vps34p PtdIns 3-kinase PtdIns(3)P into PtdIns(3,5)P2, also is required for cargo-selective sorting into the vacuole lumen. These findings demonstrate a role for phosphoinositide signaling at distinct stages of vacuolar/lysosomal protein transport and couple PtdIns(3,5)P2 synthesis to regulation of MVB sorting.

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Mammalian Tumor Susceptibility Gene 101 (TSG101) and the Yeast Homologue, Vps23p, Both Function in Late Endosomal Trafficking

Babst

Odorizzi

Estepa

et al. 2000

Traffic

383

390

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The mammalian tumor susceptibility gene tsg101 encodes the homologue of Vps23p, a class E Vps protein essential for normal membrane trafficking in the late endosome/multivesicular body of yeast. Both proteins assemble into large ( 350 kDa) cytosolic protein complexes and we show that the yeast complex contains another class E Vps protein, Vps28p. tsg101 mutant cells exhibit defects in sorting and proteolytic maturation of the lysosomal hydrolase cathepsin D, as well as in the steady-state distribution of the mannose-6-phosphate receptor. Additionally, endocytosed EGF receptors that are normally sorted to the lysosome are instead rapidly recycled back to the cell surface in tsg101 mutant cells. We propose that tsg101 mutant cells are defective in the delivery of cargo proteins to late endosomal compartments. One consequence of this endosomal trafficking defect is the delayed down-regulation/degradation of activated cell surface receptors, resulting in prolonged signaling. This may contribute to the tumorigenic phenotype exhibited by the tsg101 mutant fibroblasts.

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The AP-3 Adaptor Complex Is Essential for Cargo-Selective Transport to the Yeast Vacuole

Cowles

Odorizzi

Payne

et al. 1997

Cell

406

374

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Three distinct adaptor protein (AP) complexes involved in protein trafficking have been identified. AP-1 and AP-2 mediate protein sorting at the trans-Golgi network and plasma membrane, respectively, whereas the function of AP-3 has not been defined. A screen for factors specifically involved in transport of alkaline phosphatase (ALP) from the Golgi to the vacuole/lysosome has identified Ap16p and Ap15p of the yeast AP-3 complex. Deletion of each of the four AP-3 subunits results in selective mislocalization of ALP and the vacuolar t-SNARE, Vam3p (but not CPS and CPY), while deletion of AP-1 and AP-2 subunits has no effect on vacuolar protein delivery. This study, therefore, provides evidence that the AP-3 complex functions in cargo-selective protein transport from the Golgi to the vacuole/lysosome.

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Greg Odorizzi

Receptor downregulation and multivesicular-body sorting

Fab1p PtdIns(3)P 5-Kinase Function Essential for Protein Sorting in the Multivesicular Body

Mammalian Tumor Susceptibility Gene 101 (TSG101) and the Yeast Homologue, Vps23p, Both Function in Late Endosomal Trafficking

The AP-3 Adaptor Complex Is Essential for Cargo-Selective Transport to the Yeast Vacuole

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