Project description:The LSM2-8 complex specifically targets nuclear RNAs generated from loci bearing histone H3K27me3 for degradation through the exonuclease XRN-2 In fission yeast and plants RNA-processing pathways including co-transcriptional degradation of nuclear mRNAs contributes to heterochromatic gene silencing additionally to the well-known transcriptional repression, but it was not knownunclear if this extra level of regulation also to occur in metazoans. Here we report the discovery of a related pathway in somatic cells of the flatworm C. elegans. The highly conserved, RNA binding LSM2-8 complex is shown to silence selectively heterochromatic reporters and endogenous genes bearing the Polycomb mark H2K27me3. LSM2-8-mediated silencing is independent of H3K9me2/me3 but depends on mes-2, the Polycomb-like histone methyl transferase. LSM2-8-mediated silencing is detectable from early embryonic stages through adulthood. The LSM2-8 complex works cooperatively with XRN-2, a 5’-3’ exonuclease, and disruption of the pathway leads to stabilized targeted mRNAs. Developmental defects and premature death were observed in worms lacking LSM-8, and levels of H3K27me3 dropped slightly at Pc-targeted loci. LSM2-8-mediated silencing of H3K27me3-bound regions defines a new mechanism of selective heterochromatin gene silencing not previously shown for higher eukaryotes.

Project description:The LSM2-8 complex specifically targets nuclear RNAs generated from loci bearing histone H3K27me3 for degradation through the exonuclease XRN-2 In fission yeast and plants RNA-processing pathways including co-transcriptional degradation of nuclear mRNAs contributes to heterochromatic gene silencing additionally to the well-known transcriptional repression, but it was not knownunclear if this extra level of regulation also to occur in metazoans. Here we report the discovery of a related pathway in somatic cells of the flatworm C. elegans. The highly conserved, RNA binding LSM2-8 complex is shown to silence selectively heterochromatic reporters and endogenous genes bearing the Polycomb mark H2K27me3. LSM2-8-mediated silencing is independent of H3K9me2/me3 but depends on mes-2, the Polycomb-like histone methyl transferase. LSM2-8-mediated silencing is detectable from early embryonic stages through adulthood. The LSM2-8 complex works cooperatively with XRN-2, a 5’-3’ exonuclease, and disruption of the pathway leads to stabilized targeted mRNAs. Developmental defects and premature death were observed in worms lacking LSM-8, and levels of H3K27me3 dropped slightly at Pc-targeted loci. LSM2-8-mediated silencing of H3K27me3-bound regions defines a new mechanism of selective heterochromatin gene silencing not previously shown for higher eukaryotes.

Project description:LSM2-8 and XRN-2 contribute to the silencing of H3K27me3 marked genes through targeted RNA decay

Project description:LSM2-8 and XRN-2 contribute to the silencing of H3K27me3 marked genes through targeted RNA decay II

Project description:We report the role of LSM2-8 complex in the Arabidopsis tolerance to abiotic stresses. LSM2-8 controls gene expression reprogramming at the post-transcriptional level by promoting the splicing of pre-mRNA. This function is selectively achieved over selected transcripts depending on stress nature.

Project description:• Polycomb (PcG) regulation is crucial for development across eukaryotes, but how PcG targets are specified is still incompletely understood. The slow timescale of cold-induced Polycomb Repressive Complex 2 silencing during vernalization at Arabidopsis thaliana FLOWERING LOCUS C (FLC) provides an excellent system to elucidate the sequence of events. Association of the DNA binding protein VAL1 to an FLC intronic RY motif within the PcG nucleation region is an important step. VAL1 is associated in vivo with APOPTOSIS AND SPLICING ASSOCIATED PROTEIN (ASAP) complex and Polycomb Repressive Complex 1 (PRC1). Here, we show that ASAP and PRC1 functions are necessary for co-transcriptional repression and chromatin regulation during FLC silencing. ASAP mutants affect FLC transcription in warm conditions, but the rate of FLC silencing in the cold is unaffected. PRC1-mediated H2Aub accumulation increases at the nucleation region upon exposure to cold, but unlike the PRC2-delivered H3K27me3 does not spread across the locus. H2Aub is thus involved in the transition to epigenetic silencing at FLC facilitating H3K27me3 accumulation, which in turn is necessary for long-term epigenetic memory. Overall, our work highlights the importance of the DNA sequence-specific binding protein VAL1 as an assembly platform coordinating the co-transcriptional repression and chromatin regulation necessary for the epigenetic silencing of FLC.

Project description:Polycomb (PcG) silencing is crucial for development, but how targets are specified remains incompletely understood. The cold-induced Polycomb Repressive Complex 2 (PRC2) silencing of Arabidopsis thaliana FLOWERING LOCUS C (FLC) provides an excellent system to elucidate PcG regulation. Association of the DNA binding protein VAL1 to the PcG nucleationregion at FLC is an important step. VAL1 interacts with APOPTOSIS AND SPLICING ASSOCIATED PROTEIN (ASAP) complex and PRC1. Here, we show that ASAP and PRC1 are necessary for co-transcriptional repression and chromatin regulation during FLC silencing. ASAP mutants affect FLC transcription in warm conditions, but the rate of FLC silencing in the cold is unaffected. PRC1-mediated H2Aub accumulates at FLC nucleation region during cold, but unlike the PRC2-delivered H3K27me3 does not spread across the locus. H2Aub thus marks the transition to epigenetic silencing, while H3K27me3 is necessary for long-term epigenetic memory. Overall, our work highlights the importance of VAL1 as an assembly platform co-ordinating the co-transcriptional repression and chromatin regulation necessary for the epigenetic silencing of FLC.

Project description:LSM2-8 and XRN-2 contribute to the silencing of H3K27me3 marked genes through targeted RNA decay I

Project description:Polycomb Repressive Complex (PRC) 1 and 2 are histone-modifying and chromatin-binding complexes that are required for silencing of developmental regulatory and other genes. Their silencing functions are thought to involve chromatin compaction and condensate formation but whether other mechanisms contribute to silencing is unknown. Here we show that the rixosome, a conserved RNA degradation complex with roles in ribosomal RNA processing and heterochromatic RNA degradation in fission yeast, associates with human PRC complexes, is recruited to promoters of Polycomb target genes in differentiated cell lines and embryonic stem cells, and is required for efficient silencing of Polycomb target genes. These findings reveal an unanticipated role for RNA degradation in Polycomb-mediated gene silencing.

Project description:Polycomb Repressive Complex (PRC) 1 and 2 are histone-modifying and chromatin-binding complexes that are required for silencing of developmental regulatory and other genes. Their silencing functions are thought to involve chromatin compaction and condensate formation but whether other mechanisms contribute to silencing is unknown. Here we show that the rixosome, a conserved RNA degradation complex with roles in ribosomal RNA processing and heterochromatic RNA degradation in fission yeast, associates with human PRC complexes, is recruited to promoters of Polycomb target genes in differentiated cell lines and embryonic stem cells, and is required for efficient silencing of Polycomb target genes. These findings reveal an unanticipated role for RNA degradation in Polycomb-mediated gene silencing.