ecDNA hubs drive cooperative intermolecular oncogene expression

King L. Hung; Kathryn E. Yost; Liangqi Xie; Quanming Shi; Konstantin Helmsauer; Jens Luebeck; Robert Schöpflin; Joshua T. Lange; Rocío Chamorro González; Natasha E. Weiser; Celine Chen; Maria E. Valieva; Ivy Tsz Lo Wong; Sihan Wu; Siavash R. Dehkordi; Connor V. Duffy; Katerina Kraft; Jun Tang; Julia A. Belk; John C. Rose; M. Ryan Corces; Jeffrey M. Granja; Rui Li; Utkrisht Rajkumar; Jordan Friedlein; Anindya Bagchi; Ansuman T. Satpathy; Robert Tjian; Stefan Mundlos; Vineet Bafna; Anton G. Henssen; Paul S. Mischel; Zhe Liu; Howard Y. Chang

doi:10.1038/s41586-021-04116-8

ecDNA hubs drive cooperative intermolecular oncogene expression

King L. Hung, Kathryn E. Yost, Liangqi Xie, Quanming Shi, Konstantin Helmsauer, Jens Luebeck, Robert Schöpflin, Joshua T. Lange, Rocío Chamorro González, Natasha E. Weiser, Celine Chen, Maria E. Valieva, Ivy Tsz Lo Wong, Sihan Wu, Siavash R. Dehkordi, Connor V. Duffy, Katerina Kraft, Jun Tang, Julia A. Belk, John C. RoseM. Ryan Corces, Jeffrey M. Granja, Rui Li, Utkrisht Rajkumar, Jordan Friedlein, Anindya Bagchi, Ansuman T. Satpathy, Robert Tjian, Stefan Mundlos, Vineet Bafna, Anton G. Henssen, Paul S. Mischel, Zhe Liu, Howard Y. Chang

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

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Abstract

Extrachromosomal DNA (ecDNA) is prevalent in human cancers and mediates high expression of oncogenes through gene amplification and altered gene regulation¹. Gene induction typically involves cis-regulatory elements that contact and activate genes on the same chromosome^2,3. Here we show that ecDNA hubs—clusters of around 10–100 ecDNAs within the nucleus—enable intermolecular enhancer–gene interactions to promote oncogene overexpression. ecDNAs that encode multiple distinct oncogenes form hubs in diverse cancer cell types and primary tumours. Each ecDNA is more likely to transcribe the oncogene when spatially clustered with additional ecDNAs. ecDNA hubs are tethered by the bromodomain and extraterminal domain (BET) protein BRD4 in a MYC-amplified colorectal cancer cell line. The BET inhibitor JQ1 disperses ecDNA hubs and preferentially inhibits ecDNA-derived-oncogene transcription. The BRD4-bound PVT1 promoter is ectopically fused to MYC and duplicated in ecDNA, receiving promiscuous enhancer input to drive potent expression of MYC. Furthermore, the PVT1 promoter on an exogenous episome suffices to mediate gene activation in trans by ecDNA hubs in a JQ1-sensitive manner. Systematic silencing of ecDNA enhancers by CRISPR interference reveals intermolecular enhancer–gene activation among multiple oncogene loci that are amplified on distinct ecDNAs. Thus, protein-tethered ecDNA hubs enable intermolecular transcriptional regulation and may serve as units of oncogene function and cooperative evolution and as potential targets for cancer therapy.

Original language	English (US)
Pages (from-to)	731-736
Number of pages	6
Journal	Nature
Volume	600
Issue number	7890
DOIs	https://doi.org/10.1038/s41586-021-04116-8
State	Published - Dec 23 2021

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Hung, K. L., Yost, K. E., Xie, L., Shi, Q., Helmsauer, K., Luebeck, J., Schöpflin, R., Lange, J. T., Chamorro González, R., Weiser, N. E., Chen, C., Valieva, M. E., Wong, I. T. L., Wu, S., Dehkordi, S. R., Duffy, C. V., Kraft, K., Tang, J., Belk, J. A., ... Chang, H. Y. (2021). ecDNA hubs drive cooperative intermolecular oncogene expression. Nature, 600(7890), 731-736. https://doi.org/10.1038/s41586-021-04116-8

