Structural and dynamic insights into the energetics of activation loop rearrangement in FGFR1 kinase
Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp–Phe–Gly (DFG) motif of the activation loop, with some, including FGFR1 kinase, appearing refractory to this so-called ‘DFG flip’. Recent inhibitor-bound structures have unexpectedly revealed FG...
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| Published in | Nature communications Vol. 6; no. 1; p. 7877 |
|---|---|
| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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London
Nature Publishing Group UK
23.07.2015
Nature Publishing Group Nature Pub. Group |
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| Abstract | Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp–Phe–Gly (DFG) motif of the activation loop, with some, including FGFR1 kinase, appearing refractory to this so-called ‘DFG flip’. Recent inhibitor-bound structures have unexpectedly revealed FGFR1 for the first time in a ‘DFG-out’ state. Here we use conformationally selective inhibitors as chemical probes for interrogation of the structural and dynamic features that appear to govern the DFG flip in FGFR1. Our detailed structural and biophysical insights identify contributions from altered dynamics in distal elements, including the αH helix, towards the outstanding stability of the DFG-out complex with the inhibitor ponatinib. We conclude that the αC-β4 loop and ‘molecular brake’ regions together impose a high energy barrier for this conformational rearrangement, and that this may have significance for maintaining autoinhibition in the non-phosphorylated basal state of FGFR1.
Receptor tyrosine kinases are key mediators of cell proliferation that have been implicated in several disease states for which they represent promising drug targets. Here the authors determine the thermodynamic basis for the low propensity of FGFR1 to access the DFG-Phe-out conformation required to bind type-II inhibitors. |
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| AbstractList | Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp-Phe-Gly (DFG) motif of the activation loop, with some, including FGFR1 kinase, appearing refractory to this so-called 'DFG flip'. Recent inhibitor-bound structures have unexpectedly revealed FGFR1 for the first time in a 'DFG-out' state. Here we use conformationally selective inhibitors as chemical probes for interrogation of the structural and dynamic features that appear to govern the DFG flip in FGFR1. Our detailed structural and biophysical insights identify contributions from altered dynamics in distal elements, including the αH helix, towards the outstanding stability of the DFG-out complex with the inhibitor ponatinib. We conclude that the αC-β4 loop and 'molecular brake' regions together impose a high energy barrier for this conformational rearrangement, and that this may have significance for maintaining autoinhibition in the non-phosphorylated basal state of FGFR1. Abstract Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp–Phe–Gly (DFG) motif of the activation loop, with some, including FGFR1 kinase, appearing refractory to this so-called ‘DFG flip’. Recent inhibitor-bound structures have unexpectedly revealed FGFR1 for the first time in a ‘DFG-out’ state. Here we use conformationally selective inhibitors as chemical probes for interrogation of the structural and dynamic features that appear to govern the DFG flip in FGFR1. Our detailed structural and biophysical insights identify contributions from altered dynamics in distal elements, including the αH helix, towards the outstanding stability of the DFG-out complex with the inhibitor ponatinib. We conclude that the αC-β4 loop and ‘molecular brake’ regions together impose a high energy barrier for this conformational rearrangement, and that this may have significance for maintaining autoinhibition in the non-phosphorylated basal state of FGFR1. Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp–Phe–Gly (DFG) motif of the activation loop, with some, including FGFR1 kinase, appearing refractory to this so-called ‘DFG flip’. Recent inhibitor-bound structures have unexpectedly revealed FGFR1 for the first time in a ‘DFG-out’ state. Here we use conformationally selective inhibitors as chemical probes for interrogation of the structural and dynamic features that appear to govern the DFG flip in FGFR1. Our detailed structural and biophysical insights identify contributions from altered dynamics in distal elements, including the αH helix, towards the outstanding stability of the DFG-out complex with the inhibitor ponatinib. We conclude that the αC-β4 loop and ‘molecular brake’ regions together impose a high energy barrier for this conformational rearrangement, and that this may have significance for maintaining autoinhibition in the non-phosphorylated basal state of FGFR1. Receptor tyrosine kinases are key mediators of cell proliferation that have been implicated in several disease states for which they represent promising drug targets. Here the authors determine the thermodynamic basis for the low propensity of FGFR1 to access the DFG-Phe-out conformation required to bind type-II inhibitors. Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp–Phe–Gly (DFG) motif of the activation loop, with some, including FGFR1 kinase, appearing refractory to this so-called ‘DFG flip'. Recent inhibitor-bound structures have unexpectedly revealed FGFR1 for the first time in a ‘DFG-out' state. Here we use conformationally selective inhibitors as chemical probes for interrogation of the structural and dynamic features that appear to govern the DFG flip in FGFR1. Our detailed structural and biophysical insights identify contributions from altered dynamics in distal elements, including the αH helix, towards the outstanding stability of the DFG-out complex with the inhibitor ponatinib. We conclude that the αC-β4 loop and ‘molecular brake' regions together impose a high energy barrier for this conformational rearrangement, and that this may have significance for maintaining autoinhibition in the non-phosphorylated basal state of FGFR1. Receptor tyrosine kinases are key mediators of cell proliferation that have been implicated in several disease states for which they represent promising drug targets. Here the authors determine the thermodynamic basis for the low propensity of FGFR1 to access the DFG-Phe-out conformation required to bind type-II inhibitors. |
