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CTCF-promoted RNA polymerase II pausing links DNA methylation to splicing

Author

Listed:
  • Sanjeev Shukla

    (Center for Cancer Research, Mouse Cancer Genetics Program, National Cancer Institute at Frederick)

  • Ersen Kavak

    (Karolinska Institutet, SE-171 77 Stockholm, Sweden
    Ludwig Institute for Cancer Research, SE-171 77, Stockholm, Sweden)

  • Melissa Gregory

    (Center for Cancer Research, Mouse Cancer Genetics Program, National Cancer Institute at Frederick)

  • Masahiko Imashimizu

    (Center for Cancer Research, Gene Regulation and Chromosome Biology Laboratory, National Cancer Institute at Frederick)

  • Bojan Shutinoski

    (Center for Cancer Research, Mouse Cancer Genetics Program, National Cancer Institute at Frederick)

  • Mikhail Kashlev

    (Center for Cancer Research, Gene Regulation and Chromosome Biology Laboratory, National Cancer Institute at Frederick)

  • Philipp Oberdoerffer

    (Center for Cancer Research, Mouse Cancer Genetics Program, National Cancer Institute at Frederick)

  • Rickard Sandberg

    (Karolinska Institutet, SE-171 77 Stockholm, Sweden
    Ludwig Institute for Cancer Research, SE-171 77, Stockholm, Sweden)

  • Shalini Oberdoerffer

    (Center for Cancer Research, Mouse Cancer Genetics Program, National Cancer Institute at Frederick)

Abstract

Alternative splicing of pre-messenger RNA is a key feature of transcriptome expansion in eukaryotic cells, yet its regulation is poorly understood. Spliceosome assembly occurs co-transcriptionally, raising the possibility that DNA structure may directly influence alternative splicing. Supporting such an association, recent reports have identified distinct histone methylation patterns, elevated nucleosome occupancy and enriched DNA methylation at exons relative to introns. Moreover, the rate of transcription elongation has been linked to alternative splicing. Here we provide the first evidence that a DNA-binding protein, CCCTC-binding factor (CTCF), can promote inclusion of weak upstream exons by mediating local RNA polymerase II pausing both in a mammalian model system for alternative splicing, CD45, and genome-wide. We further show that CTCF binding to CD45 exon 5 is inhibited by DNA methylation, leading to reciprocal effects on exon 5 inclusion. These findings provide a mechanistic basis for developmental regulation of splicing outcome through heritable epigenetic marks.

Suggested Citation

  • Sanjeev Shukla & Ersen Kavak & Melissa Gregory & Masahiko Imashimizu & Bojan Shutinoski & Mikhail Kashlev & Philipp Oberdoerffer & Rickard Sandberg & Shalini Oberdoerffer, 2011. "CTCF-promoted RNA polymerase II pausing links DNA methylation to splicing," Nature, Nature, vol. 479(7371), pages 74-79, November.
    • Handle: RePEc:nat:nature:v:479:y:2011:i:7371:d:10.1038_nature10442
    DOI: 10.1038/nature10442
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    Cited by:

    1. Pedro L. Baldoni & Naim U. Rashid & Joseph G. Ibrahim, 2022. "Efficient detection and classification of epigenomic changes under multiple conditions," Biometrics, The International Biometric Society, vol. 78(3), pages 1141-1154, September.
    2. Dominic D. G. Owens & Giorgio Anselmi & A. Marieke Oudelaar & Damien J. Downes & Alessandro Cavallo & Joe R. Harman & Ron Schwessinger & Akin Bucakci & Lucas Greder & Sara Ornellas & Danuta Jeziorska , 2022. "Dynamic Runx1 chromatin boundaries affect gene expression in hematopoietic development," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    3. Jiankang Wang & Masashige Bando & Katsuhiko Shirahige & Ryuichiro Nakato, 2022. "Large-scale multi-omics analysis suggests specific roles for intragenic cohesin in transcriptional regulation," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    4. Ciira wa Maina & Antti Honkela & Filomena Matarese & Korbinian Grote & Hendrik G Stunnenberg & George Reid & Neil D Lawrence & Magnus Rattray, 2014. "Inference of RNA Polymerase II Transcription Dynamics from Chromatin Immunoprecipitation Time Course Data," PLOS Computational Biology, Public Library of Science, vol. 10(5), pages 1-17, May.

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