Chemical proteomics reveals the target landscape of 1,000 kinase inhibitors

Maria Reinecke; Paul Brear; Larsen Vornholz; Benedict Tilmann Berger; Florian Seefried; Stephanie Wilhelm; Patroklos Samaras; Laszlo Gyenis; David William Litchfield; Guillaume Médard; Susanne Müller; Jürgen Ruland; Marko Hyvönen; Mathias Wilhelm; Bernhard Kuster

doi:10.1038/s41589-023-01459-3

Chemical proteomics reveals the target landscape of 1,000 kinase inhibitors

Maria Reinecke, Paul Brear, Larsen Vornholz, Benedict Tilmann Berger, Florian Seefried, Stephanie Wilhelm, Patroklos Samaras, Laszlo Gyenis, David William Litchfield, Guillaume Médard, Susanne Müller, Jürgen Ruland, Marko Hyvönen, Mathias Wilhelm, Bernhard Kuster

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

21 Zitate (Scopus)

Abstract

Medicinal chemistry has discovered thousands of potent protein and lipid kinase inhibitors. These may be developed into therapeutic drugs or chemical probes to study kinase biology. Because of polypharmacology, a large part of the human kinome currently lacks selective chemical probes. To discover such probes, we profiled 1,183 compounds from drug discovery projects in lysates of cancer cell lines using Kinobeads. The resulting 500,000 compound–target interactions are available in ProteomicsDB and we exemplify how this molecular resource may be used. For instance, the data revealed several hundred reasonably selective compounds for 72 kinases. Cellular assays validated GSK986310C as a candidate SYK (spleen tyrosine kinase) probe and X-ray crystallography uncovered the structural basis for the observed selectivity of the CK2 inhibitor GW869516X. Compounds targeting PKN3 were discovered and phosphoproteomics identified substrates that indicate target engagement in cells. We anticipate that this molecular resource will aid research in drug discovery and chemical biology. (Figure presented.).

Originalsprache	Englisch
Seiten (von - bis)	577-585
Seitenumfang	9
Fachzeitschrift	Nature Chemical Biology
Jahrgang	20
Ausgabenummer	5
DOIs	https://doi.org/10.1038/s41589-023-01459-3
Publikationsstatus	Veröffentlicht - Mai 2024

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Reinecke, M., Brear, P., Vornholz, L., Berger, B. T., Seefried, F., Wilhelm, S., Samaras, P., Gyenis, L., Litchfield, D. W., Médard, G., Müller, S., Ruland, J., Hyvönen, M., Wilhelm, M., & Kuster, B. (2024). Chemical proteomics reveals the target landscape of 1,000 kinase inhibitors. Nature Chemical Biology, 20(5), 577-585. https://doi.org/10.1038/s41589-023-01459-3

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abstract = "Medicinal chemistry has discovered thousands of potent protein and lipid kinase inhibitors. These may be developed into therapeutic drugs or chemical probes to study kinase biology. Because of polypharmacology, a large part of the human kinome currently lacks selective chemical probes. To discover such probes, we profiled 1,183 compounds from drug discovery projects in lysates of cancer cell lines using Kinobeads. The resulting 500,000 compound–target interactions are available in ProteomicsDB and we exemplify how this molecular resource may be used. For instance, the data revealed several hundred reasonably selective compounds for 72 kinases. Cellular assays validated GSK986310C as a candidate SYK (spleen tyrosine kinase) probe and X-ray crystallography uncovered the structural basis for the observed selectivity of the CK2 inhibitor GW869516X. Compounds targeting PKN3 were discovered and phosphoproteomics identified substrates that indicate target engagement in cells. We anticipate that this molecular resource will aid research in drug discovery and chemical biology. (Figure presented.).",

author = "Maria Reinecke and Paul Brear and Larsen Vornholz and Berger, {Benedict Tilmann} and Florian Seefried and Stephanie Wilhelm and Patroklos Samaras and Laszlo Gyenis and Litchfield, {David William} and Guillaume M{\'e}dard and Susanne M{\"u}ller and J{\"u}rgen Ruland and Marko Hyv{\"o}nen and Mathias Wilhelm and Bernhard Kuster",

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doi = "10.1038/s41589-023-01459-3",

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AU - Brear, Paul

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AU - Seefried, Florian

AU - Wilhelm, Stephanie

AU - Samaras, Patroklos

AU - Gyenis, Laszlo

AU - Litchfield, David William

AU - Médard, Guillaume

AU - Müller, Susanne

AU - Ruland, Jürgen

AU - Hyvönen, Marko

AU - Wilhelm, Mathias

AU - Kuster, Bernhard

PY - 2024/5

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N2 - Medicinal chemistry has discovered thousands of potent protein and lipid kinase inhibitors. These may be developed into therapeutic drugs or chemical probes to study kinase biology. Because of polypharmacology, a large part of the human kinome currently lacks selective chemical probes. To discover such probes, we profiled 1,183 compounds from drug discovery projects in lysates of cancer cell lines using Kinobeads. The resulting 500,000 compound–target interactions are available in ProteomicsDB and we exemplify how this molecular resource may be used. For instance, the data revealed several hundred reasonably selective compounds for 72 kinases. Cellular assays validated GSK986310C as a candidate SYK (spleen tyrosine kinase) probe and X-ray crystallography uncovered the structural basis for the observed selectivity of the CK2 inhibitor GW869516X. Compounds targeting PKN3 were discovered and phosphoproteomics identified substrates that indicate target engagement in cells. We anticipate that this molecular resource will aid research in drug discovery and chemical biology. (Figure presented.).

AB - Medicinal chemistry has discovered thousands of potent protein and lipid kinase inhibitors. These may be developed into therapeutic drugs or chemical probes to study kinase biology. Because of polypharmacology, a large part of the human kinome currently lacks selective chemical probes. To discover such probes, we profiled 1,183 compounds from drug discovery projects in lysates of cancer cell lines using Kinobeads. The resulting 500,000 compound–target interactions are available in ProteomicsDB and we exemplify how this molecular resource may be used. For instance, the data revealed several hundred reasonably selective compounds for 72 kinases. Cellular assays validated GSK986310C as a candidate SYK (spleen tyrosine kinase) probe and X-ray crystallography uncovered the structural basis for the observed selectivity of the CK2 inhibitor GW869516X. Compounds targeting PKN3 were discovered and phosphoproteomics identified substrates that indicate target engagement in cells. We anticipate that this molecular resource will aid research in drug discovery and chemical biology. (Figure presented.).

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Chemical proteomics reveals the target landscape of 1,000 kinase inhibitors

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