Proteomics

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Functional proteomics of midostaurin in lung cancer cells: Phosphotyrosine Profiling


ABSTRACT: Lung cancer is associated with high prevalence and mortality, and despite significant successes with targeted drugs in genomically defined subsets of lung cancer and immunotherapy, the majority of patients currently does not benefit from these therapies. Through a targeted drug screen, we found the recently approved multi-kinase inhibitor midostaurin to have potent activity in several lung cancer cells independent of its intended target, PKC, or a specific genomic marker. To determine the underlying mechanism of action we applied a layered functional proteomics approach and a new data integration method. Using chemical proteomics, we identified multiple midostaurin kinase targets in these cells. Network-based integration of these targets with quantitative tyrosine and global phosphoproteomics data using protein-protein interactions from the STRING database and NetworKIN substrate prediction suggested multiple targets are relevant for the mode of action of midostaurin. Subsequent functional validation using RNA interference and selective small molecule probes showed that simultaneous inhibition of TBK1, PDK1 and AURKA was required to elicit midostaurin’s cellular effects. Immunoblot analysis of downstream signaling nodes showed that combined inhibition of these targets altered PI3K/AKT and cell cycle signaling pathways that in part converged on PLK1. Furthermore, rational combination of midostaurin with the more potent PLK1 inhibitor BI2536, which is in advanced clinical trials, elicited strong synergy. Our results demonstrate that combination of complementary functional proteomics approaches and subsequent network-based data integration can reveal novel insight into the complex mode of action of multi-kinase inhibitors, actionable targets for drug discovery and cancer vulnerabilities. Finally, we illustrate how this knowledge can be utilized for the rational design of synergistic drug combinations with high potential for clinical translation.

INSTRUMENT(S): Q Exactive

ORGANISM(S): Homo Sapiens (human)

TISSUE(S): Lung

DISEASE(S): Lung Cancer

SUBMITTER: John Koomen  

LAB HEAD: Uwe Rix

PROVIDER: PXD009041 | Pride | 2018-10-03

REPOSITORIES: Pride

Dataset's files

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F004911.dat Other
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F004917.dat Other
F004919.dat Other
F004923.dat Other
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Publications

Functional Proteomics and Deep Network Interrogation Reveal a Complex Mechanism of Action of Midostaurin in Lung Cancer Cells.

Ctortecka Claudia C   Palve Vinayak V   Kuenzi Brent M BM   Fang Bin B   Sumi Natalia J NJ   Izumi Victoria V   Novakova Silvia S   Kinose Fumi F   Remsing Rix Lily L LL   Haura Eric B EB   Koomen John Matthew JM   Rix Uwe U  

Molecular & cellular proteomics : MCP 20180914 12


Lung cancer is associated with high prevalence and mortality, and despite significant successes with targeted drugs in genomically defined subsets of lung cancer and immunotherapy, the majority of patients currently does not benefit from these therapies. Through a targeted drug screen, we found the recently approved multi-kinase inhibitor midostaurin to have potent activity in several lung cancer cells independent of its intended target, PKC, or a specific genomic marker. To determine the underl  ...[more]

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