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Distinct features of multivesicular body-lysosome fusion revealed by a new cell-free content-mixing assay.

Author(s): Karim MA, Samyn DR, Mattie S, Brett CL

Traffic. 2018 02;19(2):138-149 Authors: Karim MA, Samyn DR, Mattie S, Brett CL

Article GUID: 29135058

The Na+(K+)/H+ exchanger Nhx1 controls multivesicular body-vacuolar lysosome fusion.

Author(s): Karim MA, Brett CL

Mol Biol Cell. 2018 02 01;29(3):317-325 Authors: Karim MA, Brett CL

Article GUID: 29212874

Rab-Effector-Kinase Interplay Modulates Intralumenal Fragment Formation during Vacuole Fusion.

Author(s): Karim MA, McNally EK, Samyn DR, Mattie S, Brett CL

Dev Cell. 2018 10 08;47(1):80-97.e6 Authors: Karim MA, McNally EK, Samyn DR, Mattie S, Brett CL

Article GUID: 30269949

A Cell-Free Content Mixing Assay for SNARE-Mediated Multivesicular Body-Vacuole Membrane Fusion.

Author(s): Karim MA, Samyn DR, Brett CL

Methods Mol Biol. 2019;1860:289-301 Authors: Karim MA, Samyn DR, Brett CL

Article GUID: 30317513

Visualization of SNARE-Mediated Organelle Membrane Hemifusion by Electron Microscopy.

Author(s): Mattie S, Kazmirchuk T, Mui J, Vali H, Brett CL

Methods Mol Biol. 2019;1860:361-377 Authors: Mattie S, Kazmirchuk T, Mui J, Vali H, Brett CL

Article GUID: 30317518

The intralumenal fragment pathway mediates ESCRT-independent surface transporter down-regulation.

Author(s): McNally EK, Brett CL

Nat Commun. 2018 12 18;9(1):5358 Authors: McNally EK, Brett CL

Article GUID: 30560896


Title:Distinct features of multivesicular body-lysosome fusion revealed by a new cell-free content-mixing assay.
Authors:Karim MASamyn DRMattie SBrett CL
Link:https://www.ncbi.nlm.nih.gov/pubmed/29135058?dopt=Abstract
DOI:10.1111/tra.12543
Category:Traffic
PMID:29135058
Dept Affiliation: BIOLOGY
1 Department of Biology, Concordia University, Montreal, Canada.

Description:

Distinct features of multivesicular body-lysosome fusion revealed by a new cell-free content-mixing assay.

Traffic. 2018 02;19(2):138-149

Authors: Karim MA, Samyn DR, Mattie S, Brett CL

Abstract

When marked for degradation, surface receptor and transporter proteins are internalized and delivered to endosomes where they are packaged into intralumenal vesicles (ILVs). Many rounds of ILV formation create multivesicular bodies (MVBs) that fuse with lysosomes exposing ILVs to hydrolases for catabolism. Despite being critical for protein degradation, the molecular underpinnings of MVB-lysosome fusion remain unclear, although machinery underlying other lysosome fusion events is implicated. But how then is specificity conferred? And how is MVB maturation and fusion coordinated for efficient protein degradation? To address these questions, we developed a cell-free MVB-lysosome fusion assay using Saccharomyces cerevisiae as a model. After confirming that the Rab7 ortholog Ypt7 and the multisubunit tethering complex HOPS (homotypic fusion and vacuole protein sorting complex) are required, we found that the Qa-SNARE Pep12 distinguishes this event from homotypic lysosome fusion. Mutations that impair MVB maturation block fusion by preventing Ypt7 activation, confirming that a Rab-cascade mechanism harmonizes MVB maturation with lysosome fusion.

PMID: 29135058 [PubMed - indexed for MEDLINE]