AI Article Synopsis
- Thousands of enhancers exist in the human genome, yet few are linked to cancer progression, particularly concerning resistance related to drug therapies that target oncokinases.
- A specific enhancer located 63 kb downstream of the MET gene was found to interact with the MET promoter, which increases MET expression when BRAF is inhibited, suggesting a key role in cancer drug resistance.
- The study identified that the transcription factor MITF controls this enhancer activity, and modifying the MITF motif can reduce chromatin looping, drug resistance, while still allowing melanoma cell differentiation.
Article Abstract
Thousands of putative enhancers are characterized in the human genome, yet few have been shown to have a functional role in cancer progression. Inhibiting oncokinases, such as EGFR, ALK, ERBB2, and BRAF, is a mainstay of current cancer therapy but is hindered by innate drug resistance mediated by up-regulation of the HGF receptor, MET. The mechanisms mediating such genomic responses to targeted therapy are unknown. Here, we identify lineage-specific enhancers at the MET locus for multiple common tumor types, including a melanoma lineage-specific enhancer 63 kb downstream from the MET TSS. This enhancer displays inducible chromatin looping with the MET promoter to up-regulate MET expression upon BRAF inhibition. Epigenomic analysis demonstrated that the melanocyte-specific transcription factor, MITF, mediates this enhancer function. Targeted genomic deletion (<7 bp) of the MITF motif within the MET enhancer suppressed inducible chromatin looping and innate drug resistance, while maintaining MITF-dependent, inhibitor-induced melanoma cell differentiation. Epigenomic analysis can thus guide functional disruption of regulatory DNA to decouple pro- and anti-oncogenic functions of a dominant transcription factor and block innate resistance to oncokinase therapy.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4009605 | PMC |
| http://dx.doi.org/10.1101/gr.166231.113 | DOI Listing |
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