Project description:Transcription factors require coactivators and corepressors to modulate transcription in mammalian cells. The vitamin D receptor (VDR) utilizes coactivators and corepressors to gain tight control over the activity of a diverse set of genes that can regulate calcium transport, slow proliferation and promote immune responses. We have recently established the VDR/RXR cistrome in human colon cancer cells and have linked these binding sites to the genes that are regulated by 1α,25-dihydroxyvitamin D3 (1,25(OH)2D3). In additional studies described herein, we demonstrate that the coactivators SRC1, CBP and MED1 are recruited to upregulated genes to facilitate transcription as expected. SRC1 was the most highly correlated to VDR/RXR binding (50%). However, we also found that corepressor molecules such as NCoR and SMRT were present along with SRC1, CBP or MED1 at these 1,25(OH)2D3 activated gene enhancers. Interestingly, genome-wide NCoR binding mimicked VDR binding by increasing its association with VDR binding in response to 1,25(OH)2D3 treatment. Overall, these data indicate a complex role for corepressor and coactivator complexes in the activation or active repression of 1,25(OH)2D3 responsive genes. 5 coregulators are analyzed by ChIP-seq. The Input from GSE31939 was used as the normalizing factor for all transcription factor IPs. If lanes had more than 1 replicate, these lanes were combined for greater read depth.

Project description:Transcription factors require coactivators and corepressors to modulate transcription in mammalian cells. The vitamin D receptor (VDR) utilizes coactivators and corepressors to gain tight control over the activity of a diverse set of genes that can regulate calcium transport, slow proliferation and promote immune responses. We have recently established the VDR/RXR cistrome in human colon cancer cells and have linked these binding sites to the genes that are regulated by 1α,25-dihydroxyvitamin D3 (1,25(OH)2D3). In additional studies described herein, we demonstrate that the coactivators SRC1, CBP and MED1 are recruited to upregulated genes to facilitate transcription as expected. SRC1 was the most highly correlated to VDR/RXR binding (50%). However, we also found that corepressor molecules such as NCoR and SMRT were present along with SRC1, CBP or MED1 at these 1,25(OH)2D3 activated gene enhancers. Interestingly, genome-wide NCoR binding mimicked VDR binding by increasing its association with VDR binding in response to 1,25(OH)2D3 treatment. Overall, these data indicate a complex role for corepressor and coactivator complexes in the activation or active repression of 1,25(OH)2D3 responsive genes.

Project description:NCoR and SMRT are two paralogous vertebrate proteins that function as corepressors with unliganded nuclear receptors. Although C. elegans has a large number of nuclear receptors, orthologues of the corepressors NCoR and SMRT have not unambiguously been identified in Drosophila or C. elegans. Here, we identify GEI-8 as the closest homologue of NCoR and SMRT in C. elegans and demonstrate that GEI-8 is expressed as at least two isoforms throughout development in multiple tissues, including neurons, muscle and intestinal cells. We demonstrate that a homozygous deletion within the gei-8 coding region, which is predicted to encode a truncated protein lacking the predicted NR domain, results in severe mutant phenotypes with developmental defects, slow movement and growth, arrested gonadogenesis and defects in cholinergic neurotransmission. Whole genome expression analysis by microarrays identified sets of de-regulated genes consistent with both the observed mutant phenotypes and a role of GEI-8 in regulating transcription. Interestingly, the upregulated transcripts included a predicted mitochondrial sulfide:quinine reductase encoded by Y9C9A.16. This locus also contains non-coding, 21-U RNAs of the piRNA. Inhibition of the expression of the region coding for 21-U RNAs leads to irregular gonadogenesis in the homozygous gei-8 mutants, but not in an otherwise wild-type background, suggesting that GEI-8 may function in concert with the 21-U RNAs to regulate gonadogenesis. Our results confirm that GEI-8 is the orthologue of the vertebrate NCoR/SMRT corepressors and demonstrate important roles for this putative transcriptional corepressor in development and neuronal function. Comparison of Mutant vs. WT control with three replications per treatment group

