Concerted ESCRT and clathrin recruitment waves define the timing and morphology of intraluminal vesicle formation

Wenzel, Eva M.; Schultz, Sebastian W.; Schink, Kay Oliver; Pedersen, Nina Marie; Nähse, Viola; Carlson, Andreas; Brech, Andreas; Stenmark, Harald; Raiborg, Camilla

doi:10.1038/s41467-018-05345-8

Cited by 102 publications

(144 citation statements)

References 70 publications

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“…As the latter impact the recruitment of Vps4, it is possible that the sequence of events of nuclear envelope sealing are similar to those found at ILVs during MVB formation with a fundamental difference being that a nuclear envelope hole instead of a single continuous lipid bilayer, is the likely initial "substrate" for ESCRT-III action. Indeed, in the more artificial scenarios that we present here, be it at sites of chm7OPEN accumulation or Chm7 in vps4Δ cells (Figures 6 and 7), there are obvious parallels between the morphologies observed at the INM and those at the plasma membrane (von Schwedler et al, 2003;Hanson et al, 2008;Morita et al, 2011;Cashikar et al, 2014;Jackson et al, 2017), and at endosomes (Adell et al, 2014;Wenzel et al, 2018) in the context of mutants that stall or inhibit membrane scission. They also resemble more physiological circumstances like in the ILVs of A. thaliana (Buono et al, 2017) and C. elegans (Frankel et al, 2017), which resemble beads on a string.…”

Section: Discussionmentioning

confidence: 72%

An ESCRT-LEM domain inner nuclear membrane protein surveillance system is poised to directly monitor the integrity of the nuclear envelope barrier and nuclear transport system

Thaller

Allegretti²,

Borah

et al. 2019

Preprint

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The integrity of the nuclear envelope membranes coupled to the diffusion barrier and selective transport properties of nuclear pore complexes (NPCs) are a prerequisite for the robust segregation of nucleoplasm and cytoplasm. Recent work supports that mechanical membrane disruption or perturbation to NPC assembly can trigger an ESCRT-dependent surveillance system that seals nuclear envelope pores: how these pores are sensed and sealed remains to be fully defined. Here, we show that the principal components of the nuclear envelope surveillance system in yeast, which includes the ESCRT Chm7 and the integral inner nuclear membrane (INM) protein Heh1, are spatially segregated by the nuclear transport system. Specifically, at steady state Chm7 is actively restricted from the nucleus by Crm1/Xpo1. Consistent with the idea that it is the exposure of the INM that triggers surveillance, the expression of a transmembrane anchor and the winged helix domain of Heh1 is sufficient to recruit and activate Chm7 at a membrane interface. Correlative light electron tomography under conditions of Chm7 hyper-activation further show the formation of an elaborate network of fenestrated sheets at the INM and suggest ER-membrane delivery at sites of nuclear envelope herniation. Our data point to a model in which exposure of Chm7 to Heh1, driven by any perturbation in the nuclear envelope barrier would lead to local nuclear envelope remodeling to promote membrane sealing. Our findings have implications for disease mechanisms associated with defects in NPC assembly and nuclear envelope integrity.* *

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Section: Discussionmentioning

confidence: 72%

An ESCRT-LEM domain inner nuclear membrane protein surveillance system is poised to directly monitor the integrity of the nuclear envelope barrier and nuclear transport system

Thaller

Allegretti²,

Borah

et al. 2019

Preprint

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“…Occurrence of clathrin at later time points seems odd at first glance, but besides being involved in clathrin‐mediated endocytosis clathrin is also involved in trafficking from endosomes and the trans‐golgi network and formation of MVB. These processes are regulated by other adaptor proteins . Hence, we cannot distinguish between clathrin derived from PM derived vesicles or vesicles derived from intracellular organelles.…”

Section: Resultsmentioning

confidence: 98%

“…These processes are regulated by other adaptor proteins. [55][56][57] Hence, we cannot distinguish between clathrin derived from PM derived vesicles or vesicles derived from intracellular organelles. Such analyses should be made more detailed on the basis of the respective adaptor proteins.…”

Section: C) Immunomagnetic Isolation Of Exosomesmentioning

confidence: 99%

A toolbox for the immunomagnetic purification of signaling organelles

Fritsch

Tchikov

Hennig

et al. 2019

Traffic

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Homeostasis and the complex functions of organisms and cells rely on the sophisticated spatial and temporal regulation of signaling in different intra‐ and extracellular compartments and via different mediators. We here present a set of fast and easy to use protocols for the target‐specific immunomagnetic enrichment of receptor containing endosomes (receptosomes), plasma membranes, lysosomes and exosomes. Isolation of subcellular organelles and exosomes is prerequisite for and will advance their detailed subsequent biochemical and functional analysis. Sequential application of the different subprotocols allows isolation of morphological and functional intact organelles from one pool of cells. The enrichment is based on a selective labelling using receptor ligands or antibodies together with superparamagnetic microbeads followed by separation in a patented matrix‐free high‐gradient magnetic purification device. This unique magnetic chamber is based on a focusing system outside of the empty separation column, generating an up to 3 T high‐gradient magnetic field focused at the wall of the column.

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“…CHMP4B polymers induce the curvature of the endosomal membrane during the formation of multivesicular bodies 50 and also maintain a narrow tubular shape of the plasma membrane before viral budding. 51 CHMP4B localization at primary cilia suggests a direct role of CHMP4B in the stabilization of the highly curved ciliary membrane.…”

Section: Discussionmentioning

confidence: 99%

ESCRT subunit CHMP4B localizes to primary cilia and is required for the structural integrity of the ciliary membrane

et al. 2019

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Proteins specialized in the detection, generation, or stabilization of membrane curvature play important roles in establishing various morphologies of cells and cellular organelles. Primary cilia are cellular organelles that protrude from the cell surface using a microtubule-based cytoskeleton called the axoneme as a structural support.It is unclear whether the integrity of the high curvature of the ciliary membrane depends on membrane curvature-related proteins. Charged Multivesicular Body Protein 4B (CHMP4B), a subunit of the endosomal sorting complexes required for transport (ESCRT), can stabilize membrane curvature. Here we show that CHMP4B is involved in the assembly and maintenance of primary cilia. CHMP4B was localized to primary cilia in mammalian cells. Knockdown of CHMP4B interfered with cilium assembly and also caused fragmentation of preexisting cilia. By contrast, cilium formation was unaffected by the interruption of the ESCRT-dependent endocytic degradation pathway. Morpholino (MO)-mediated CHMP4B depletion in zebrafish embryos induced characteristic phenotypes of ciliary defects such as curved body axis, hydrocephalus, otolith malformation, and kidney cyst. Our study reveals a new role for the multifunctional protein CHMP4B as a key factor in maintaining the structural integrity of primary cilia. K E Y W O R D Sciliopathy phenotype, endosomal sorting complex, membrane curvature 1332 | JUNG et al.

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Concerted ESCRT and clathrin recruitment waves define the timing and morphology of intraluminal vesicle formation

Cited by 102 publications

References 70 publications

An ESCRT-LEM domain inner nuclear membrane protein surveillance system is poised to directly monitor the integrity of the nuclear envelope barrier and nuclear transport system

An ESCRT-LEM domain inner nuclear membrane protein surveillance system is poised to directly monitor the integrity of the nuclear envelope barrier and nuclear transport system

A toolbox for the immunomagnetic purification of signaling organelles

ESCRT subunit CHMP4B localizes to primary cilia and is required for the structural integrity of the ciliary membrane

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