Hung, KL, Yost, KE, Xie, L, Shi, Q, Helmsauer, K, Luebeck, J, Schöpflin, R, Lange, JT, Chamorro González, R, Weiser, NE, Chen, C, Valieva, ME, Wong, ITL, Wu, S, Dehkordi, SR, Duffy, CV, Kraft, K, Tang, J, Belk, JA, Rose, JC, Corces, MR, Granja, JM, Li, R, Rajkumar, U, Friedlein, J, Bagchi, A, Satpathy, AT, Tjian, R, Mundlos, S, Bafna, V, Henssen, AG, Mischel, PS, Liu, Z & Chang, HY 2021, 'ecDNA hubs drive cooperative intermolecular oncogene expression', Nature, vol. 600, no. 7890, pp. 731-736. https://doi.org/10.1038/s41586-021-04116-8

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title = "ecDNA hubs drive cooperative intermolecular oncogene expression",

abstract = "Extrachromosomal DNA (ecDNA) is prevalent in human cancers and mediates high expression of oncogenes through gene amplification and altered gene regulation1. Gene induction typically involves cis-regulatory elements that contact and activate genes on the same chromosome2,3. Here we show that ecDNA hubs—clusters of around 10–100 ecDNAs within the nucleus—enable intermolecular enhancer–gene interactions to promote oncogene overexpression. ecDNAs that encode multiple distinct oncogenes form hubs in diverse cancer cell types and primary tumours. Each ecDNA is more likely to transcribe the oncogene when spatially clustered with additional ecDNAs. ecDNA hubs are tethered by the bromodomain and extraterminal domain (BET) protein BRD4 in a MYC-amplified colorectal cancer cell line. The BET inhibitor JQ1 disperses ecDNA hubs and preferentially inhibits ecDNA-derived-oncogene transcription. The BRD4-bound PVT1 promoter is ectopically fused to MYC and duplicated in ecDNA, receiving promiscuous enhancer input to drive potent expression of MYC. Furthermore, the PVT1 promoter on an exogenous episome suffices to mediate gene activation in trans by ecDNA hubs in a JQ1-sensitive manner. Systematic silencing of ecDNA enhancers by CRISPR interference reveals intermolecular enhancer–gene activation among multiple oncogene loci that are amplified on distinct ecDNAs. Thus, protein-tethered ecDNA hubs enable intermolecular transcriptional regulation and may serve as units of oncogene function and cooperative evolution and as potential targets for cancer therapy.",

author = "Hung, {King L.} and Yost, {Kathryn E.} and Liangqi Xie and Quanming Shi and Konstantin Helmsauer and Jens Luebeck and Robert Sch{\"o}pflin and Lange, {Joshua T.} and {Chamorro Gonz{\'a}lez}, Roc{\'i}o and Weiser, {Natasha E.} and Celine Chen and Valieva, {Maria E.} and Wong, {Ivy Tsz Lo} and Sihan Wu and Dehkordi, {Siavash R.} and Duffy, {Connor V.} and Katerina Kraft and Jun Tang and Belk, {Julia A.} and Rose, {John C.} and Corces, {M. Ryan} and Granja, {Jeffrey M.} and Rui Li and Utkrisht Rajkumar and Jordan Friedlein and Anindya Bagchi and Satpathy, {Ansuman T.} and Robert Tjian and Stefan Mundlos and Vineet Bafna and Henssen, {Anton G.} and Mischel, {Paul S.} and Zhe Liu and Chang, {Howard Y.}",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2021",

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doi = "10.1038/s41586-021-04116-8",

language = "English (US)",

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T1 - ecDNA hubs drive cooperative intermolecular oncogene expression

AU - Hung, King L.

AU - Yost, Kathryn E.

AU - Xie, Liangqi

AU - Shi, Quanming

AU - Helmsauer, Konstantin

AU - Luebeck, Jens

AU - Schöpflin, Robert

AU - Lange, Joshua T.

