The potential of epigenetic therapy to target the 3D epigenome in endocrine-resistant breast cancer

Joanna Achinger-Kawecka; Clare Stirzaker; Neil Portman; Elyssa Campbell; Kee-Ming Chia; Qian Du; Geraldine Laven-Law; Shalima S. Nair; Aliza Yong; Ashleigh Wilkinson; Samuel Clifton; Heloisa H. Milioli; Sarah Alexandrou; C. Elizabeth Caldon; Jenny Song; Amanda Khoury; Braydon Meyer; Wenhan Chen; Ruth Pidsley; Wenjia Qu; Julia M.W. Gee; Anthony Schmitt; Emily S. Wong; Theresa E. Hickey; Elgene Lim; Susan J. Clark

doi:10.1038/s41594-023-01181-7

The potential of epigenetic therapy to target the 3D epigenome in endocrine-resistant breast cancer

Joanna Achinger-Kawecka, Clare Stirzaker, Neil Portman, Elyssa Campbell, Kee-Ming Chia, Qian Du, Geraldine Laven-Law, Shalima S. Nair, Aliza Yong, Ashleigh Wilkinson, Samuel Clifton, Heloisa H. Milioli, Sarah Alexandrou, C. Elizabeth Caldon, Jenny Song, Amanda Khoury, Braydon Meyer, Wenhan Chen, Ruth Pidsley, Wenjia QuJulia M.W. Gee, Anthony Schmitt, Emily S. Wong, Theresa E. Hickey, Elgene Lim, Susan J. Clark

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Abstract

Three-dimensional (3D) epigenome remodeling is an important mechanism of gene deregulation in cancer. However, its potential as a target to counteract therapy resistance remains largely unaddressed. Here, we show that epigenetic therapy with decitabine (5-Aza-mC) suppresses tumor growth in xenograft models of pre-clinical metastatic estrogen receptor positive (ER+) breast tumor. Decitabine-induced genome-wide DNA hypomethylation results in large-scale 3D epigenome deregulation, including de-compaction of higher-order chromatin structure and loss of boundary insulation of topologically associated domains. Significant DNA hypomethylation associates with ectopic activation of ER-enhancers, gain in ER binding, creation of new 3D enhancer–promoter interactions and concordant up-regulation of ER-mediated transcription pathways. Importantly, long-term withdrawal of epigenetic therapy partially restores methylation at ER-enhancer elements, resulting in a loss of ectopic 3D enhancer–promoter interactions and associated gene repression. Our study illustrates the potential of epigenetic therapy to target ER+ endocrine-resistant breast cancer by DNA methylation-dependent rewiring of 3D chromatin interactions, which are associated with the suppression of tumor growth.

Original language	English
Pages (from-to)	498-512
Number of pages	15
Journal	Nature Structural and Molecular Biology
Volume	31
Issue number	3
Early online date	5 Jan 2024
DOIs	https://doi.org/10.1038/s41594-023-01181-7
Publication status	Published - Mar 2024
Externally published	Yes

Keywords

three-dimensional (3D) epigenome
Epigenome
epigenetic therapy
endocrine-resistant
breast cancer
gene deregulation
decitabine (5-Aza-mC)
tumor growth

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41594-023-01181-7Licence: CC BY

Final published versionFinal published version, 7.44 MBLicence: CC BY

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Achinger-Kawecka, J., Stirzaker, C., Portman, N., Campbell, E., Chia, K.-M., Du, Q., Laven-Law, G., Nair, S. S., Yong, A., Wilkinson, A., Clifton, S., Milioli, H. H., Alexandrou, S., Caldon, C. E., Song, J., Khoury, A., Meyer, B., Chen, W., Pidsley, R., ... Clark, S. J. (2024). The potential of epigenetic therapy to target the 3D epigenome in endocrine-resistant breast cancer. Nature Structural and Molecular Biology, 31(3), 498-512. https://doi.org/10.1038/s41594-023-01181-7

