Chromatin state dynamics confers specific therapeutic strategies in enhancer subtypes of colorectal cancer

Elias Orouji; Ayush T. Raman; Anand K. Singh; Alexey Sorokin; Emre Arslan; Archit K. Ghosh; Jonathan Schulz; Christopher Terranova; Shan Jiang; Ming Tang; Mayinuer Maitituoheti; Scot C. Callahan; Praveen Barrodia; Katarzyna Tomczak; Yingda Jiang; Zhiqin Jiang; Jennifer S. Davis; Sukhen Ghosh; Hey Min Lee; Laura Reyes-Uribe; Kyle Chang; Yusha Liu; Huiqin Chen; Ali Azhdarinia; Jeffrey Morris; Eduardo Vilar; Kendra S. Carmon; Scott E. Kopetz; Kunal Rai

doi:10.1136/gutjnl-2020-322835

Chromatin state dynamics confers specific therapeutic strategies in enhancer subtypes of colorectal cancer

Elias Orouji, Ayush T. Raman, Anand K. Singh, Alexey Sorokin, Emre Arslan, Archit K. Ghosh, Jonathan Schulz, Christopher Terranova, Shan Jiang, Ming Tang, Mayinuer Maitituoheti, Scot C. Callahan, Praveen Barrodia, Katarzyna Tomczak, Yingda Jiang, Zhiqin Jiang, Jennifer S. Davis, Sukhen Ghosh, Hey Min Lee, Laura Reyes-UribeKyle Chang, Yusha Liu, Huiqin Chen, Ali Azhdarinia, Jeffrey Morris, Eduardo Vilar, Kendra S. Carmon, Scott E. Kopetz, Kunal Rai

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

20 Scopus citations

Abstract

OBJECTIVE: Enhancer aberrations are beginning to emerge as a key epigenetic feature of colorectal cancers (CRC), however, a comprehensive knowledge of chromatin state patterns in tumour progression, heterogeneity of these patterns and imparted therapeutic opportunities remain poorly described.

DESIGN: We performed comprehensive epigenomic characterisation by mapping 222 chromatin profiles from 69 samples (33 colorectal adenocarcinomas, 4 adenomas, 21 matched normal tissues and 11 colon cancer cell lines) for six histone modification marks: H3K4me3 for Pol II-bound and CpG-rich promoters, H3K4me1 for poised enhancers, H3K27ac for enhancers and transcriptionally active promoters, H3K79me2 for transcribed regions, H3K27me3 for polycomb repressed regions and H3K9me3 for heterochromatin.

RESULTS: We demonstrate that H3K27ac-marked active enhancer state could distinguish between different stages of CRC progression. By epigenomic editing, we present evidence that gains of tumour-specific enhancers for crucial oncogenes, such as ASCL2 and FZD10, was required for excessive proliferation. Consistently, combination of MEK plus bromodomain inhibition was found to have synergistic effects in CRC patient-derived xenograft models. Probing intertumour heterogeneity, we identified four distinct enhancer subtypes (EPIgenome-based Classification, EpiC), three of which correlate well with previously defined transcriptomic subtypes (consensus molecular subtypes, CMSs). Importantly, CMS2 can be divided into two EpiC subgroups with significant survival differences. Leveraging such correlation, we devised a combinatorial therapeutic strategy of enhancer-blocking bromodomain inhibitors with pathway-specific inhibitors (PARPi, EGFRi, TGFβi, mTORi and SRCi) for EpiC groups.

CONCLUSION: Our data suggest that the dynamics of active enhancer underlies CRC progression and the patient-specific enhancer patterns can be leveraged for precision combination therapy.

Original language	English (US)
Pages (from-to)	938-949
Number of pages	12
Journal	Gut
Volume	71
Issue number	5
DOIs	https://doi.org/10.1136/gutjnl-2020-322835
State	Published - May 1 2022

Keywords

adenocarcinoma
cancer genetics
colon carcinogenesis
colorectal cancer

ASJC Scopus subject areas

Gastroenterology

MD Anderson CCSG core facilities

Advanced Technology Genomics Core
Functional Genomics Core
Advanced Microscopy Core
Research Animal Support Facility
Clinical Trials Office
Biostatistics Resource Group

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10.1136/gutjnl-2020-322835

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Orouji, E., Raman, A. T., Singh, A. K., Sorokin, A., Arslan, E., Ghosh, A. K., Schulz, J., Terranova, C., Jiang, S., Tang, M., Maitituoheti, M., Callahan, S. C., Barrodia, P., Tomczak, K., Jiang, Y., Jiang, Z., Davis, J. S., Ghosh, S., Lee, H. M., ... Rai, K. (2022). Chromatin state dynamics confers specific therapeutic strategies in enhancer subtypes of colorectal cancer. Gut, 71(5), 938-949. https://doi.org/10.1136/gutjnl-2020-322835

