High-Throughput Assessment of Kinome-wide Activation States

Thierry Schmidlin; Donna O Debets; Charlotte A G H van Gelder; Kelly E Stecker; Stamatia Rontogianni; Bart L van den Eshof; Kristel Kemper; Esther H Lips; Maartje van den Biggelaar; Daniel S Peeper; Albert J R Heck; Maarten Altelaar

doi:10.1016/j.cels.2019.08.005

High-Throughput Assessment of Kinome-wide Activation States

Thierry Schmidlin, Donna O Debets, Charlotte A G H van Gelder, Kelly E Stecker, Stamatia Rontogianni, Bart L van den Eshof, Kristel Kemper, Esther H Lips, Maartje van den Biggelaar, Daniel S Peeper, Albert J R Heck, Maarten Altelaar

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

Abstract

Aberrant kinase activity has been linked to a variety of disorders; however, methods to probe kinase activation states in cells have been lacking. Until now, kinase activity has mainly been deduced from either protein expression or substrate phosphorylation levels. Here, we describe a strategy to directly infer kinase activation through targeted quantification of T-loop phosphorylation, which serves as a critical activation switch in a majority of protein kinases. Combining selective phosphopeptide enrichment with robust targeted mass spectrometry, we provide highly specific assays for 248 peptides, covering 221 phosphosites in the T-loop region of 178 human kinases. Using these assays, we monitored the activation of 63 kinases through 73 T-loop phosphosites across different cell types, primary cells, and patient-derived tissue material. The sensitivity of our assays is highlighted by the reproducible detection of TNF-α-induced RIPK1 activation and the detection of 46 T-loop phosphorylation sites from a breast tumor needle biopsy.

Original language	English
Pages (from-to)	366-374
Journal	Cell Systems
Volume	9
Issue number	4
DOIs	https://doi.org/10.1016/j.cels.2019.08.005
Publication status	Published - 23 Oct 2019

Keywords

phosphoproteomics
kinase
targeted mass spectrometry
SRM
signalling
cancer
T-loop phosphorylation
proteomics
kinase activity

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.cels.2019.08.005

1-s2.0-S2405471219302741-mainFinal published version, 2.78 MBLicence: CC BY

Cite this

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title = "High-Throughput Assessment of Kinome-wide Activation States",

abstract = "Aberrant kinase activity has been linked to a variety of disorders; however, methods to probe kinase activation states in cells have been lacking. Until now, kinase activity has mainly been deduced from either protein expression or substrate phosphorylation levels. Here, we describe a strategy to directly infer kinase activation through targeted quantification of T-loop phosphorylation, which serves as a critical activation switch in a majority of protein kinases. Combining selective phosphopeptide enrichment with robust targeted mass spectrometry, we provide highly specific assays for 248 peptides, covering 221 phosphosites in the T-loop region of 178 human kinases. Using these assays, we monitored the activation of 63 kinases through 73 T-loop phosphosites across different cell types, primary cells, and patient-derived tissue material. The sensitivity of our assays is highlighted by the reproducible detection of TNF-α-induced RIPK1 activation and the detection of 46 T-loop phosphorylation sites from a breast tumor needle biopsy.",

keywords = "phosphoproteomics, kinase, targeted mass spectrometry, SRM, signalling, cancer, T-loop phosphorylation, proteomics, kinase activity",

author = "Thierry Schmidlin and Debets, {Donna O} and {van Gelder}, {Charlotte A G H} and Stecker, {Kelly E} and Stamatia Rontogianni and {van den Eshof}, {Bart L} and Kristel Kemper and Lips, {Esther H} and {van den Biggelaar}, Maartje and Peeper, {Daniel S} and Heck, {Albert J R} and Maarten Altelaar",

year = "2019",

month = oct,

day = "23",

doi = "10.1016/j.cels.2019.08.005",

language = "English",

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T1 - High-Throughput Assessment of Kinome-wide Activation States

AU - Schmidlin, Thierry

AU - Debets, Donna O

AU - van Gelder, Charlotte A G H

AU - Stecker, Kelly E

AU - Rontogianni, Stamatia

AU - van den Eshof, Bart L

AU - Kemper, Kristel

AU - Lips, Esther H

AU - van den Biggelaar, Maartje

AU - Peeper, Daniel S

AU - Heck, Albert J R

AU - Altelaar, Maarten

PY - 2019/10/23

Y1 - 2019/10/23

N2 - Aberrant kinase activity has been linked to a variety of disorders; however, methods to probe kinase activation states in cells have been lacking. Until now, kinase activity has mainly been deduced from either protein expression or substrate phosphorylation levels. Here, we describe a strategy to directly infer kinase activation through targeted quantification of T-loop phosphorylation, which serves as a critical activation switch in a majority of protein kinases. Combining selective phosphopeptide enrichment with robust targeted mass spectrometry, we provide highly specific assays for 248 peptides, covering 221 phosphosites in the T-loop region of 178 human kinases. Using these assays, we monitored the activation of 63 kinases through 73 T-loop phosphosites across different cell types, primary cells, and patient-derived tissue material. The sensitivity of our assays is highlighted by the reproducible detection of TNF-α-induced RIPK1 activation and the detection of 46 T-loop phosphorylation sites from a breast tumor needle biopsy.

AB - Aberrant kinase activity has been linked to a variety of disorders; however, methods to probe kinase activation states in cells have been lacking. Until now, kinase activity has mainly been deduced from either protein expression or substrate phosphorylation levels. Here, we describe a strategy to directly infer kinase activation through targeted quantification of T-loop phosphorylation, which serves as a critical activation switch in a majority of protein kinases. Combining selective phosphopeptide enrichment with robust targeted mass spectrometry, we provide highly specific assays for 248 peptides, covering 221 phosphosites in the T-loop region of 178 human kinases. Using these assays, we monitored the activation of 63 kinases through 73 T-loop phosphosites across different cell types, primary cells, and patient-derived tissue material. The sensitivity of our assays is highlighted by the reproducible detection of TNF-α-induced RIPK1 activation and the detection of 46 T-loop phosphorylation sites from a breast tumor needle biopsy.

KW - phosphoproteomics

KW - kinase

KW - targeted mass spectrometry

KW - SRM

KW - signalling

KW - cancer

KW - T-loop phosphorylation

KW - proteomics

KW - kinase activity

U2 - 10.1016/j.cels.2019.08.005

DO - 10.1016/j.cels.2019.08.005

M3 - Article

C2 - 31521607

SN - 2405-4712

VL - 9

SP - 366

EP - 374

JO - Cell Systems

JF - Cell Systems

IS - 4

ER -

High-Throughput Assessment of Kinome-wide Activation States

Abstract

Keywords

UN SDGs

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