RET Functions as a Dual-Specificity Kinase that Requires Allosteric Inputs from Juxtamembrane Elements

RET Functions as a Dual-Specificity Kinase that Requires Allosteric Inputs from Juxtamembrane Elements

Receptor tyrosine kinases exhibit a variety of activation mechanisms despite highly homologous catalytic domains. Such diversity arises through coupling of extracellular ligand-binding portions with highly variable intracellular sequences flanking the tyrosine kinase domain and specific patterns of...

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Main Authors: Iván Plaza-Menacho, Karin Barnouin, Rachael Barry, Annabel Borg, Mariam Orme, Rakhee Chauhan, Stephane Mouilleron, Rubén J. Martínez-Torres, Pascal Meier, Neil Q. McDonald
Format: Article
Language:English
Published: Elsevier 2016-12-01
Series:Cell Reports
Subjects:
receptor tyrosine kinase
RTK
structure-function
phosphorylation
dual-specificity
signaling
oncogene
Drosophila
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124716316345
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spelling doaj-d79f670d6e0b48388c49a0287b96fbce2020-11-25T02:08:40ZengElsevierCell Reports2211-12472016-12-0117123319333210.1016/j.celrep.2016.11.061RET Functions as a Dual-Specificity Kinase that Requires Allosteric Inputs from Juxtamembrane ElementsIván Plaza-Menacho0Karin Barnouin1Rachael Barry2Annabel Borg3Mariam Orme4Rakhee Chauhan5Stephane Mouilleron6Rubén J. Martínez-Torres7Pascal Meier8Neil Q. McDonald9Structural Biology Laboratory, The Francis Crick Institute, 1 Midland Road, London NW1 1AT, UKProtein Analysis and Proteomics, The Francis Crick Institute, 1 Midland Road, London NW1 1AT, UKThe Breast Cancer Now Toby Robins Research Centre, Mary-Jean Mitchell Green Building, Institute of Cancer Research, SW3 6JB London, UKProtein Production Facility, The Francis Crick Institute, 1 Midland Road, London NW1 1AT, UKThe Breast Cancer Now Toby Robins Research Centre, Mary-Jean Mitchell Green Building, Institute of Cancer Research, SW3 6JB London, UKStructural Biology Laboratory, The Francis Crick Institute, 1 Midland Road, London NW1 1AT, UKStructural Biology Science Technology Platform, The Francis Crick Institute, 1 Midland Road, London NW1 1AT, UKStructural Biology Laboratory, The Francis Crick Institute, 1 Midland Road, London NW1 1AT, UKThe Breast Cancer Now Toby Robins Research Centre, Mary-Jean Mitchell Green Building, Institute of Cancer Research, SW3 6JB London, UKStructural Biology Laboratory, The Francis Crick Institute, 1 Midland Road, London NW1 1AT, UKReceptor tyrosine kinases exhibit a variety of activation mechanisms despite highly homologous catalytic domains. Such diversity arises through coupling of extracellular ligand-binding portions with highly variable intracellular sequences flanking the tyrosine kinase domain and specific patterns of autophosphorylation sites. Here, we show that the juxtamembrane (JM) segment enhances RET catalytic domain activity through Y687. This phospho-site is also required by the JM region to rescue an otherwise catalytically deficient RET activation-loop mutant lacking tyrosines. Structure-function analyses identified interactions between the JM hinge, αC helix, and an unconventional activation-loop serine phosphorylation site that engages the HRD motif and promotes phospho-tyrosine conformational accessibility and regulatory spine assembly. We demonstrate that this phospho-S909 arises from an intrinsic RET dual-specificity kinase activity and show that an equivalent serine is required for RET signaling in Drosophila. Our findings reveal dual-specificity and allosteric components for the mechanism of RET activation and signaling with direct implications for drug discovery.http://www.sciencedirect.com/science/article/pii/S2211124716316345receptor tyrosine kinaseRTKstructure-functionphosphorylationdual-specificitysignalingoncogeneDrosophila
collection DOAJ
language English
format Article
sources DOAJ
author Iván Plaza-Menacho
Karin Barnouin
Rachael Barry
Annabel Borg
Mariam Orme
Rakhee Chauhan
Stephane Mouilleron
Rubén J. Martínez-Torres
Pascal Meier
Neil Q. McDonald
spellingShingle Iván Plaza-Menacho
Karin Barnouin
Rachael Barry
Annabel Borg
Mariam Orme
Rakhee Chauhan
Stephane Mouilleron
Rubén J. Martínez-Torres
Pascal Meier
Neil Q. McDonald
RET Functions as a Dual-Specificity Kinase that Requires Allosteric Inputs from Juxtamembrane Elements
Cell Reports
receptor tyrosine kinase
RTK
structure-function
phosphorylation
dual-specificity
signaling
oncogene
Drosophila
author_facet Iván Plaza-Menacho
Karin Barnouin
Rachael Barry
Annabel Borg
Mariam Orme
Rakhee Chauhan
Stephane Mouilleron
Rubén J. Martínez-Torres
Pascal Meier
Neil Q. McDonald
author_sort Iván Plaza-Menacho
title RET Functions as a Dual-Specificity Kinase that Requires Allosteric Inputs from Juxtamembrane Elements
title_short RET Functions as a Dual-Specificity Kinase that Requires Allosteric Inputs from Juxtamembrane Elements
title_full RET Functions as a Dual-Specificity Kinase that Requires Allosteric Inputs from Juxtamembrane Elements
title_fullStr RET Functions as a Dual-Specificity Kinase that Requires Allosteric Inputs from Juxtamembrane Elements
title_full_unstemmed RET Functions as a Dual-Specificity Kinase that Requires Allosteric Inputs from Juxtamembrane Elements
title_sort ret functions as a dual-specificity kinase that requires allosteric inputs from juxtamembrane elements
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2016-12-01
description Receptor tyrosine kinases exhibit a variety of activation mechanisms despite highly homologous catalytic domains. Such diversity arises through coupling of extracellular ligand-binding portions with highly variable intracellular sequences flanking the tyrosine kinase domain and specific patterns of autophosphorylation sites. Here, we show that the juxtamembrane (JM) segment enhances RET catalytic domain activity through Y687. This phospho-site is also required by the JM region to rescue an otherwise catalytically deficient RET activation-loop mutant lacking tyrosines. Structure-function analyses identified interactions between the JM hinge, αC helix, and an unconventional activation-loop serine phosphorylation site that engages the HRD motif and promotes phospho-tyrosine conformational accessibility and regulatory spine assembly. We demonstrate that this phospho-S909 arises from an intrinsic RET dual-specificity kinase activity and show that an equivalent serine is required for RET signaling in Drosophila. Our findings reveal dual-specificity and allosteric components for the mechanism of RET activation and signaling with direct implications for drug discovery.
topic receptor tyrosine kinase
RTK
structure-function
phosphorylation
dual-specificity
signaling
oncogene
Drosophila
url http://www.sciencedirect.com/science/article/pii/S2211124716316345
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