Orouji, E, Raman, AT, Singh, AK , Sorokin, A , Arslan, E, Ghosh, AK, Schulz, J, Terranova, C, Jiang, S, Tang, M, Maitituoheti, M, Callahan, SC, Barrodia, P, Tomczak, K, Jiang, Y, Jiang, Z, Davis, JS, Ghosh, S, Lee, HM, Reyes-Uribe, L, Chang, K, Liu, Y, Chen, H, Azhdarinia, A, Morris, J, Vilar, E, Carmon, KS, Kopetz, SE & Rai, K 2022, 'Chromatin state dynamics confers specific therapeutic strategies in enhancer subtypes of colorectal cancer', Gut, vol. 71, no. 5, pp. 938-949. https://doi.org/10.1136/gutjnl-2020-322835

@article{fcfa89d8704d43b89bae11a910789146,

title = "Chromatin state dynamics confers specific therapeutic strategies in enhancer subtypes of colorectal cancer",

abstract = "OBJECTIVE: Enhancer aberrations are beginning to emerge as a key epigenetic feature of colorectal cancers (CRC), however, a comprehensive knowledge of chromatin state patterns in tumour progression, heterogeneity of these patterns and imparted therapeutic opportunities remain poorly described.DESIGN: We performed comprehensive epigenomic characterisation by mapping 222 chromatin profiles from 69 samples (33 colorectal adenocarcinomas, 4 adenomas, 21 matched normal tissues and 11 colon cancer cell lines) for six histone modification marks: H3K4me3 for Pol II-bound and CpG-rich promoters, H3K4me1 for poised enhancers, H3K27ac for enhancers and transcriptionally active promoters, H3K79me2 for transcribed regions, H3K27me3 for polycomb repressed regions and H3K9me3 for heterochromatin.RESULTS: We demonstrate that H3K27ac-marked active enhancer state could distinguish between different stages of CRC progression. By epigenomic editing, we present evidence that gains of tumour-specific enhancers for crucial oncogenes, such as ASCL2 and FZD10, was required for excessive proliferation. Consistently, combination of MEK plus bromodomain inhibition was found to have synergistic effects in CRC patient-derived xenograft models. Probing intertumour heterogeneity, we identified four distinct enhancer subtypes (EPIgenome-based Classification, EpiC), three of which correlate well with previously defined transcriptomic subtypes (consensus molecular subtypes, CMSs). Importantly, CMS2 can be divided into two EpiC subgroups with significant survival differences. Leveraging such correlation, we devised a combinatorial therapeutic strategy of enhancer-blocking bromodomain inhibitors with pathway-specific inhibitors (PARPi, EGFRi, TGFβi, mTORi and SRCi) for EpiC groups.CONCLUSION: Our data suggest that the dynamics of active enhancer underlies CRC progression and the patient-specific enhancer patterns can be leveraged for precision combination therapy.",

keywords = "adenocarcinoma, cancer genetics, colon carcinogenesis, colorectal cancer",

author = "Elias Orouji and Raman, {Ayush T.} and Singh, {Anand K.} and Alexey Sorokin and Emre Arslan and Ghosh, {Archit K.} and Jonathan Schulz and Christopher Terranova and Shan Jiang and Ming Tang and Mayinuer Maitituoheti and Callahan, {Scot C.} and Praveen Barrodia and Katarzyna Tomczak and Yingda Jiang and Zhiqin Jiang and Davis, {Jennifer S.} and Sukhen Ghosh and Lee, {Hey Min} and Laura Reyes-Uribe and Kyle Chang and Yusha Liu and Huiqin Chen and Ali Azhdarinia and Jeffrey Morris and Eduardo Vilar and Carmon, {Kendra S.} and Kopetz, {Scott E.} and Kunal Rai",

note = "Publisher Copyright: {\textcopyright} 2021 Author(s) (or their employer(s)). No commercial re-use. See rights and permissions. Published by BMJ.",

year = "2022",

month = may,

day = "1",

doi = "10.1136/gutjnl-2020-322835",

language = "English (US)",

volume = "71",

pages = "938--949",

journal = "Gut",

issn = "0017-5749",

publisher = "BMJ Publishing Group",

number = "5",

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TY - JOUR

T1 - Chromatin state dynamics confers specific therapeutic strategies in enhancer subtypes of colorectal cancer

AU - Orouji, Elias

AU - Raman, Ayush T.

AU - Singh, Anand K.

AU - Sorokin, Alexey

AU - Arslan, Emre

AU - Ghosh, Archit K.

AU - Schulz, Jonathan

AU - Terranova, Christopher

AU - Jiang, Shan

AU - Tang, Ming

AU - Maitituoheti, Mayinuer

AU - Callahan, Scot C.

AU - Barrodia, Praveen

AU - Tomczak, Katarzyna

AU - Jiang, Yingda

AU - Jiang, Zhiqin

AU - Davis, Jennifer S.

