Autor: |
Marlous Hoogstraat, Shreyas Lingadahalli, Faraz Hach, Suzan Stelloo, Nathan A. Lack, Martin E. Gleave, Bengul Gokbayrak, Eldon Emberly, Eugene Hu, Tunç Morova, Mohammadali Saffarzadeh, Ivan Pak Lok Yu, Dogancan Ozturan, Simon Linder, Chia Chi Flora Huang, Funda Sar, Colin Collins, Stephane Le Bihan, Henk G. van der Poel, Andries M. Bergman, Wilbert Zwart, Brian McConeghy, Umut Berkay Altintas, Felix Y. Feng |
Rok vydání: |
2020 |
Předmět: |
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DOI: |
10.1101/2020.08.18.255232 |
Popis: |
Androgen receptor (AR) is critical to the initiation, growth and progression of almost all prostate cancers. Once activated, the AR binds to cis-regulatory enhancer elements on DNA that drive gene expression. Yet, there are 10-100x more binding sites than differentially expressed genes. It still remains unclear how individual sites contribute to AR-mediated transcription. While descriptive functional genomic approaches broadly correlate with enhancer activity, they do not provide the locus-specific resolution needed to delineate the underlying regulatory logic of AR-mediated transcription. Therefore, we functionally tested all commonly occuring clinical AR binding sites with Self-Transcribing Active Regulatory Regions sequencing (STARRseq) to generate the first map of intrinsic AR enhancer activity. This approach is not significantly affected by endogenous chromatin modifications and measures the potential enhancer activity at each cis-regulatory element. Interestingly we found that only 7% of AR binding sites displayed increased enhancer activity upon hormonal stimulation. Instead, the vast majority of AR binding sites were either inactive (81%) or constitutively active enhancers (11%). These annotations strongly correlated with enhancer-associated features in both cell line and clinical prostate cancer. With these validated annotations we next investigated the effect of each enhancer class on transcription and found that AR-driven inducible enhancers frequently interacted with promoters, forming central chromosomal loops critical for gene transcription. We demonstrated that these inducible enhancers act as regulatory hubs that increase contacts with both other AR binding sites and gene promoters. This functional map was used to identify a somatic mutation that significantly reduces the expression of a commonly mutated AR-regulated tumour suppressor. Together, our data reveal a complex interplay between different AR binding sites that work in a highly coordinated manner to drive gene transcription. |
Databáze: |
OpenAIRE |
Externí odkaz: |
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