Zuzanna Kozicka scite author profile

Molecular glue compounds induce protein-protein interactions that, inthe context of a ubiquitin ligase, lead to protein degradation. 1 Unlike traditional enzyme inhibitors, such molecular glue degraders act sub-stoichiometrically to catalyse rapid depletion of previously inaccessible targets. 2 They are clinically effective and highly sought-after, but have thus far only been discovered serendipitously. Through systematic mining of databases for correlations between the cytotoxicity of 4,518 clinical and pre-clinical small molecules and E3 ligase expression levels across hundreds of human cancer cell lines, 3-5 we identified CR8, a cyclin-dependent kinase (CDK) inhibitor, 6 as a compound that acts as a molecular glue degrader. A solvent-exposed pyridyl moiety of CR8, in its CDKbound form, induces CDK12-cyclin K complex formation with DDB1, the CUL4 adaptor protein, bypassing the requirement for a substrate receptor and presenting cyclin K (cycK) for ubiquitination and degradation. Our studies demonstrate that chemical alteration of surface-exposed moieties can confer gain-of-function glue properties to an inhibitor, and we propose this as a broader strategy to turn target binders into molecular glues.

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Rational discovery of molecular glue degraders via scalable chemical profiling

Mayor‐Ruiz

et al. 2020

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Mechanisms of OCT4-SOX2 motif readout on nucleosomes

Michael

Grand

Isbel

et al. 2020

Science

201

184

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Transcription factors (TFs) regulate gene expression through chromatin where nucleosomes restrict DNA access. To study how TFs bind nucleosome-occupied motifs, we focused on the reprogramming factors OCT4 and SOX2 in mouse embryonic stem cells. We determined TF engagement throughout a nucleosome at base-pair resolution in vitro, enabling structure determination by cryo–electron microscopy at two preferred positions. Depending on motif location, OCT4 and SOX2 differentially distort nucleosomal DNA. At one position, OCT4-SOX2 removes DNA from histone H2A and histone H3; however, at an inverted motif, the TFs only induce local DNA distortions. OCT4 uses one of its two DNA-binding domains to engage DNA in both structures, reading out a partial motif. These findings explain site-specific nucleosome engagement by the pluripotency factors OCT4 and SOX2, and they reveal how TFs distort nucleosomes to access chromatinized motifs.

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Zuzanna Kozicka

The CDK inhibitor CR8 acts as a molecular glue degrader that depletes cyclin K

Rational discovery of molecular glue degraders via scalable chemical profiling

Mechanisms of OCT4-SOX2 motif readout on nucleosomes

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