Author
Listed:
- Nadezhda V. Terekhanova
(Washington University in St Louis
Washington University in St Louis)
- Alla Karpova
(Washington University in St Louis
Washington University in St Louis)
- Wen-Wei Liang
(Washington University in St Louis
Washington University in St Louis)
- Alexander Strzalkowski
(Princeton University)
- Siqi Chen
(Washington University in St Louis
Washington University in St Louis)
- Yize Li
(Washington University in St Louis
Washington University in St Louis)
- Austin N. Southard-Smith
(Washington University in St Louis
Washington University in St Louis)
- Michael D. Iglesia
(Washington University in St Louis
Washington University in St Louis)
- Michael C. Wendl
(Washington University in St Louis
Washington University in St Louis)
- Reyka G. Jayasinghe
(Washington University in St Louis
Washington University in St Louis)
- Jingxian Liu
(Washington University in St Louis
Washington University in St Louis)
- Yizhe Song
(Washington University in St Louis
Washington University in St Louis)
- Song Cao
(Washington University in St Louis
Washington University in St Louis)
- Andrew Houston
(Washington University in St Louis
Washington University in St Louis)
- Xiuting Liu
(Washington University in St Louis)
- Matthew A. Wyczalkowski
(Washington University in St Louis
Washington University in St Louis)
- Rita Jui-Hsien Lu
(Washington University in St Louis
Washington University in St Louis)
- Wagma Caravan
(Washington University in St Louis
Washington University in St Louis)
- Andrew Shinkle
(Washington University in St Louis)
- Nataly Naser Al Deen
(Washington University in St Louis
Washington University in St Louis)
- John M. Herndon
(Washington University in St Louis
Washington University in St Louis)
- Jacqueline Mudd
(Washington University in St Louis)
- Cong Ma
(Princeton University)
- Hirak Sarkar
(Princeton University)
- Kazuhito Sato
(Washington University in St Louis
Washington University in St Louis)
- Omar M. Ibrahim
(Washington University in St Louis
Washington University in St Louis)
- Chia-Kuei Mo
(Washington University in St Louis
Washington University in St Louis)
- Sara E. Chasnoff
(Washington University in St Louis
Washington University in St Louis)
- Eduard Porta-Pardo
(Josep Carreras Leukaemia Research Institute
Barcelona Supercomputing Center)
- Jason M. Held
(Washington University in St Louis
Washington University in St Louis)
- Russell Pachynski
(Washington University in St Louis
Washington University in St Louis)
- Julie K. Schwarz
(Washington University in St Louis)
- William E. Gillanders
(Washington University in St Louis
Washington University in St Louis)
- Albert H. Kim
(Washington University in St Louis
Washington University in St Louis)
- Ravi Vij
(Washington University in St Louis
Washington University in St Louis)
- John F. DiPersio
(Washington University in St Louis
Washington University in St Louis)
- Sidharth V. Puram
(Washington University in St Louis)
- Milan G. Chheda
(Washington University in St Louis
Washington University in St Louis)
- Katherine C. Fuh
(University of California, San Francisco
Washington University in St Louis)
- David G. DeNardo
(Washington University in St Louis
Washington University in St Louis)
- Ryan C. Fields
(Washington University in St Louis
Washington University in St Louis)
- Feng Chen
(Washington University in St Louis
Washington University in St Louis)
- Benjamin J. Raphael
(Princeton University)
- Li Ding
(Washington University in St Louis
Washington University in St Louis
Washington University in St Louis
Washington University in St Louis)
Abstract
Chromatin accessibility is essential in regulating gene expression and cellular identity, and alterations in accessibility have been implicated in driving cancer initiation, progression and metastasis1–4. Although the genetic contributions to oncogenic transitions have been investigated, epigenetic drivers remain less understood. Here we constructed a pan-cancer epigenetic and transcriptomic atlas using single-nucleus chromatin accessibility data (using single-nucleus assay for transposase-accessible chromatin) from 225 samples and matched single-cell or single-nucleus RNA-sequencing expression data from 206 samples. With over 1 million cells from each platform analysed through the enrichment of accessible chromatin regions, transcription factor motifs and regulons, we identified epigenetic drivers associated with cancer transitions. Some epigenetic drivers appeared in multiple cancers (for example, regulatory regions of ABCC1 and VEGFA; GATA6 and FOX-family motifs), whereas others were cancer specific (for example, regulatory regions of FGF19, ASAP2 and EN1, and the PBX3 motif). Among epigenetically altered pathways, TP53, hypoxia and TNF signalling were linked to cancer initiation, whereas oestrogen response, epithelial–mesenchymal transition and apical junction were tied to metastatic transition. Furthermore, we revealed a marked correlation between enhancer accessibility and gene expression and uncovered cooperation between epigenetic and genetic drivers. This atlas provides a foundation for further investigation of epigenetic dynamics in cancer transitions.
Suggested Citation
Nadezhda V. Terekhanova & Alla Karpova & Wen-Wei Liang & Alexander Strzalkowski & Siqi Chen & Yize Li & Austin N. Southard-Smith & Michael D. Iglesia & Michael C. Wendl & Reyka G. Jayasinghe & Jingxia, 2023.
"Epigenetic regulation during cancer transitions across 11 tumour types,"
Nature, Nature, vol. 623(7986), pages 432-441, November.
Handle:
RePEc:nat:nature:v:623:y:2023:i:7986:d:10.1038_s41586-023-06682-5
DOI: 10.1038/s41586-023-06682-5
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