Short RNAs are transcribed from repressed polycomb target genes and interact with polycomb repressive complex-2.

Polycomb proteins maintain cell identity by repressing the expression of developmental regulators specific for other cell types. Polycomb repressive complex-2 (PRC2) catalyzes trimethylation of histone H3 lysine-27 (H3K27me3). Although repressed, PRC2 targets are generally associated with the transcriptional initiation marker H3K4me3, but the significance of this remains unclear. Here, we identify a class of short RNAs, approximately 50-200 nucleotides in length, transcribed from the 5' end of polycomb target genes in primary T cells and embryonic stem cells. Short RNA transcription is associated with RNA polymerase II and H3K4me3, occurs in the absence of mRNA transcription, and is independent of polycomb activity. Short RNAs form stem-loop structures resembling PRC2 binding sites in Xist, interact with PRC2 through SUZ12, cause gene repression in cis, and are depleted from polycomb target genes activated during cell differentiation. We propose that short RNAs play a role in the association of PRC2 with its target genes.

[1]  Hengbin Wang,et al.  Role of Histone H3 Lysine 27 Methylation in Polycomb-Group Silencing , 2002, Science.

[2]  James A. Cuff,et al.  A Bivalent Chromatin Structure Marks Key Developmental Genes in Embryonic Stem Cells , 2006, Cell.

[3]  L. Wessels,et al.  Ubiquitin E3 Ligase Ring1b/Rnf2 of Polycomb Repressive Complex 1 Contributes to Stable Maintenance of Mouse Embryonic Stem Cells , 2008, PloS one.

[4]  Suresh Cuddapah,et al.  The genomic landscape of histone modifications in human T cells , 2006, Proceedings of the National Academy of Sciences.

[5]  T. Mikkelsen,et al.  Genome-wide maps of chromatin state in pluripotent and lineage-committed cells , 2007, Nature.

[6]  J. Komorowski,et al.  Kcnq1ot1 antisense noncoding RNA mediates lineage-specific transcriptional silencing through chromatin-level regulation. , 2008, Molecular cell.

[7]  J. Kawai,et al.  Tiny RNAs associated with transcription start sites in animals , 2009, Nature Genetics.

[8]  Haruhiko Koseki,et al.  Ring1-mediated ubiquitination of H2A restrains poised RNA polymerase II at bivalent genes in mouse ES cells , 2007, Nature Cell Biology.

[9]  Jeannie T. Lee,et al.  Polycomb Proteins Targeted by a Short Repeat RNA to the Mouse X Chromosome , 2008, Science.

[10]  Affymetrix Encode Transcriptome Post-transcriptional processing generates a diversity of 5'-modified long and short RNAs. , 2009 .

[11]  D. Ecker,et al.  RNAMotif, an RNA secondary structure definition and search algorithm. , 2001, Nucleic acids research.

[12]  David Landeira,et al.  ESCs require PRC2 to direct the successful reprogramming of differentiated cells toward pluripotency. , 2010, Cell stem cell.

[13]  J. Rinn,et al.  Many human large intergenic noncoding RNAs associate with chromatin-modifying complexes and affect gene expression , 2009, Proceedings of the National Academy of Sciences.

[14]  S. Batalov,et al.  A gene atlas of the mouse and human protein-encoding transcriptomes. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[15]  Stephan Sauer,et al.  Chromatin signatures of pluripotent cell lines , 2006, Nature Cell Biology.

[16]  H. Wichterle,et al.  Directed Differentiation of Embryonic Stem Cells into Motor Neurons , 2002, Cell.

[17]  Leighton J. Core,et al.  Nascent RNA Sequencing Reveals Widespread Pausing and Divergent Initiation at Human Promoters , 2008, Science.

[18]  T. Magnuson,et al.  The eed mutation disrupts anterior mesoderm production in mice. , 1995, Development.

[19]  J. Zeitlinger,et al.  Polycomb complexes repress developmental regulators in murine embryonic stem cells , 2006, Nature.

[20]  Megan F. Cole,et al.  Control of Developmental Regulators by Polycomb in Human Embryonic Stem Cells , 2006, Cell.

[21]  Y. Schwartz,et al.  Polycomb silencing blocks transcription initiation. , 2004, Molecular cell.

[22]  Richard Bourgon,et al.  Genome-wide analysis of Polycomb targets in Drosophila melanogaster , 2006, Nature Genetics.

[23]  P. Stadler,et al.  RNA Maps Reveal New RNA Classes and a Possible Function for Pervasive Transcription , 2007, Science.

[24]  Ping Zhu,et al.  Histone H2A monoubiquitination represses transcription by inhibiting RNA polymerase II transcriptional elongation. , 2008, Molecular cell.

[25]  Simon Kasif,et al.  Genomewide Analysis of PRC1 and PRC2 Occupancy Identifies Two Classes of Bivalent Domains , 2008, PLoS genetics.

[26]  Yi Zhang,et al.  Hierarchical recruitment of polycomb group silencing complexes. , 2004, Molecular cell.

[27]  Christopher R. Vakoc,et al.  DOT1L/KMT4 Recruitment and H3K79 Methylation Are Ubiquitously Coupled with Gene Transcription in Mammalian Cells , 2008, Molecular and Cellular Biology.

[28]  M. Surani,et al.  The Polycomb-Group GeneEzh2 Is Required for Early Mouse Development , 2001, Molecular and Cellular Biology.

[29]  C. Allis,et al.  Mouse Polycomb Proteins Bind Differentially to Methylated Histone H3 and RNA and Are Enriched in Facultative Heterochromatin , 2006, Molecular and Cellular Biology.

[30]  R. Young,et al.  A Chromatin Landmark and Transcription Initiation at Most Promoters in Human Cells , 2007, Cell.

[31]  Howard Y. Chang,et al.  Functional Demarcation of Active and Silent Chromatin Domains in Human HOX Loci by Noncoding RNAs , 2007, Cell.

[32]  Kristian Helin,et al.  The Polycomb Group Protein Suz12 Is Required for Embryonic Stem Cell Differentiation , 2007, Molecular and Cellular Biology.

[33]  Dustin E. Schones,et al.  High-Resolution Profiling of Histone Methylations in the Human Genome , 2007, Cell.

[34]  B. Chait,et al.  Ezh2 controls B cell development through histone H3 methylation and Igh rearrangement , 2003, Nature Immunology.

[35]  Peter F. Stadler,et al.  Memory Efficient Folding Algorithms for Circular RNA Secondary Structures , 2006, German Conference on Bioinformatics.

[36]  Gene W. Yeo,et al.  Divergent Transcription from Active Promoters , 2008, Science.