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Tetanus toxin is internalized by a sequential clathrin-dependent mechanism initiated within lipid microdomains and independent of epsin1

Tetanus toxin is internalized by a sequential clathrin-dependent mechanism initiated within lipid microdomains and independent of epsin1
Tetanus toxin is internalized by a sequential clathrin-dependent mechanism initiated within lipid microdomains and independent of epsin1
Ligand-receptor complexes are internalized by a variety of endocytic mechanisms. Some are initiated within clathrin-coated membranes, whereas others involve lipid microdomains of the plasma membrane. In neurons, where alternative targeting to short- or long-range trafficking routes underpins the differential processing of synaptic vesicle components and neurotrophin receptors, the mechanism giving access to the axonal retrograde pathway remains unknown. To investigate this sorting process, we examined the internalization of a tetanus neurotoxin fragment (TeNT HC), which shares axonal carriers with neurotrophins and their receptors. Previous studies have shown that the TeNT HC receptor, which comprises polysialogangliosides, resides in lipid microdomains. We demonstrate that TeNT HC internalization also relies on a specialized clathrin-mediated pathway, which is independent of synaptic vesicle recycling. Moreover, unlike transferrin uptake, this AP-2-dependent process is independent of epsin1. These findings identify a pathway for TeNT, beginning with the binding to a lipid raft component (GD1b) and followed by dissociation from GD1b as the toxin internalizes via a clathrin-mediated mechanism using a specific subset of adaptor proteins.
1932-6203
459-71
Deinhardt, Katrin
5f4fe23b-2317-499f-ba6d-e639a4885dc1
Berninghausen, Otto
a49bc8ea-f7f9-4484-a537-9d58bc296ae5
Willison, Hugh J.
1a513eef-dd70-473e-9b41-d25ae5588bee
Hopkins, Colin R.
03fbcfd8-c4a5-4555-b88b-450679efdcb6
Schiavo, Giampietro
0e309b58-ff46-4c10-8eb5-42b380b24223
Deinhardt, Katrin
5f4fe23b-2317-499f-ba6d-e639a4885dc1
Berninghausen, Otto
a49bc8ea-f7f9-4484-a537-9d58bc296ae5
Willison, Hugh J.
1a513eef-dd70-473e-9b41-d25ae5588bee
Hopkins, Colin R.
03fbcfd8-c4a5-4555-b88b-450679efdcb6
Schiavo, Giampietro
0e309b58-ff46-4c10-8eb5-42b380b24223

Deinhardt, Katrin, Berninghausen, Otto, Willison, Hugh J., Hopkins, Colin R. and Schiavo, Giampietro (2006) Tetanus toxin is internalized by a sequential clathrin-dependent mechanism initiated within lipid microdomains and independent of epsin1. PLoS ONE, 174 (3), 459-71. (doi:10.1083/jcb.200508170). (PMID:16880274)

Record type: Article

Abstract

Ligand-receptor complexes are internalized by a variety of endocytic mechanisms. Some are initiated within clathrin-coated membranes, whereas others involve lipid microdomains of the plasma membrane. In neurons, where alternative targeting to short- or long-range trafficking routes underpins the differential processing of synaptic vesicle components and neurotrophin receptors, the mechanism giving access to the axonal retrograde pathway remains unknown. To investigate this sorting process, we examined the internalization of a tetanus neurotoxin fragment (TeNT HC), which shares axonal carriers with neurotrophins and their receptors. Previous studies have shown that the TeNT HC receptor, which comprises polysialogangliosides, resides in lipid microdomains. We demonstrate that TeNT HC internalization also relies on a specialized clathrin-mediated pathway, which is independent of synaptic vesicle recycling. Moreover, unlike transferrin uptake, this AP-2-dependent process is independent of epsin1. These findings identify a pathway for TeNT, beginning with the binding to a lipid raft component (GD1b) and followed by dissociation from GD1b as the toxin internalizes via a clathrin-mediated mechanism using a specific subset of adaptor proteins.

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Published date: 31 July 2006
Organisations: Centre for Biological Sciences
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Identifiers

Local EPrints ID: 349433
URI: http://eprints.soton.ac.uk/id/eprint/349433
DOI: doi:10.1083/jcb.200508170
ISSN: 1932-6203
PURE UUID: 7e6a1758-8792-4bb4-8afc-b9061d7e2756
ORCID for Katrin Deinhardt: ORCID iD orcid.org/0000-0002-6473-5298

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Date deposited: 05 Mar 2013 13:53
Last modified: 15 Mar 2024 03:45

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Author: Katrin Deinhardt ORCID iD
Author: Otto Berninghausen
Author: Hugh J. Willison
Author: Colin R. Hopkins
Author: Giampietro Schiavo

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