ADAM30 Downregulates APP-Linked Defects Through Cathepsin D Activation in Alzheimer's Disease

Although several ADAMs (A disintegrin-like and metalloproteases) have been shown to contribute to the amyloid precursor protein (APP) metabolism, the full spectrum of metalloproteases involved in this metabolism remains to be established. Transcriptomic analyses centred on metalloprotease genes unra...

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Autores principales: Letronne, Florent, Laumet, Geoffroy, Ayral, Anne-Marie, Chapuis, Julien, Demiautte, Florie, Laga, Mathias, Vandenberghe, Michel E., Malmanche, Nicolas, Leroux, Florence, Eysert, Fanny, Sottejeau, Yoann, Chami, Linda, Flaig, Amandine, Bauer, Charlotte, Dourlen, Pierre, Lesaffre, Marie, Delay, Charlotte, Huot, Ludovic, Dumont, Julie, Werkmeister, Elisabeth, Lafont, Franck, Mendes, Tiago, Hansmannel, Franck, Dermaut, Bart, Deprez, Benoit, Hérard, Anne-Sophie, Dhenain, Marc, Souedet, Nicolas, Pasquier, Florence, Tulasne, David, Berr, Claudine, Hauw, Jean-Jacques, Lemoine, Yves, Amouyel, Philippe, Mann, David, Déprez, Rebecca, Checler, Frédéric, Hot, David, Delzescaux, Thierry, Gevaert, Kris, Lambert, Jean-Charles
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2016
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4972530/
https://www.ncbi.nlm.nih.gov/pubmed/27333034
http://dx.doi.org/10.1016/j.ebiom.2016.06.002
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author Letronne, Florent
Laumet, Geoffroy
Ayral, Anne-Marie
Chapuis, Julien
Demiautte, Florie
Laga, Mathias
Vandenberghe, Michel E.
Malmanche, Nicolas
Leroux, Florence
Eysert, Fanny
Sottejeau, Yoann
Chami, Linda
Flaig, Amandine
Bauer, Charlotte
Dourlen, Pierre
Lesaffre, Marie
Delay, Charlotte
Huot, Ludovic
Dumont, Julie
Werkmeister, Elisabeth
Lafont, Franck
Mendes, Tiago
Hansmannel, Franck
Dermaut, Bart
Deprez, Benoit
Hérard, Anne-Sophie
Dhenain, Marc
Souedet, Nicolas
Pasquier, Florence
Tulasne, David
Berr, Claudine
Hauw, Jean-Jacques
Lemoine, Yves
Amouyel, Philippe
Mann, David
Déprez, Rebecca
Checler, Frédéric
Hot, David
Delzescaux, Thierry
Gevaert, Kris
Lambert, Jean-Charles
author_facet Letronne, Florent
Laumet, Geoffroy
Ayral, Anne-Marie
Chapuis, Julien
Demiautte, Florie
Laga, Mathias
Vandenberghe, Michel E.
Malmanche, Nicolas
Leroux, Florence
Eysert, Fanny
Sottejeau, Yoann
Chami, Linda
Flaig, Amandine
Bauer, Charlotte
Dourlen, Pierre
Lesaffre, Marie
Delay, Charlotte
Huot, Ludovic
Dumont, Julie
Werkmeister, Elisabeth
Lafont, Franck
Mendes, Tiago
Hansmannel, Franck
Dermaut, Bart
Deprez, Benoit
Hérard, Anne-Sophie
Dhenain, Marc
Souedet, Nicolas
Pasquier, Florence
Tulasne, David
Berr, Claudine
Hauw, Jean-Jacques
Lemoine, Yves
Amouyel, Philippe
Mann, David
Déprez, Rebecca
Checler, Frédéric
Hot, David
Delzescaux, Thierry
Gevaert, Kris
Lambert, Jean-Charles
author_sort Letronne, Florent
collection PubMed
description Although several ADAMs (A disintegrin-like and metalloproteases) have been shown to contribute to the amyloid precursor protein (APP) metabolism, the full spectrum of metalloproteases involved in this metabolism remains to be established. Transcriptomic analyses centred on metalloprotease genes unraveled a 50% decrease in ADAM30 expression that inversely correlates with amyloid load in Alzheimer's disease brains. Accordingly, in vitro down- or up-regulation of ADAM30 expression triggered an increase/decrease in Aβ peptides levels whereas expression of a biologically inactive ADAM30 (ADAM30(mut)) did not affect Aβ secretion. Proteomics/cell-based experiments showed that ADAM30-dependent regulation of APP metabolism required both cathepsin D (CTSD) activation and APP sorting to lysosomes. Accordingly, in Alzheimer-like transgenic mice, neuronal ADAM30 over-expression lowered Aβ42 secretion in neuron primary cultures, soluble Aβ42 and amyloid plaque load levels in the brain and concomitantly enhanced CTSD activity and finally rescued long term potentiation alterations. Our data thus indicate that lowering ADAM30 expression may favor Aβ production, thereby contributing to Alzheimer's disease development.
