Reprogramming of Cellular Plasticity via ETS and MYC Core-regulatory Circuits During Response to MAPK Inhibition in BRAF-mutant Colorectal Cancer

  1. Hey Min Lee
  2. Zhao Zheng
  3. Alexey Sorokin
  4. Chi Wut Wong
  5. Stefania Napolitano
  6. Saikat Chowdhury
  7. Preeti Marie Kanikarla
  8. Anand K. Singh
  9. Veena Kochat
  10. Christopher A. Bristow
  11. Sanjana Srinivasan
  12. Michael Peoples
  13. Emre Arslan
  14. Jumanah Yousef Alshenaifi
  15. Oscar E. Villarreal
  16. Van K. Morris
  17. John Paul Shen
  18. Funda Meric-Bernstam
  19. Abhinav K Jain
  20. Natalie Wall Fowlkes
  21. Amanda Anderson
  22. David G Menter
  23. Ajay Kumar Saw
  24. Kunal Rai
  25. Scott Kopetz
Read the full article See related articles

Listed in

This article is not in any list yet, why not save it to one of your lists.
Log in to save this article

Abstract

Background

Aberrant enhancer dynamics play a critical role in the initiation and progression of colorectal cancer (CRC). BRAF V600E -mutated metastatic CRC may be a unique subtype, exhibiting a strong epigenetic phenotype. Interestingly, bromodomain 2, a reader protein for H3K27ac-marked enhancers, was found to be synthetically lethal in CRC with BRAF + EGFR inhibition.

Design

We evaluated the effectiveness of targeting aberrant enhancers with bromodomain and extraterminal (BET) + MAPK pathway inhibitors in patient-derived xenograft models of metastatic CRC, followed by comprehensive profiling of transcriptomic and chromatin dynamics upon BET inhibitor combination treatment.

Results

The combination of BET and standard MAPK inhibitors has demonstrated improved efficacy against BRAF V600E CRC and selective improvements against RAS-mutant CRC in vivo . We showed that BET + MAPK inhibition induced a profound downregulation of the MAPK signaling pathway compared to MAPK inhibition alone. The loss of activation signal on enhancers, as determined by H3K27ac, led to dysregulation of core-regulatory circuitries of CRC, especially loss of the auto-regulatory mechanism of the MAPK downstream E26 transformation–specific transcription factor family. Single nucleus multiome (RNA + ATAC) sequencing further distinguished differential transcriptomic and chromatin dynamics at cell type levels. Profound downregulation of well-differentiated cell types confirmed deep inhibition of MAPK signaling and downstream transcription factors. On the other hand, dedifferentiated cell populations were abundant after MAPK or combination inhibition, suggesting therapy-induced cell state switching and adaptation.

Conclusion

We are evaluating BET + BRAF + EGFR inhibition in patients with treatment-refractory BRAF V600E metastatic CRC. ClinicalTrial.gov identifier: NCT06102902 .

What is already known on this topic

Enhancer aberrations emerge as critical epigenetic features in the progression of colorectal cancer (CRC). However, the dynamics of active enhancer and the therapeutic potential of enhancer blockade, particularly in CRC tumors with BRAF V600E mutation, is not well understood.

What this study adds

This study demonstrates improved efficacy of BET inhibitor combination therapies in diverse patient-derived models and reveals epigenetic reprogramming driven cellular plasticity in BRAF V600E -mutated CRC.

How this study might affect research, practice or policy

Our findings support treatment with BET + BRAF + EGFR inhibitors for patients with BRAFV600E-mutant mCRC [ NCT06102902 ]. This study also highlights the potential of combining epigenetic agents to standard targeted therapy, offering a novel treatment option for this subset of patients.

Article activity feed

  1. Version published to 10.1101/2025.06.15.659716v1 on bioRxiv