Project description:Using ChIP-seq, we reveal the SMRT and NCoR co-repressor cistromes, which each consist of over 30,000 half-shared binding sites. Moreover, we identify Bcl6-bound sub-cistromes for each co-repressor, which are strongly concentrated on NF-κB-driven inflammatory and tissue remodeling genes. These results reveal a critical role for Bcl6 and its corepressors SMRT and NCoR in the prevention of atherosclerosis and chronic inflammation. Identification of SMRT and NCoR binding sites in wild-type and Bcl6 knockout primary bone-marrow derived macrophages

Project description:NCoR and SMRT are two paralogous vertebrate proteins that function as corepressors with unliganded nuclear receptors. Although C. elegans has a large number of nuclear receptors, orthologues of the corepressors NCoR and SMRT have not unambiguously been identified in Drosophila or C. elegans. Here, we identify GEI-8 as the closest homologue of NCoR and SMRT in C. elegans and demonstrate that GEI-8 is expressed as at least two isoforms throughout development in multiple tissues, including neurons, muscle and intestinal cells. We demonstrate that a homozygous deletion within the gei-8 coding region, which is predicted to encode a truncated protein lacking the predicted NR domain, results in severe mutant phenotypes with developmental defects, slow movement and growth, arrested gonadogenesis and defects in cholinergic neurotransmission. Whole genome expression analysis by microarrays identified sets of de-regulated genes consistent with both the observed mutant phenotypes and a role of GEI-8 in regulating transcription. Interestingly, the upregulated transcripts included a predicted mitochondrial sulfide:quinine reductase encoded by Y9C9A.16. This locus also contains non-coding, 21-U RNAs of the piRNA. Inhibition of the expression of the region coding for 21-U RNAs leads to irregular gonadogenesis in the homozygous gei-8 mutants, but not in an otherwise wild-type background, suggesting that GEI-8 may function in concert with the 21-U RNAs to regulate gonadogenesis. Our results confirm that GEI-8 is the orthologue of the vertebrate NCoR/SMRT corepressors and demonstrate important roles for this putative transcriptional corepressor in development and neuronal function.

Project description:Using ChIP-seq, we reveal the SMRT and NCoR co-repressor cistromes, which each consist of over 30,000 half-shared binding sites. Moreover, we identify Bcl6-bound sub-cistromes for each co-repressor, which are strongly concentrated on NF-κB-driven inflammatory and tissue remodeling genes. These results reveal a critical role for Bcl6 and its corepressors SMRT and NCoR in the prevention of atherosclerosis and chronic inflammation.

Project description:This SuperSeries is composed of the following subset Series: GSE27001: Inhibition of Bcl6-SMRT/NCoR interactions by an inhibitory peptide affects inflammatory pathways GSE27033: Genome-wide location analysis of SMRT and NCoR in wild-type and Bcl6 knockout macrophages Refer to individual Series

Project description:To compare NCOR and SMRT transcriptional repressor complexes in macrophages, we conducted an analysis of protein binding patterns, transcriptomic patterns, and epigenome correlations. Our systematic research revealed both the similarities and functional specificities of NCOR and SMRT, highlighting the synergistic and differential regulation characteristics of these complexes in macrophages. These findings offer a deeper understanding of the distinct manifestations of epigenome differential regulation.

Project description:We detected an interaction between checkpoint kinase Chk2 and some members of the NCOR/SMRT co-repressor complex. In order to study the role of gene repression in the checkpoint response to DNA damage, we performed RNA profiling in NCOR or SMRT knockdown cells after treztment with cisplatin. U2OS cells were transfected with siRNAs for NCOR or SMRT, grown for 2 days in complete medium, and then treated with 100 microM cisplatin (CDDP) for 6h. Biological duplicates were used for RNa profiling

Project description:We detected an interaction between checkpoint kinase Chk2 and some members of the NCOR/SMRT co-repressor complex. In order to study the role of gene repression in the checkpoint response to DNA damage, we performed RNA profiling in NCOR or SMRT knockdown cells after treztment with cisplatin.