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spelling pubmed-49725302016-08-10 ADAM30 Downregulates APP-Linked Defects Through Cathepsin D Activation in Alzheimer's Disease Letronne, Florent Laumet, Geoffroy Ayral, Anne-Marie Chapuis, Julien Demiautte, Florie Laga, Mathias Vandenberghe, Michel E. Malmanche, Nicolas Leroux, Florence Eysert, Fanny Sottejeau, Yoann Chami, Linda Flaig, Amandine Bauer, Charlotte Dourlen, Pierre Lesaffre, Marie Delay, Charlotte Huot, Ludovic Dumont, Julie Werkmeister, Elisabeth Lafont, Franck Mendes, Tiago Hansmannel, Franck Dermaut, Bart Deprez, Benoit Hérard, Anne-Sophie Dhenain, Marc Souedet, Nicolas Pasquier, Florence Tulasne, David Berr, Claudine Hauw, Jean-Jacques Lemoine, Yves Amouyel, Philippe Mann, David Déprez, Rebecca Checler, Frédéric Hot, David Delzescaux, Thierry Gevaert, Kris Lambert, Jean-Charles EBioMedicine Research Paper Although several ADAMs (A disintegrin-like and metalloproteases) have been shown to contribute to the amyloid precursor protein (APP) metabolism, the full spectrum of metalloproteases involved in this metabolism remains to be established. Transcriptomic analyses centred on metalloprotease genes unraveled a 50% decrease in ADAM30 expression that inversely correlates with amyloid load in Alzheimer's disease brains. Accordingly, in vitro down- or up-regulation of ADAM30 expression triggered an increase/decrease in Aβ peptides levels whereas expression of a biologically inactive ADAM30 (ADAM30(mut)) did not affect Aβ secretion. Proteomics/cell-based experiments showed that ADAM30-dependent regulation of APP metabolism required both cathepsin D (CTSD) activation and APP sorting to lysosomes. Accordingly, in Alzheimer-like transgenic mice, neuronal ADAM30 over-expression lowered Aβ42 secretion in neuron primary cultures, soluble Aβ42 and amyloid plaque load levels in the brain and concomitantly enhanced CTSD activity and finally rescued long term potentiation alterations. Our data thus indicate that lowering ADAM30 expression may favor Aβ production, thereby contributing to Alzheimer's disease development. Elsevier 2016-06-02 /pmc/articles/PMC4972530/ /pubmed/27333034 http://dx.doi.org/10.1016/j.ebiom.2016.06.002 Text en © 2016 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Research Paper
Letronne, Florent
Laumet, Geoffroy
Ayral, Anne-Marie
Chapuis, Julien
Demiautte, Florie
Laga, Mathias
Vandenberghe, Michel E.
Malmanche, Nicolas
Leroux, Florence
Eysert, Fanny
Sottejeau, Yoann
Chami, Linda
Flaig, Amandine
Bauer, Charlotte
Dourlen, Pierre
Lesaffre, Marie
Delay, Charlotte
Huot, Ludovic
Dumont, Julie
Werkmeister, Elisabeth
Lafont, Franck
Mendes, Tiago
Hansmannel, Franck
Dermaut, Bart
Deprez, Benoit
Hérard, Anne-Sophie
Dhenain, Marc
Souedet, Nicolas
Pasquier, Florence
Tulasne, David
Berr, Claudine
Hauw, Jean-Jacques
Lemoine, Yves
Amouyel, Philippe
Mann, David
Déprez, Rebecca
Checler, Frédéric
Hot, David
Delzescaux, Thierry
Gevaert, Kris
Lambert, Jean-Charles
ADAM30 Downregulates APP-Linked Defects Through Cathepsin D Activation in Alzheimer's Disease
title ADAM30 Downregulates APP-Linked Defects Through Cathepsin D Activation in Alzheimer's Disease
title_full ADAM30 Downregulates APP-Linked Defects Through Cathepsin D Activation in Alzheimer's Disease
title_fullStr ADAM30 Downregulates APP-Linked Defects Through Cathepsin D Activation in Alzheimer's Disease
title_full_unstemmed ADAM30 Downregulates APP-Linked Defects Through Cathepsin D Activation in Alzheimer's Disease
title_short ADAM30 Downregulates APP-Linked Defects Through Cathepsin D Activation in Alzheimer's Disease
title_sort adam30 downregulates app-linked defects through cathepsin d activation in alzheimer's disease
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4972530/
https://www.ncbi.nlm.nih.gov/pubmed/27333034
http://dx.doi.org/10.1016/j.ebiom.2016.06.002
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