Dynamically Coupled Residues within the SH2 Domain of FYN Are Key to Unlocking Its Activity

Radu Huculeci; Elisa Cilia; Agatha Lyczek; Lieven Buts; Klaartje Houben; Markus A Seeliger; Nico van Nuland; Tom Lenaerts

doi:10.1016/j.str.2016.08.016

Dynamically Coupled Residues within the SH2 Domain of FYN Are Key to Unlocking Its Activity

Radu Huculeci, Elisa Cilia, Agatha Lyczek, Lieven Buts, Klaartje Houben, Markus A Seeliger, Nico van Nuland^*, Tom Lenaerts^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Src kinase activity is controlled by various mechanisms involving a coordinated movement of kinase and regulatory domains. Notwithstanding the extensive knowledge related to the backbone dynamics, little is known about the more subtle side-chain dynamics within the regulatory domains and their role in the activation process. Here, we show through experimental methyl dynamic results and predicted changes in side-chain conformational couplings that the SH2 structure of Fyn contains a dynamic network capable of propagating binding information. We reveal that binding the phosphorylated tail of Fyn perturbs a residue cluster near the linker connecting the SH2 and SH3 domains of Fyn, which is known to be relevant in the regulation of the activity of Fyn. Biochemical perturbation experiments validate that those residues are essential for inhibition of Fyn, leading to a gain of function upon mutation. These findings reveal how side-chain dynamics may facilitate the allosteric regulation of the different members of the Src kinase family.

Original language	English
Pages (from-to)	1947–1959
Number of pages	13
Journal	Structure
Volume	24
Issue number	11
DOIs	https://doi.org/10.1016/j.str.2016.08.016
Publication status	Published - 28 Sept 2016

Keywords

Fyn
SH2
methyl dynamics
prediction
long-range communication
regulation
Src-like kinases

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10.1016/j.str.2016.08.016

DynamicallyFinal published version, 4.08 MBLicence: Taverne

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title = "Dynamically Coupled Residues within the SH2 Domain of FYN Are Key to Unlocking Its Activity",

abstract = "Src kinase activity is controlled by various mechanisms involving a coordinated movement of kinase and regulatory domains. Notwithstanding the extensive knowledge related to the backbone dynamics, little is known about the more subtle side-chain dynamics within the regulatory domains and their role in the activation process. Here, we show through experimental methyl dynamic results and predicted changes in side-chain conformational couplings that the SH2 structure of Fyn contains a dynamic network capable of propagating binding information. We reveal that binding the phosphorylated tail of Fyn perturbs a residue cluster near the linker connecting the SH2 and SH3 domains of Fyn, which is known to be relevant in the regulation of the activity of Fyn. Biochemical perturbation experiments validate that those residues are essential for inhibition of Fyn, leading to a gain of function upon mutation. These findings reveal how side-chain dynamics may facilitate the allosteric regulation of the different members of the Src kinase family.",

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author = "Radu Huculeci and Elisa Cilia and Agatha Lyczek and Lieven Buts and Klaartje Houben and Seeliger, {Markus A} and {van Nuland}, Nico and Tom Lenaerts",

year = "2016",

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doi = "10.1016/j.str.2016.08.016",

language = "English",

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T1 - Dynamically Coupled Residues within the SH2 Domain of FYN Are Key to Unlocking Its Activity

AU - Huculeci, Radu

AU - Cilia, Elisa

AU - Lyczek, Agatha

AU - Buts, Lieven

AU - Houben, Klaartje

AU - Seeliger, Markus A

AU - van Nuland, Nico

AU - Lenaerts, Tom

PY - 2016/9/28

Y1 - 2016/9/28

N2 - Src kinase activity is controlled by various mechanisms involving a coordinated movement of kinase and regulatory domains. Notwithstanding the extensive knowledge related to the backbone dynamics, little is known about the more subtle side-chain dynamics within the regulatory domains and their role in the activation process. Here, we show through experimental methyl dynamic results and predicted changes in side-chain conformational couplings that the SH2 structure of Fyn contains a dynamic network capable of propagating binding information. We reveal that binding the phosphorylated tail of Fyn perturbs a residue cluster near the linker connecting the SH2 and SH3 domains of Fyn, which is known to be relevant in the regulation of the activity of Fyn. Biochemical perturbation experiments validate that those residues are essential for inhibition of Fyn, leading to a gain of function upon mutation. These findings reveal how side-chain dynamics may facilitate the allosteric regulation of the different members of the Src kinase family.

AB - Src kinase activity is controlled by various mechanisms involving a coordinated movement of kinase and regulatory domains. Notwithstanding the extensive knowledge related to the backbone dynamics, little is known about the more subtle side-chain dynamics within the regulatory domains and their role in the activation process. Here, we show through experimental methyl dynamic results and predicted changes in side-chain conformational couplings that the SH2 structure of Fyn contains a dynamic network capable of propagating binding information. We reveal that binding the phosphorylated tail of Fyn perturbs a residue cluster near the linker connecting the SH2 and SH3 domains of Fyn, which is known to be relevant in the regulation of the activity of Fyn. Biochemical perturbation experiments validate that those residues are essential for inhibition of Fyn, leading to a gain of function upon mutation. These findings reveal how side-chain dynamics may facilitate the allosteric regulation of the different members of the Src kinase family.

KW - Fyn

KW - SH2

KW - methyl dynamics

KW - prediction

KW - long-range communication

KW - regulation

KW - Src-like kinases

U2 - 10.1016/j.str.2016.08.016

DO - 10.1016/j.str.2016.08.016

M3 - Article

C2 - 27692963

SN - 0969-2126

VL - 24

SP - 1947

EP - 1959

JO - Structure

JF - Structure

IS - 11

ER -

Dynamically Coupled Residues within the SH2 Domain of FYN Are Key to Unlocking Its Activity

Abstract

Keywords

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