viernes, 24 de mayo de 2019

Integrated high-throughput analysis identifies super enhancers associated with chemoresistance in SCLC | BMC Medical Genomics | Full Text

Integrated high-throughput analysis identifies super enhancers associated with chemoresistance in SCLC | BMC Medical Genomics | Full Text

BMC Medical Genomics

Integrated high-throughput analysis identifies super enhancers associated with chemoresistance in SCLC

Contributed equally
BMC Medical Genomics201912:67
  • Received: 7 November 2018
  • Accepted: 7 May 2019
  • Published: 
Open Peer Review reports

Abstract

Background

Chemoresistance is a primary clinical challenge for the management of small cell lung cancer. Additionally, transcriptional regulation by super enhancer (SE) has an important role in tumor evolution. The functions of SEs, a key class of noncoding DNA cis-regulatory elements, have been the subject of many recent studies in the field of cancer research.

Methods

In this study, using chromatin immunoprecipitation-sequencing and RNA-sequencing (RNA-seq), we aimed to identify SEs associated with chemoresistance from H69AR cells. Through integrated bioinformatics analysis of the MEME chip, we predicted the master transcriptional factors (TFs) binding to SE sites and verified the relationships between TFs of SEs and drug resistance by RNA interference, cell counting kit 8 assays, quantitative real-time reverse transcription polymerase chain reaction.

Results

In total, 108 SEs were screened from H69AR cells. When combining this analysis with RNA-seq data, 45 SEs were suggested to be closely related to drug resistance. Then, 12 master TFs were predicted to localize to regions of those SEs. Subsequently, we selected forkhead box P1 (FOXP1), interferon regulatory factor 1 (IRF1), and specificity protein 1 (SP1) to authenticate the functional relationships of master TFs with chemoresistance via SEs.

Conclusions

We screened out SEs involved with drug resistance and evaluated the functions of FOXP1, IRF1, and SP1 in chemoresistance. Our findings established a large group of SEs associated with drug resistance in small cell lung cancer, revealed the drug resistance mechanisms of SEs, and provided insights into the clinical applications of SEs.

Keywords

  • Small cell lung cancer
  • Chemoresistance
  • Super enhancer

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