Expression profiling by high throughput sequencing Genome binding/occupancy profiling by high throughput sequencing Other
Summary
Despite progress in intensification of therapy, outcomes for patients with metastatic osteosarcoma (OS) have not improved in thirty years. We developed a system that enables preclinical screening of compounds against metastatic OS cells in the context of the native lung microenvironment. Using this strategy to screen a library of epigenetically-targeted compounds, we identified inhibitors of CDK12 to be most effective, reducing OS cell outgrowth in the lung by >90% at sub-micromolar doses. CDK12 inhibition led to defects in transcription elongation in a gene length- and expression-dependent manner. These effects were accompanied by defects in RNA processing and altered the expression of genes involved in transcription regulation and the DNA damage response. We further identify OS models that differ in their sensitivity to CDK12 inhibition in the lung and provide evidence that upregulated MYC levels may mediate these differences. Our studies provide a framework for rapid preclinical testing of compounds with anti-metastatic activity and highlight CDK12 as a potential therapeutic target in osteosarcoma.
Overall design
H3K27ac, RNA Pol 2, RNA Pol 2 Ser2, and CDK12 CHIP-seq were done for DMSO and E9 treated MG63.3-GFP and 143B-GFP osteosarcoma cells. Whole Genome Sequencing was done for the MG63.3-GFP and 143B-GFP cell lines. Finally, RNA-seq was done on DMSO or E9 treated MG63.3-GFP and 143B-GFP cells in triplicate.
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