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Role of the Drosophila Non-Visual ß-Arrestin Kurtz in Hedgehog Signalling

The non-visual ß-arrestins are cytosolic proteins highly conserved across species that participate in a variety of signalling events, including plasma membrane receptor degradation, recycling, and signalling, and that can also act as scaffolding for kinases such as MAPK and Akt/PI3K. In Drosophila m...

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Autores principales: Molnar, Cristina, Ruiz-Gómez, Ana, Martín, Mercedes, Rojo-Berciano, Susana, Mayor, Federico, de Celis, Jose F.
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3060076/
https://www.ncbi.nlm.nih.gov/pubmed/21437272
http://dx.doi.org/10.1371/journal.pgen.1001335
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author Molnar, Cristina
Ruiz-Gómez, Ana
Martín, Mercedes
Rojo-Berciano, Susana
Mayor, Federico
de Celis, Jose F.
author_facet Molnar, Cristina
Ruiz-Gómez, Ana
Martín, Mercedes
Rojo-Berciano, Susana
Mayor, Federico
de Celis, Jose F.
author_sort Molnar, Cristina
collection PubMed
description The non-visual ß-arrestins are cytosolic proteins highly conserved across species that participate in a variety of signalling events, including plasma membrane receptor degradation, recycling, and signalling, and that can also act as scaffolding for kinases such as MAPK and Akt/PI3K. In Drosophila melanogaster, there is only a single non-visual ß-arrestin, encoded by kurtz, whose function is essential for neuronal activity. We have addressed the participation of Kurtz in signalling during the development of the imaginal discs, epithelial tissues requiring the activity of the Hedgehog, Wingless, EGFR, Notch, Insulin, and TGFβ pathways. Surprisingly, we found that the complete elimination of kurtz by genetic techniques has no major consequences in imaginal cells. In contrast, the over-expression of Kurtz in the wing disc causes a phenotype identical to the loss of Hedgehog signalling and prevents the expression of Hedgehog targets in the corresponding wing discs. The mechanism by which Kurtz antagonises Hedgehog signalling is to promote Smoothened internalization and degradation in a clathrin- and proteosomal-dependent manner. Intriguingly, the effects of Kurtz on Smoothened are independent of Gprk2 activity and of the activation state of the receptor. Our results suggest fundamental differences in the molecular mechanisms regulating receptor turnover and signalling in vertebrates and invertebrates, and they could provide important insights into divergent evolution of Hedgehog signalling in these organisms.
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spelling pubmed-30600762011-03-23 Role of the Drosophila Non-Visual ß-Arrestin Kurtz in Hedgehog Signalling Molnar, Cristina Ruiz-Gómez, Ana Martín, Mercedes Rojo-Berciano, Susana Mayor, Federico de Celis, Jose F. PLoS Genet Research Article The non-visual ß-arrestins are cytosolic proteins highly conserved across species that participate in a variety of signalling events, including plasma membrane receptor degradation, recycling, and signalling, and that can also act as scaffolding for kinases such as MAPK and Akt/PI3K. In Drosophila melanogaster, there is only a single non-visual ß-arrestin, encoded by kurtz, whose function is essential for neuronal activity. We have addressed the participation of Kurtz in signalling during the development of the imaginal discs, epithelial tissues requiring the activity of the Hedgehog, Wingless, EGFR, Notch, Insulin, and TGFβ pathways. Surprisingly, we found that the complete elimination of kurtz by genetic techniques has no major consequences in imaginal cells. In contrast, the over-expression of Kurtz in the wing disc causes a phenotype identical to the loss of Hedgehog signalling and prevents the expression of Hedgehog targets in the corresponding wing discs. The mechanism by which Kurtz antagonises Hedgehog signalling is to promote Smoothened internalization and degradation in a clathrin- and proteosomal-dependent manner. Intriguingly, the effects of Kurtz on Smoothened are independent of Gprk2 activity and of the activation state of the receptor. Our results suggest fundamental differences in the molecular mechanisms regulating receptor turnover and signalling in vertebrates and invertebrates, and they could provide important insights into divergent evolution of Hedgehog signalling in these organisms. Public Library of Science 2011-03-17 /pmc/articles/PMC3060076/ /pubmed/21437272 http://dx.doi.org/10.1371/journal.pgen.1001335 Text en Molnar et al. 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 credited.
spellingShingle Research Article
Molnar, Cristina
Ruiz-Gómez, Ana
Martín, Mercedes
Rojo-Berciano, Susana
Mayor, Federico
de Celis, Jose F.
Role of the Drosophila Non-Visual ß-Arrestin Kurtz in Hedgehog Signalling
title Role of the Drosophila Non-Visual ß-Arrestin Kurtz in Hedgehog Signalling
title_full Role of the Drosophila Non-Visual ß-Arrestin Kurtz in Hedgehog Signalling
title_fullStr Role of the Drosophila Non-Visual ß-Arrestin Kurtz in Hedgehog Signalling
title_full_unstemmed Role of the Drosophila Non-Visual ß-Arrestin Kurtz in Hedgehog Signalling
title_short Role of the Drosophila Non-Visual ß-Arrestin Kurtz in Hedgehog Signalling
title_sort role of the drosophila non-visual ß-arrestin kurtz in hedgehog signalling
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3060076/
https://www.ncbi.nlm.nih.gov/pubmed/21437272
http://dx.doi.org/10.1371/journal.pgen.1001335
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