| ArticleNumber | 7877 |
| Author | Breeze, Alexander L. Thompson, Gary S. Klein, Tobias Tucker, Julie A. Scott, Andrew D. Norman, Richard A. Phillips, Jonathan J. Higazi, Daniel R. Holdgate, Geoffrey A. Phillips, Chris Lowe, David Davies, Gareth Vajpai, Navratna |
| Author_xml | – sequence: 1 givenname: Tobias surname: Klein fullname: Klein, Tobias organization: Discovery Sciences, AstraZeneca R&D, Present addresses: Bayer Healthcare, GP Grenzach Produktions GmbH, Postfach 1146, D-79629 Grenzach-Wyhlen, Germany – sequence: 2 givenname: Navratna surname: Vajpai fullname: Vajpai, Navratna organization: Discovery Sciences, AstraZeneca R&D, Present address: Biological E. Ltd, ICICI Knowledge Park, Shameerpet, Ranga Reddy District, Hyderabad, Telangana 500078, India – sequence: 3 givenname: Jonathan J. orcidid: 0000-0002-5361-9582 surname: Phillips fullname: Phillips, Jonathan J. organization: MedImmune, Present address: Department of Chemical Engineering and Biotechnology, University of Cambridge, Cambridge CB2 3RA, UK – sequence: 4 givenname: Gareth surname: Davies fullname: Davies, Gareth organization: Discovery Sciences, AstraZeneca R&D – sequence: 5 givenname: Geoffrey A. surname: Holdgate fullname: Holdgate, Geoffrey A. organization: Discovery Sciences, AstraZeneca R&D – sequence: 6 givenname: Chris surname: Phillips fullname: Phillips, Chris organization: Discovery Sciences, AstraZeneca R&D – sequence: 7 givenname: Julie A. surname: Tucker fullname: Tucker, Julie A. organization: Discovery Sciences, AstraZeneca R&D, Present address: Northern Institute for Cancer Research, Paul O’Gorman Building, Medical School, Newcastle University, Framlington Place, Newcastle upon Tyne NE2 4HH, UK – sequence: 8 givenname: Richard A. surname: Norman fullname: Norman, Richard A. organization: Discovery Sciences, AstraZeneca R&D – sequence: 9 givenname: Andrew D. surname: Scott fullname: Scott, Andrew D. organization: Discovery Sciences, AstraZeneca R&D, Present address: Molplex Ltd, BioHub at Alderley Park, Alderley Park, Macclesfield SK10 4TG, UK – sequence: 10 givenname: Daniel R. surname: Higazi fullname: Higazi, Daniel R. organization: MedImmune – sequence: 11 givenname: David surname: Lowe fullname: Lowe, David organization: MedImmune – sequence: 12 givenname: Gary S. surname: Thompson fullname: Thompson, Gary S. organization: Astbury Centre for Structural Molecular Biology, Faculty of Biological Sciences, University of Leeds – sequence: 13 givenname: Alexander L. surname: Breeze fullname: Breeze, Alexander L. email: a.l.breeze@leeds.ac.uk organization: Discovery Sciences, AstraZeneca R&D, Astbury Centre for Structural Molecular Biology, Faculty of Biological Sciences, University of Leeds, Present address: Astbury Centre for Structural Molecular Biology, Faculty of Biological Sciences, University of Leeds, Leeds LS2 9JT, UK |
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| Copyright | The Author(s) 2015 Copyright Nature Publishing Group Jul 2015 Copyright © 2015, Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved. 2015 Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved. |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Present address: Biological E. Ltd, ICICI Knowledge Park, Shameerpet, Ranga Reddy District, Hyderabad, Telangana 500078, India These authors contributed equally to this work. Present addresses: Bayer Healthcare, GP Grenzach Produktions GmbH, Postfach 1146, D-79629 Grenzach-Wyhlen, Germany Present address: Molplex Ltd, BioHub at Alderley Park, Alderley Park, Macclesfield SK10 4TG, UK Present address: Department of Chemical Engineering and Biotechnology, University of Cambridge, Cambridge CB2 3RA, UK Present address: Astbury Centre for Structural Molecular Biology, Faculty of Biological Sciences, University of Leeds, Leeds LS2 9JT, UK Present address: Northern Institute for Cancer Research, Paul O'Gorman Building, Medical School, Newcastle University, Framlington Place, Newcastle upon Tyne NE2 4HH, UK |
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| Snippet | Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp–Phe–Gly (DFG) motif of the activation loop, with... Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp-Phe-Gly (DFG) motif of the activation loop, with... Abstract Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp–Phe–Gly (DFG) motif of the activation loop,... Protein tyrosine kinases differ widely in their propensity to undergo rearrangements of the N-terminal Asp–Phe–Gly (DFG) motif of the activation loop, with... |
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| SubjectTerms | 101/58 101/6 631/45/535 631/45/607/275 631/57/1464 631/92/56 82/103 Enzymes Escherichia coli Humanities and Social Sciences Humans Imidazoles Kinases Kinetics Magnetic Resonance Spectroscopy Mass Spectrometry Molecular biology Molecular Structure multidisciplinary NMR Nuclear magnetic resonance Pathogenesis Proteins Pyridazines Receptor, Fibroblast Growth Factor, Type 1 - antagonists & inhibitors Receptor, Fibroblast Growth Factor, Type 1 - metabolism Science Science (multidisciplinary) |
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| Title | Structural and dynamic insights into the energetics of activation loop rearrangement in FGFR1 kinase |
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