Ex vivo screen identifies CDK12 as a metastatic vulnerability in osteosarcoma

Ian Bayles; Malgorzata Krajewska; W. Dean Pontius; Alina Saiakhova; James J. Morrow; Cynthia Bartels; Jim Lu; Zachary J. Faber; Yuriy Fedorov; Ellen S. Hong; Jaret M. Karnuta; Brian Rubin; Drew J. Adams; Rani E. George; Peter C. Scacheri

doi:10.1172/JCI127718

Ex vivo screen identifies CDK12 as a metastatic vulnerability in osteosarcoma

Ian Bayles
, Malgorzata Krajewska
, W. Dean Pontius
, Alina Saiakhova
, James J. Morrow
, Cynthia Bartels
, Jim Lu
, Zachary J. Faber
, Yuriy Fedorov
, Ellen S. Hong
, Jaret M. Karnuta
, Brian Rubin
, Drew J. Adams
, Rani E. George
, Peter C. Scacheri

Case Western Reserve University
Boston Children's Hospital
Cleveland Clinic Lerner College of Medicine of Case Western Reserve University
Cleveland Clinic Foundation

Research output: Contribution to journal › Article › peer-review

Abstract

Despite progress in intensification of therapy, outcomes for patients with metastatic osteosarcoma (OS) have not improved in thirty years. We developed a system that enabled 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 more than 90% at submicromolar doses. We found that knockout of CDK12 in an in vivo model of lung metastasis significantly decreased the ability of OS to colonize the lung. CDK12 inhibition led to defects in transcription elongation in a gene length- and expressiondependent 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 identified OS models that differ in their sensitivity to CDK12 inhibition in the lung and provided evidence that upregulated MYC levels may mediate these differences. Our studies provided a framework for rapid preclinical testing of compounds with antimetastatic activity and highlighted CDK12 as a potential therapeutic target in OS.

Original language	English
Pages (from-to)	4377-4392
Number of pages	16
Journal	Journal of Clinical Investigation
Volume	129
Issue number	10
DOIs	https://doi.org/10.1172/JCI127718
Publication status	Published - 1 Oct 2019
Externally published	Yes

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10.1172/JCI127718

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Bayles, I., Krajewska, M., Pontius, W. D., Saiakhova, A., Morrow, J. J., Bartels, C., Lu, J., Faber, Z. J., Fedorov, Y., Hong, E. S., Karnuta, J. M., Rubin, B., Adams, D. J., George, R. E., & Scacheri, P. C. (2019). Ex vivo screen identifies CDK12 as a metastatic vulnerability in osteosarcoma. Journal of Clinical Investigation, 129(10), 4377-4392. https://doi.org/10.1172/JCI127718

@article{dc44f796ccf9419c8f0d68bdcd136e13,

title = "Ex vivo screen identifies CDK12 as a metastatic vulnerability in osteosarcoma",

abstract = "Despite progress in intensification of therapy, outcomes for patients with metastatic osteosarcoma (OS) have not improved in thirty years. We developed a system that enabled 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 more than 90\% at submicromolar doses. We found that knockout of CDK12 in an in vivo model of lung metastasis significantly decreased the ability of OS to colonize the lung. CDK12 inhibition led to defects in transcription elongation in a gene length- and expressiondependent 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 identified OS models that differ in their sensitivity to CDK12 inhibition in the lung and provided evidence that upregulated MYC levels may mediate these differences. Our studies provided a framework for rapid preclinical testing of compounds with antimetastatic activity and highlighted CDK12 as a potential therapeutic target in OS.",

author = "Ian Bayles and Malgorzata Krajewska and Pontius, \{W. Dean\} and Alina Saiakhova and Morrow, \{James J.\} and Cynthia Bartels and Jim Lu and Faber, \{Zachary J.\} and Yuriy Fedorov and Hong, \{Ellen S.\} and Karnuta, \{Jaret M.\} and Brian Rubin and Adams, \{Drew J.\} and George, \{Rani E.\} and Scacheri, \{Peter C.\}",

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year = "2019",

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doi = "10.1172/JCI127718",

language = "English",

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AU - Bayles, Ian

AU - Krajewska, Malgorzata

AU - Pontius, W. Dean

AU - Saiakhova, Alina

AU - Morrow, James J.

AU - Bartels, Cynthia

AU - Lu, Jim

AU - Faber, Zachary J.

AU - Fedorov, Yuriy

AU - Hong, Ellen S.

AU - Karnuta, Jaret M.

AU - Rubin, Brian

AU - Adams, Drew J.

AU - George, Rani E.

AU - Scacheri, Peter C.

PY - 2019/10/1

Y1 - 2019/10/1

N2 - Despite progress in intensification of therapy, outcomes for patients with metastatic osteosarcoma (OS) have not improved in thirty years. We developed a system that enabled 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 more than 90% at submicromolar doses. We found that knockout of CDK12 in an in vivo model of lung metastasis significantly decreased the ability of OS to colonize the lung. CDK12 inhibition led to defects in transcription elongation in a gene length- and expressiondependent 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 identified OS models that differ in their sensitivity to CDK12 inhibition in the lung and provided evidence that upregulated MYC levels may mediate these differences. Our studies provided a framework for rapid preclinical testing of compounds with antimetastatic activity and highlighted CDK12 as a potential therapeutic target in OS.

AB - Despite progress in intensification of therapy, outcomes for patients with metastatic osteosarcoma (OS) have not improved in thirty years. We developed a system that enabled 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 more than 90% at submicromolar doses. We found that knockout of CDK12 in an in vivo model of lung metastasis significantly decreased the ability of OS to colonize the lung. CDK12 inhibition led to defects in transcription elongation in a gene length- and expressiondependent 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 identified OS models that differ in their sensitivity to CDK12 inhibition in the lung and provided evidence that upregulated MYC levels may mediate these differences. Our studies provided a framework for rapid preclinical testing of compounds with antimetastatic activity and highlighted CDK12 as a potential therapeutic target in OS.

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SN - 0021-9738

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SP - 4377

EP - 4392

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 10

ER -

Ex vivo screen identifies CDK12 as a metastatic vulnerability in osteosarcoma

Abstract

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