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Literature DB >> 33509944

3D Functional Genomics Screens Identify CREBBP as a Targetable Driver in Aggressive Triple-Negative Breast Cancer.

Philip Bland^1,2, Ioanna Mavrommati^1,2, Gareth Muirhead¹, Barrie Peck^1,2, Hannah Cottom^1,2, Patty T Wai^1,2, Sarah L Maguire^1,3, Holly E Barker^1,4, Eamonn Morrison¹, Divya Kriplani¹, Lu Yu⁵, Amy Gibson^1,2, Giulia Falgari^1,2, Keith Brennan⁶, Gillian Farnie⁷, Richard Buus¹, Rebecca Marlow^1,8, Daniela Novo¹, Eleanor Knight¹, Naomi Guppy¹, Daniela Kolarevic⁹, Snezana Susnjar¹⁰, Natasa Medic Milijic¹¹, Kalnisha Naidoo¹, Patrycja Gazinska¹, Ioannis Roxanis¹, Sunil Pancholi¹, Lesley-Ann Martin¹, Erle M Holgersen¹, Maggie C U Cheang¹², Farzana Noor¹, Sophie Postel-Vinay^13,14, Gerard Quinn³, Simon McDade³, Lukas Krasny², Paul Huang², Frances Daley¹, Fredrik Wallberg¹, Jyoti S Choudhary⁵, Syed Haider¹, Andrew N Tutt^1,8, Rachael Natrajan^15,2.

Abstract

Triple-negative breast cancers (TNBC) are resistant to standard-of-care chemotherapy and lack known targetable driver gene alterations. Identification of novel drivers could aid the discovery of new treatment strategies for this hard-to-treat patient population, yet studies using high-throughput and accurate models to define the functions of driver genes in TNBC to date have been limited. Here, we employed unbiased functional genomics screening of the 200 most frequently mutated genes in breast cancer, using spheroid cultures to model in vivo-like conditions, and identified the histone acetyltransferase CREBBP as a novel tumor suppressor in TNBC. CREBBP protein expression in patient tumor samples was absent in 8% of TNBCs and at a high frequency in other tumors, including squamous lung cancer, where CREBBP-inactivating mutations are common. In TNBC, CREBBP alterations were associated with higher genomic heterogeneity and poorer patient survival and resulted in upregulation and dependency on a FOXM1 proliferative program. Targeting FOXM1-driven proliferation indirectly with clinical CDK4/6 inhibitors (CDK4/6i) selectively impaired growth in spheroids, cell line xenografts, and patient-derived models from multiple tumor types with CREBBP mutations or loss of protein expression. In conclusion, we have identified CREBBP as a novel driver in aggressive TNBC and identified an associated genetic vulnerability in tumor cells with alterations in CREBBP and provide a preclinical rationale for assessing CREBBP alterations as a biomarker of CDK4/6i response in a new patient population. SIGNIFICANCE: This study demonstrates that CREBBP genomic alterations drive aggressive TNBC, lung cancer, and lymphomas and may be selectively treated with clinical CDK4/6 inhibitors. ©2021 American Association for Cancer Research.

Entities: Chemical

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Year: 2021 PMID： 33509944 PMCID： PMC7611219 DOI： 10.1158/0008-5472.CAN-20-1822

Source DB: PubMed Journal: Cancer Res ISSN： 0008-5472 Impact factor: 12.701

56 in total

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Journal: Nature Date: 2011-03-10 Impact factor: 49.962

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Journal: Nature Date: 2012-03-28 Impact factor: 49.962

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Journal: Nucleic Acids Res Date: 2014-12-16 Impact factor: 16.971

8. Crebbp Loss Drives Small Cell Lung Cancer and Increases Sensitivity to HDAC Inhibition.

Authors: Deshui Jia; Arnaud Augert; Dong-Wook Kim; Emily Eastwood; Nan Wu; Ali H Ibrahim; Kee-Beom Kim; Colin T Dunn; Smitha P S Pillai; Adi F Gazdar; Hamid Bolouri; Kwon-Sik Park; David MacPherson
Journal: Cancer Discov Date: 2018-09-04 Impact factor: 38.272

9. Acetylation of FOXM1 is essential for its transactivation and tumor growth stimulation.

Authors: Cuicui Lv; Ganye Zhao; Xinpei Sun; Pan Wang; Nan Xie; Jianyuan Luo; Tanjun Tong
Journal: Oncotarget Date: 2016-09-13

10. CRISPR screens in cancer spheroids identify 3D growth-specific vulnerabilities.

Authors: Kyuho Han; Sarah E Pierce; Amy Li; Kaitlyn Spees; Gray R Anderson; Jose A Seoane; Yuan-Hung Lo; Michael Dubreuil; Micah Olivas; Roarke A Kamber; Michael Wainberg; Kaja Kostyrko; Marcus R Kelly; Maryam Yousefi; Scott W Simpkins; David Yao; Keonil Lee; Calvin J Kuo; Peter K Jackson; Alejandro Sweet-Cordero; Anshul Kundaje; Andrew J Gentles; Christina Curtis; Monte M Winslow; Michael C Bassik
Journal: Nature Date: 2020-03-11 Impact factor: 49.962

2 in total

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Journal: EMBO J Date: 2022-01-17 Impact factor: 14.012

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2 in total