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title = "The potential of epigenetic therapy to target the 3D epigenome in endocrine-resistant breast cancer",

abstract = "Three-dimensional (3D) epigenome remodeling is an important mechanism of gene deregulation in cancer. However, its potential as a target to counteract therapy resistance remains largely unaddressed. Here, we show that epigenetic therapy with decitabine (5-Aza-mC) suppresses tumor growth in xenograft models of pre-clinical metastatic estrogen receptor positive (ER+) breast tumor. Decitabine-induced genome-wide DNA hypomethylation results in large-scale 3D epigenome deregulation, including de-compaction of higher-order chromatin structure and loss of boundary insulation of topologically associated domains. Significant DNA hypomethylation associates with ectopic activation of ER-enhancers, gain in ER binding, creation of new 3D enhancer–promoter interactions and concordant up-regulation of ER-mediated transcription pathways. Importantly, long-term withdrawal of epigenetic therapy partially restores methylation at ER-enhancer elements, resulting in a loss of ectopic 3D enhancer–promoter interactions and associated gene repression. Our study illustrates the potential of epigenetic therapy to target ER+ endocrine-resistant breast cancer by DNA methylation-dependent rewiring of 3D chromatin interactions, which are associated with the suppression of tumor growth.",

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doi = "10.1038/s41594-023-01181-7",

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Achinger-Kawecka, J, Stirzaker, C, Portman, N, Campbell, E, Chia, K-M, Du, Q, Laven-Law, G, Nair, SS, Yong, A, Wilkinson, A, Clifton, S, Milioli, HH, Alexandrou, S, Caldon, CE, Song, J, Khoury, A, Meyer, B, Chen, W, Pidsley, R, Qu, W, Gee, JMW, Schmitt, A, Wong, ES, Hickey, TE, Lim, E & Clark, SJ 2024, 'The potential of epigenetic therapy to target the 3D epigenome in endocrine-resistant breast cancer', Nature Structural and Molecular Biology, vol. 31, no. 3, pp. 498-512. https://doi.org/10.1038/s41594-023-01181-7

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AU - Achinger-Kawecka, Joanna

AU - Stirzaker, Clare

AU - Portman, Neil

AU - Campbell, Elyssa

AU - Chia, Kee-Ming

AU - Du, Qian

AU - Laven-Law, Geraldine

AU - Nair, Shalima S.

AU - Yong, Aliza

AU - Wilkinson, Ashleigh

AU - Clifton, Samuel

AU - Milioli, Heloisa H.

AU - Alexandrou, Sarah

AU - Caldon, C. Elizabeth

AU - Song, Jenny

AU - Khoury, Amanda

AU - Meyer, Braydon

AU - Chen, Wenhan

AU - Pidsley, Ruth

AU - Qu, Wenjia

AU - Gee, Julia M.W.

AU - Schmitt, Anthony

AU - Wong, Emily S.

AU - Hickey, Theresa E.

AU - Lim, Elgene

AU - Clark, Susan J.

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N2 - Three-dimensional (3D) epigenome remodeling is an important mechanism of gene deregulation in cancer. However, its potential as a target to counteract therapy resistance remains largely unaddressed. Here, we show that epigenetic therapy with decitabine (5-Aza-mC) suppresses tumor growth in xenograft models of pre-clinical metastatic estrogen receptor positive (ER+) breast tumor. Decitabine-induced genome-wide DNA hypomethylation results in large-scale 3D epigenome deregulation, including de-compaction of higher-order chromatin structure and loss of boundary insulation of topologically associated domains. Significant DNA hypomethylation associates with ectopic activation of ER-enhancers, gain in ER binding, creation of new 3D enhancer–promoter interactions and concordant up-regulation of ER-mediated transcription pathways. Importantly, long-term withdrawal of epigenetic therapy partially restores methylation at ER-enhancer elements, resulting in a loss of ectopic 3D enhancer–promoter interactions and associated gene repression. Our study illustrates the potential of epigenetic therapy to target ER+ endocrine-resistant breast cancer by DNA methylation-dependent rewiring of 3D chromatin interactions, which are associated with the suppression of tumor growth.

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KW - endocrine-resistant

KW - breast cancer

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KW - decitabine (5-Aza-mC)

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The potential of epigenetic therapy to target the 3D epigenome in endocrine-resistant breast cancer

Abstract

Keywords

UN SDGs

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