AU - Ghosh, Sukhen

AU - Lee, Hey Min

AU - Reyes-Uribe, Laura

AU - Chang, Kyle

AU - Liu, Yusha

AU - Chen, Huiqin

AU - Azhdarinia, Ali

AU - Morris, Jeffrey

AU - Vilar, Eduardo

AU - Carmon, Kendra S.

AU - Kopetz, Scott E.

AU - Rai, Kunal

PY - 2022/5/1

Y1 - 2022/5/1

N2 - OBJECTIVE: Enhancer aberrations are beginning to emerge as a key epigenetic feature of colorectal cancers (CRC), however, a comprehensive knowledge of chromatin state patterns in tumour progression, heterogeneity of these patterns and imparted therapeutic opportunities remain poorly described.DESIGN: We performed comprehensive epigenomic characterisation by mapping 222 chromatin profiles from 69 samples (33 colorectal adenocarcinomas, 4 adenomas, 21 matched normal tissues and 11 colon cancer cell lines) for six histone modification marks: H3K4me3 for Pol II-bound and CpG-rich promoters, H3K4me1 for poised enhancers, H3K27ac for enhancers and transcriptionally active promoters, H3K79me2 for transcribed regions, H3K27me3 for polycomb repressed regions and H3K9me3 for heterochromatin.RESULTS: We demonstrate that H3K27ac-marked active enhancer state could distinguish between different stages of CRC progression. By epigenomic editing, we present evidence that gains of tumour-specific enhancers for crucial oncogenes, such as ASCL2 and FZD10, was required for excessive proliferation. Consistently, combination of MEK plus bromodomain inhibition was found to have synergistic effects in CRC patient-derived xenograft models. Probing intertumour heterogeneity, we identified four distinct enhancer subtypes (EPIgenome-based Classification, EpiC), three of which correlate well with previously defined transcriptomic subtypes (consensus molecular subtypes, CMSs). Importantly, CMS2 can be divided into two EpiC subgroups with significant survival differences. Leveraging such correlation, we devised a combinatorial therapeutic strategy of enhancer-blocking bromodomain inhibitors with pathway-specific inhibitors (PARPi, EGFRi, TGFβi, mTORi and SRCi) for EpiC groups.CONCLUSION: Our data suggest that the dynamics of active enhancer underlies CRC progression and the patient-specific enhancer patterns can be leveraged for precision combination therapy.

AB - OBJECTIVE: Enhancer aberrations are beginning to emerge as a key epigenetic feature of colorectal cancers (CRC), however, a comprehensive knowledge of chromatin state patterns in tumour progression, heterogeneity of these patterns and imparted therapeutic opportunities remain poorly described.DESIGN: We performed comprehensive epigenomic characterisation by mapping 222 chromatin profiles from 69 samples (33 colorectal adenocarcinomas, 4 adenomas, 21 matched normal tissues and 11 colon cancer cell lines) for six histone modification marks: H3K4me3 for Pol II-bound and CpG-rich promoters, H3K4me1 for poised enhancers, H3K27ac for enhancers and transcriptionally active promoters, H3K79me2 for transcribed regions, H3K27me3 for polycomb repressed regions and H3K9me3 for heterochromatin.RESULTS: We demonstrate that H3K27ac-marked active enhancer state could distinguish between different stages of CRC progression. By epigenomic editing, we present evidence that gains of tumour-specific enhancers for crucial oncogenes, such as ASCL2 and FZD10, was required for excessive proliferation. Consistently, combination of MEK plus bromodomain inhibition was found to have synergistic effects in CRC patient-derived xenograft models. Probing intertumour heterogeneity, we identified four distinct enhancer subtypes (EPIgenome-based Classification, EpiC), three of which correlate well with previously defined transcriptomic subtypes (consensus molecular subtypes, CMSs). Importantly, CMS2 can be divided into two EpiC subgroups with significant survival differences. Leveraging such correlation, we devised a combinatorial therapeutic strategy of enhancer-blocking bromodomain inhibitors with pathway-specific inhibitors (PARPi, EGFRi, TGFβi, mTORi and SRCi) for EpiC groups.CONCLUSION: Our data suggest that the dynamics of active enhancer underlies CRC progression and the patient-specific enhancer patterns can be leveraged for precision combination therapy.

KW - adenocarcinoma

KW - cancer genetics

KW - colon carcinogenesis

KW - colorectal cancer

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U2 - 10.1136/gutjnl-2020-322835

DO - 10.1136/gutjnl-2020-322835

M3 - Article

C2 - 34059508

AN - SCOPUS:85107266128

SN - 0017-5749

VL - 71

SP - 938

EP - 949

JO - Gut

JF - Gut

IS - 5

ER -

Chromatin state dynamics confers specific therapeutic strategies in enhancer subtypes of colorectal cancer

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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