AU - Chamorro González, Rocío

AU - Weiser, Natasha E.

AU - Chen, Celine

AU - Valieva, Maria E.

AU - Wong, Ivy Tsz Lo

AU - Wu, Sihan

AU - Dehkordi, Siavash R.

AU - Duffy, Connor V.

AU - Kraft, Katerina

AU - Tang, Jun

AU - Belk, Julia A.

AU - Rose, John C.

AU - Corces, M. Ryan

AU - Granja, Jeffrey M.

AU - Li, Rui

AU - Rajkumar, Utkrisht

AU - Friedlein, Jordan

AU - Bagchi, Anindya

AU - Satpathy, Ansuman T.

AU - Tjian, Robert

AU - Mundlos, Stefan

AU - Bafna, Vineet

AU - Henssen, Anton G.

AU - Mischel, Paul S.

AU - Liu, Zhe

AU - Chang, Howard Y.

PY - 2021/12/23

Y1 - 2021/12/23

N2 - Extrachromosomal DNA (ecDNA) is prevalent in human cancers and mediates high expression of oncogenes through gene amplification and altered gene regulation1. Gene induction typically involves cis-regulatory elements that contact and activate genes on the same chromosome2,3. Here we show that ecDNA hubs—clusters of around 10–100 ecDNAs within the nucleus—enable intermolecular enhancer–gene interactions to promote oncogene overexpression. ecDNAs that encode multiple distinct oncogenes form hubs in diverse cancer cell types and primary tumours. Each ecDNA is more likely to transcribe the oncogene when spatially clustered with additional ecDNAs. ecDNA hubs are tethered by the bromodomain and extraterminal domain (BET) protein BRD4 in a MYC-amplified colorectal cancer cell line. The BET inhibitor JQ1 disperses ecDNA hubs and preferentially inhibits ecDNA-derived-oncogene transcription. The BRD4-bound PVT1 promoter is ectopically fused to MYC and duplicated in ecDNA, receiving promiscuous enhancer input to drive potent expression of MYC. Furthermore, the PVT1 promoter on an exogenous episome suffices to mediate gene activation in trans by ecDNA hubs in a JQ1-sensitive manner. Systematic silencing of ecDNA enhancers by CRISPR interference reveals intermolecular enhancer–gene activation among multiple oncogene loci that are amplified on distinct ecDNAs. Thus, protein-tethered ecDNA hubs enable intermolecular transcriptional regulation and may serve as units of oncogene function and cooperative evolution and as potential targets for cancer therapy.

AB - Extrachromosomal DNA (ecDNA) is prevalent in human cancers and mediates high expression of oncogenes through gene amplification and altered gene regulation1. Gene induction typically involves cis-regulatory elements that contact and activate genes on the same chromosome2,3. Here we show that ecDNA hubs—clusters of around 10–100 ecDNAs within the nucleus—enable intermolecular enhancer–gene interactions to promote oncogene overexpression. ecDNAs that encode multiple distinct oncogenes form hubs in diverse cancer cell types and primary tumours. Each ecDNA is more likely to transcribe the oncogene when spatially clustered with additional ecDNAs. ecDNA hubs are tethered by the bromodomain and extraterminal domain (BET) protein BRD4 in a MYC-amplified colorectal cancer cell line. The BET inhibitor JQ1 disperses ecDNA hubs and preferentially inhibits ecDNA-derived-oncogene transcription. The BRD4-bound PVT1 promoter is ectopically fused to MYC and duplicated in ecDNA, receiving promiscuous enhancer input to drive potent expression of MYC. Furthermore, the PVT1 promoter on an exogenous episome suffices to mediate gene activation in trans by ecDNA hubs in a JQ1-sensitive manner. Systematic silencing of ecDNA enhancers by CRISPR interference reveals intermolecular enhancer–gene activation among multiple oncogene loci that are amplified on distinct ecDNAs. Thus, protein-tethered ecDNA hubs enable intermolecular transcriptional regulation and may serve as units of oncogene function and cooperative evolution and as potential targets for cancer therapy.

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JO - Nature

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ecDNA hubs drive cooperative intermolecular oncogene expression

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