A Glycosphingolipid Binding Domain Controls Trafficking and Activity of the Mammalian Notch Ligand Delta-Like 1

The activity of Notch ligands is tightly regulated by trafficking events occurring both before and after ligand-receptor interaction. In particular endocytosis and recycling have been shown to be required for full signaling activity of the ligands before they encounter the Notch receptor. However li...

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Autores principales: Heuss, Sara Farrah, Tarantino, Nadine, Fantini, Jacques, Ndiaye-Lobry, Delphine, Moretti, Julien, Israël, Alain, Logeat, Frédérique
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3771905/
https://www.ncbi.nlm.nih.gov/pubmed/24069306
http://dx.doi.org/10.1371/journal.pone.0074392
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author Heuss, Sara Farrah
Tarantino, Nadine
Fantini, Jacques
Ndiaye-Lobry, Delphine
Moretti, Julien
Israël, Alain
Logeat, Frédérique
author_facet Heuss, Sara Farrah
Tarantino, Nadine
Fantini, Jacques
Ndiaye-Lobry, Delphine
Moretti, Julien
Israël, Alain
Logeat, Frédérique
author_sort Heuss, Sara Farrah
collection PubMed
description The activity of Notch ligands is tightly regulated by trafficking events occurring both before and after ligand-receptor interaction. In particular endocytosis and recycling have been shown to be required for full signaling activity of the ligands before they encounter the Notch receptor. However little is known about the precise endocytic processes that contribute to ligand internalization. Here we demonstrate that endocytosis contributes to Dll1 signaling activity by preserving the ligand from shedding and degradation. We further show that the glycosphingolipid-binding motif originally identified in Drosophila Notch ligands is conserved in mammals and is necessary for Dll1 internalization. Mutation of its conserved tryptophan residue results in a Dll1 molecule which is rapidly inactivated by shedding and degradation, does not recycle to the cell surface and does not activate Notch signaling. Finally, silencing in the signal-sending cells of glucosylceramide synthase, the enzyme implicated in the initial phase of glycosphingolipid synthesis, down-regulates Notch activation. Our data indicate that glycosphingolipids, by interacting with Dll1, may act as functional co-factors to promote its biological activity.
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spelling pubmed-37719052013-09-25 A Glycosphingolipid Binding Domain Controls Trafficking and Activity of the Mammalian Notch Ligand Delta-Like 1 Heuss, Sara Farrah Tarantino, Nadine Fantini, Jacques Ndiaye-Lobry, Delphine Moretti, Julien Israël, Alain Logeat, Frédérique PLoS One Research Article The activity of Notch ligands is tightly regulated by trafficking events occurring both before and after ligand-receptor interaction. In particular endocytosis and recycling have been shown to be required for full signaling activity of the ligands before they encounter the Notch receptor. However little is known about the precise endocytic processes that contribute to ligand internalization. Here we demonstrate that endocytosis contributes to Dll1 signaling activity by preserving the ligand from shedding and degradation. We further show that the glycosphingolipid-binding motif originally identified in Drosophila Notch ligands is conserved in mammals and is necessary for Dll1 internalization. Mutation of its conserved tryptophan residue results in a Dll1 molecule which is rapidly inactivated by shedding and degradation, does not recycle to the cell surface and does not activate Notch signaling. Finally, silencing in the signal-sending cells of glucosylceramide synthase, the enzyme implicated in the initial phase of glycosphingolipid synthesis, down-regulates Notch activation. Our data indicate that glycosphingolipids, by interacting with Dll1, may act as functional co-factors to promote its biological activity. Public Library of Science 2013-09-12 /pmc/articles/PMC3771905/ /pubmed/24069306 http://dx.doi.org/10.1371/journal.pone.0074392 Text en © 2013 Heuss et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Heuss, Sara Farrah
Tarantino, Nadine
Fantini, Jacques
Ndiaye-Lobry, Delphine
Moretti, Julien
Israël, Alain
Logeat, Frédérique
A Glycosphingolipid Binding Domain Controls Trafficking and Activity of the Mammalian Notch Ligand Delta-Like 1
title A Glycosphingolipid Binding Domain Controls Trafficking and Activity of the Mammalian Notch Ligand Delta-Like 1
title_full A Glycosphingolipid Binding Domain Controls Trafficking and Activity of the Mammalian Notch Ligand Delta-Like 1
title_fullStr A Glycosphingolipid Binding Domain Controls Trafficking and Activity of the Mammalian Notch Ligand Delta-Like 1
title_full_unstemmed A Glycosphingolipid Binding Domain Controls Trafficking and Activity of the Mammalian Notch Ligand Delta-Like 1
title_short A Glycosphingolipid Binding Domain Controls Trafficking and Activity of the Mammalian Notch Ligand Delta-Like 1
title_sort glycosphingolipid binding domain controls trafficking and activity of the mammalian notch ligand delta-like 1
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3771905/
https://www.ncbi.nlm.nih.gov/pubmed/24069306
http://dx.doi.org/10.1371/journal.pone.0074392
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