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Mechanistic Insights into a CDK9 Inhibitor Via Orthogonal Proteomics Methods.

J Adam Hendricks, Nigel Beaton, Alexey Chernobrovkin, Eric Miele, Ghaith M Hamza, Piero Ricchiuto, Ronald C Tomlinson, Tomas Friman, Cassandra Borenstain, Bernard Barlaam, Sudhir Hande, Michelle L Lamb, Chris De Savi, Rick Davies, Martin Main, Joakim Hellner, Kristina Beeler, Yuehan Feng, Roland Bruderer, Lukas Reiter, Daniel Martinez Molina, M Paola Castaldi

ACS chemical biology 2022 Jan 21


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    Cyclin-dependent-kinases (CDKs) are members of the serine/threonine kinase family and are highly regulated by cyclins, a family of regulatory subunits that bind to CDKs. CDK9 represents one of the most studied examples of these transcriptional CDKs. CDK9 forms a heterodimeric complex with its regulatory subunit cyclins T1, T2 and K to form the positive transcription elongation factor b (P-TEFb). This complex regulates transcription via the phosphorylation of RNA polymerase II (RNAPolII) on Ser-2, facilitating promoter clearance and transcription elongation and thus remains an attractive therapeutic target. Herein, we have utilized classical affinity purification chemical proteomics, kinobeads assay, compressed CEllular Thermal Shift Assay (CETSA)-MS and Limited Proteolysis (LiP) to study the selectivity, target engagement and downstream mechanistic insights of a CDK9 tool compound. The above experiments highlight the value of quantitative mass spectrometry approaches to drug discovery, specifically proteome wide target identification and selectivity profiling. The approaches utilized in this study unanimously indicated that the CDK family of kinases are the main target of the compound of interest, with CDK9, showing the highest target affinity with remarkable consistency across approaches. We aim to provide guidance to the scientific community on the available chemical biology/proteomic tools to study advanced lead molecules and to highlight pros and cons of each technology while describing our findings in the context of the CDKs biology.

    Citation

    J Adam Hendricks, Nigel Beaton, Alexey Chernobrovkin, Eric Miele, Ghaith M Hamza, Piero Ricchiuto, Ronald C Tomlinson, Tomas Friman, Cassandra Borenstain, Bernard Barlaam, Sudhir Hande, Michelle L Lamb, Chris De Savi, Rick Davies, Martin Main, Joakim Hellner, Kristina Beeler, Yuehan Feng, Roland Bruderer, Lukas Reiter, Daniel Martinez Molina, M Paola Castaldi. Mechanistic Insights into a CDK9 Inhibitor Via Orthogonal Proteomics Methods. ACS chemical biology. 2022 Jan 21;17(1):54-67

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    PMID: 34955012

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