Jens Lachmann scite author profile

† These authors contributed equally to this work.Within the endomembrane system of eukaryotic cells, multisubunit tethering complexes together with their corresponding Rab-GTPases coordinate vesicle tethering and fusion. Here, we present evidence that two homologous hexameric tethering complexes, the endosomal CORVET (Class C core vacuole/endosome transport) and the vacuolar HOPS (homotypic vacuole fusion and protein sorting) complex, have similar subunit topologies. Both complexes contain two Rab-binding proteins at one end, and the Sec1/Munc18-like Vps33 at the opposite side, suggesting a model on membrane bridging via Rab-GTP and SNARE binding. In agreement, HOPS activity can be reconstituted using purified subcomplexes containing the Rab and Vps33 module, but requires all six subunits for activity. At the center of HOPS and CORVET, the class C proteins Vps11 and Vps18 connect the two parts, and Vps11 binds both HOPS Vps39 and CORVET Vps3 via the same binding site. As HOPS Vps39 is also found at endosomes, our data thus suggest that these tethering complexes follow defined but distinct assembly pathways, and may undergo transition by simple subunit interchange.

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The CORVET complex promotes tethering and fusion of Rab5/Vps21-positive membranes

Balderhaar

Lachmann

Yavavli

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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Membrane fusion along the endocytic pathway occurs in a sequence of tethering, docking, and fusion. At endosomes and vacuoles, the CORVET (class C core vacuole/endosome tethering) and HOPS (homotypic fusion and vacuole protein sorting) tethering complexes require their organelle-specific Rabs for localization and function. Until now, despite the absence of experimental evidence, it has been assumed that CORVET is a membrane-tethering factor. To test this theory and understand the mechanistic analogies with the HOPS complex, we set up an in vitro system, and establish CORVET as a bona-fide tether for Vps21-positive endosome/vacuole membranes. Purified CORVET binds to SNAREs and Rab5/Vps21-GTP. We then demonstrate that purified CORVET can specifically tether Vps21-positive membranes. Tethering via CORVET is dose-dependent, stimulated by the GEF Vps9, and inhibited by Msb3, the Vps21-GAP. Moreover, CORVET supports fusion of isolated membranes containing Vps21. In agreement with its role as a tether, overexpressed CORVET drives Vps21, but not the HOPS-specific Ypt7 into contact sites between vacuoles, which likely represent vacuole-associated endosomes. We therefore conclude that CORVET is a tethering complex that promotes fusion of Rab5-positive membranes and thus facilitates receptor down-regulation and recycling at the late endosome.endolysosomal system | Rab GTPase

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Functional Separation of Endosomal Fusion Factors and the Class C Core Vacuole/Endosome Tethering (CORVET) Complex in Endosome Biogenesis

Cabrera

Arlt

Epp

et al. 2013

Journal of Biological Chemistry

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Background:The interdependence of the endosomal fusion factors CORVET and Vac1 has not been addressed. Results: CORVET can be separated from other endocytic fusion factors on the basis of ultrastructure, localization, and trafficking. Conclusion: CORVET acts independently of the Vac1 tether and requires activated Rab5 homologs for localization. Significance: Our data reveal a unique role of CORVET in sorting of biosynthetic cargo to the vacuole.

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The Msb3/Gyp3 GAP controls the activity of the Rab GTPases Vps21 and Ypt7 at endosomes and vacuoles

Lachmann

Barr

Ungermann

2012

MBoC

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Hypomyelination and developmental delay associated withVPS11mutation in Ashkenazi-Jewish patients

et al. 2015

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Jens Lachmann

Defined Subunit Arrangement and Rab Interactions Are Required for Functionality of the HOPS Tethering Complex

The CORVET complex promotes tethering and fusion of Rab5/Vps21-positive membranes

Functional Separation of Endosomal Fusion Factors and the Class C Core Vacuole/Endosome Tethering (CORVET) Complex in Endosome Biogenesis

The Msb3/Gyp3 GAP controls the activity of the Rab GTPases Vps21 and Ypt7 at endosomes and vacuoles

Hypomyelination and developmental delay associated withVPS11mutation in Ashkenazi-Jewish patients

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