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Alternative promoters in CpG depleted regions are prevalently associated with epigenetic misregulation of liver cancer transcriptomes

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  • Chirag Nepal

    (University of Copenhagen
    Loma Linda University)

  • Jesper B. Andersen

    (University of Copenhagen)

Abstract

Transcriptional regulation is commonly governed by alternative promoters. However, the regulatory architecture in alternative and reference promoters, and how they differ, remains elusive. In 100 CAGE-seq libraries from hepatocellular carcinoma patients, here we annotate 4083 alternative promoters in 2926 multi-promoter genes, which are largely undetected in normal livers. These genes are enriched in oncogenic processes and predominantly show association with overall survival. Alternative promoters are narrow nucleosome depleted regions, CpG island depleted, and enriched for tissue-specific transcription factors. Globally tumors lose DNA methylation. We show hierarchical retention of intragenic DNA methylation with CG-poor regions rapidly losing methylation, while CG-rich regions retain it, a process mediated by differential SETD2, H3K36me3, DNMT3B, and TET1 binding. This mechanism is validated in SETD2 knockdown cells and SETD2-mutated patients. Selective DNA methylation loss in CG-poor regions makes the chromatin accessible for alternative transcription. We show alternative promoters can control tumor transcriptomes and their regulatory architecture.

Suggested Citation

  • Chirag Nepal & Jesper B. Andersen, 2023. "Alternative promoters in CpG depleted regions are prevalently associated with epigenetic misregulation of liver cancer transcriptomes," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38272-4
    DOI: 10.1038/s41467-023-38272-4
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    1. Chung-Chau Hon & Jordan A. Ramilowski & Jayson Harshbarger & Nicolas Bertin & Owen J. L. Rackham & Julian Gough & Elena Denisenko & Sebastian Schmeier & Thomas M. Poulsen & Jessica Severin & Marina Li, 2017. "An atlas of human long non-coding RNAs with accurate 5′ ends," Nature, Nature, vol. 543(7644), pages 199-204, March.
    2. Wouter Meuleman & Alexander Muratov & Eric Rynes & Jessica Halow & Kristen Lee & Daniel Bates & Morgan Diegel & Douglas Dunn & Fidencio Neri & Athanasios Teodosiadis & Alex Reynolds & Eric Haugen & Je, 2020. "Index and biological spectrum of human DNase I hypersensitive sites," Nature, Nature, vol. 584(7820), pages 244-251, August.
    3. Jason Ernst & Pouya Kheradpour & Tarjei S. Mikkelsen & Noam Shoresh & Lucas D. Ward & Charles B. Epstein & Xiaolan Zhang & Li Wang & Robbyn Issner & Michael Coyne & Manching Ku & Timothy Durham & Mano, 2011. "Mapping and analysis of chromatin state dynamics in nine human cell types," Nature, Nature, vol. 473(7345), pages 43-49, May.
    4. Huilin Huang & Hengyou Weng & Keren Zhou & Tong Wu & Boxuan Simen Zhao & Mingli Sun & Zhenhua Chen & Xiaolan Deng & Gang Xiao & Franziska Auer & Lars Klemm & Huizhe Wu & Zhixiang Zuo & Xi Qin & Yunzhu, 2019. "Histone H3 trimethylation at lysine 36 guides m6A RNA modification co-transcriptionally," Nature, Nature, vol. 567(7748), pages 414-419, March.
    5. Robin Andersson & Claudia Gebhard & Irene Miguel-Escalada & Ilka Hoof & Jette Bornholdt & Mette Boyd & Yun Chen & Xiaobei Zhao & Christian Schmidl & Takahiro Suzuki & Evgenia Ntini & Erik Arner & Eivi, 2014. "An atlas of active enhancers across human cell types and tissues," Nature, Nature, vol. 507(7493), pages 455-461, March.
    6. Daniel Zilberman & Devin Coleman-Derr & Tracy Ballinger & Steven Henikoff, 2008. "Histone H2A.Z and DNA methylation are mutually antagonistic chromatin marks," Nature, Nature, vol. 456(7218), pages 125-129, November.
    7. Vanja Haberle & Nan Li & Yavor Hadzhiev & Charles Plessy & Christopher Previti & Chirag Nepal & Jochen Gehrig & Xianjun Dong & Altuna Akalin & Ana Maria Suzuki & Wilfred F. J. van IJcken & Olivier Arm, 2014. "Two independent transcription initiation codes overlap on vertebrate core promoters," Nature, Nature, vol. 507(7492), pages 381-385, March.
    8. Chirag Nepal & Yavor Hadzhiev & Piotr Balwierz & Estefanía Tarifeño-Saldivia & Ryan Cardenas & Joseph W. Wragg & Ana-Maria Suzuki & Piero Carninci & Bernard Peers & Boris Lenhard & Jesper B. Andersen , 2020. "Dual-initiation promoters with intertwined canonical and TCT/TOP transcription start sites diversify transcript processing," Nature Communications, Nature, vol. 11(1), pages 1-16, December.
    9. Alika K. Maunakea & Raman P. Nagarajan & Mikhail Bilenky & Tracy J. Ballinger & Cletus D’Souza & Shaun D. Fouse & Brett E. Johnson & Chibo Hong & Cydney Nielsen & Yongjun Zhao & Gustavo Turecki & Alle, 2010. "Conserved role of intragenic DNA methylation in regulating alternative promoters," Nature, Nature, vol. 466(7303), pages 253-257, July.
    10. Francesco Neri & Stefania Rapelli & Anna Krepelova & Danny Incarnato & Caterina Parlato & Giulia Basile & Mara Maldotti & Francesca Anselmi & Salvatore Oliviero, 2017. "Intragenic DNA methylation prevents spurious transcription initiation," Nature, Nature, vol. 543(7643), pages 72-77, March.
    11. E. Christopher Partridge & Surya B. Chhetri & Jeremy W. Prokop & Ryne C. Ramaker & Camden S. Jansen & Say-Tar Goh & Mark Mackiewicz & Kimberly M. Newberry & Laurel A. Brandsmeier & Sarah K. Meadows & , 2020. "Occupancy maps of 208 chromatin-associated proteins in one human cell type," Nature, Nature, vol. 583(7818), pages 720-728, July.
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