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| 2. |
- Bergström, Rosita, et al.
(författare)
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CTCF Regulates Asynchronous Replication of the Imprinted H19/Igf2 Domain
- 2007
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Ingår i: Cell Cycle. - : Informa UK Limited. - 1538-4101 .- 1551-4005. ; 6:4, s. 450-454
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Tidskriftsartikel (refereegranskat)abstract
- Asynchronous replication during S phase is a universal characteristic of genomically imprinted genes. Replication timing in imprinted domains is determined epigenetically, as it is parent of origin specific, and is seen in the absence of sequence divergence between the two alleles. At the imprinted H19/lgf2 domain, the methylated paternal allele replicates early while the CTCF-bound maternal allele replicates late during S phase. CTCF regulates the allele-specific epigenetic characteristics of this domain, including methylation, transcription and chromosome conformation. Here we show that maternal, but not paternal inheritance of a mutated H19 imprinting control region, lacking functional CTCF binding sites, underlies a late to early switch in replication timing of the maternal H19/ lgf2 domain.
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| 3. |
- Bergström, Rosita, 1978-
(författare)
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Epigenetic Regulation of Replication Timing and Signal Transduction
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Upon fertilization the paternal and maternal genomes unite, giving rise to the embryo, with its unique genetic code. All cells in the human body are derived from the fertilized ovum: hence they all contain (with a few exceptions) the same genetic composition. However, by selective processes, genes are turned on and off in an adaptable, and cell type-specific, manner. The aim of this thesis is to investigate how signals coming from outside the cell and epigenetic factors residing in the cell nucleus, cooperate to control gene expression. The transforming growth factor-β (TGF-β) superfamily consists of around 30 cytokines, which are essential for accurate gene regulation during embryonic development and adult life. Among these are the ligands TGF-β1 and bone morphogenetic (BMP) -7, which interact with diverse plasma membrane receptors, but signal via partly the same Smad proteins. Smad4 is essential to achieve TGF-β-dependent responses. We observed that by regulating transcription factors such as Id2 and Id3 in a specific manner, TGF-β1 and BMP-7 achieve distinct physiological responses. Moreover, we demonstrate that CTCF, an insulator protein regulating higher order chromatin conformation, is able to direct transcription by recruiting RNA polymerase II to its target sites. This is the first mechanistic explanation of how an insulator protein can direct transcription, and reveals a link between epigenetic modifications and classical regulators of transcription. We also detected that DNA loci occupied by CTCF replicate late. The timing of replication is a crucial determinant of gene activity. Genes replicating early tend to be active, whereas genes replicating late often are silenced. Thus, CTCF can regulate transcription at several levels. Finally, we detected a substantial cross-talk between CTCF and TGF-β signaling. This is the first time that a direct interplay between a signal transduction pathway and the chromatin insulator CTCF is demonstrated.
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| 5. |
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| 6. |
- Bergström, Rosita, et al.
(författare)
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Transforming growth factor β promotes complexes between Smad proteins and the CCCTC-binding factor on the H19 imprinting control region chromatin
- 2010
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Ingår i: Journal of Biological Chemistry. - USA : The American Society for Biochemistry and Molecular Biology, Inc.. - 0021-9258 .- 1083-351X. ; 285:26, s. 19727-19737
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Tidskriftsartikel (refereegranskat)abstract
- Whether signal transduction pathways regulate epigenetic states in response to environmental cues remains poorly understood. We demonstrate here that Smad3, signaling downstream of transforming growth factor beta, interacts with the zinc finger domain of CCCTC-binding factor (CTCF), a nuclear protein known to act as "the master weaver of the genome." This interaction occurs via the Mad homology 1 domain of Smad3. Although Smad2 and Smad4 fail to interact, an alternatively spliced form of Smad2 lacking exon 3 interacts with CTCF. CTCF does not perturb well established transforming growth factor beta gene responses. However, Smads and CTCF co-localize to the H19 imprinting control region (ICR), which emerges as an insulator in cis and regulator of transcription and replication in trans via direct CTCF binding to the ICR. Smad recruitment to the ICR requires intact CTCF binding to this locus. Smad2/3 binding to the ICR requires Smad4, which potentially provides stability to the complex. Because the CTCF-Smad complex is not essential for the chromatin insulator function of the H19 ICR, we propose that it can play a role in chromatin cross-talk organized by the H19 ICR.
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| 7. |
- Chernukhin, Igor, et al.
(författare)
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CTCF Interacts with and Recruits the Largest Subunit of RNA Polymerase II to CTCF Target Sites Genome-Wide
- 2007
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Ingår i: Molecular and Cellular Biology. - 0270-7306 .- 1098-5549. ; 27:5, s. 1631-1648
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Tidskriftsartikel (refereegranskat)abstract
- CTCF is a transcription factor with highly versatile functions ranging from gene activation and repression to the regulation of insulator function and imprinting. Although many of these functions rely on CTCF-DNA interactions, it is an emerging realization that CTCF-dependent molecular processes involve CTCF interactions with other proteins. In this study, we report the association of a subpopulation of CTCF with the RNA polymerase II (Pol II) protein complex. We identified the largest subunit of Pol II (LS Pol II) as a protein significantly colocalizing with CTCF in the nucleus and specifically interacting with CTCF in vivo and in vitro. The role of CTCF as a link between DNA and LS Pol II has been reinforced by the observation that the association of LS Pol II with CTCF target sites in vivo depends on intact CTCF binding sequences. "Serial" chromatin immunoprecipitation (ChIP) analysis revealed that both CTCF and LS Pol II were present at the β-globin insulator in proliferating HD3 cells but not in differentiated globin synthesizing HD3 cells. Further, a single wild-type CTCF target site (N-Myc-CTCF), but not the mutant site deficient for CTCF binding, was sufficient to activate the transcription from the promoterless reporter gene in stably transfected cells. Finally, a ChIP-on-ChIP hybridization assay using microarrays of a library of CTCF target sites revealed that many intergenic CTCF target sequences interacted with both CTCF and LS Pol II. We discuss the possible implications of our observations with respect to plausible mechanisms of transcriptional regulation via a CTCF-mediated direct link of LS Pol II to the DNA.
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| 8. |
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| 9. |
- Kowanetz, Marcin, et al.
(författare)
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Id2 and Id3 define the potency of cell proliferation and differentiation responses to transforming growth factor β and bone morphogenetic protein
- 2004
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Ingår i: Molecular and Cellular Biology. - : American Society for Microbiology. - 0270-7306 .- 1098-5549. ; 24:10, s. 4241-4254
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Tidskriftsartikel (refereegranskat)abstract
- Transforming growth factors beta (TGF-betas) inhibit growth of epithelial cells and induce differentiation changes, such as epithelial-mesenchymal transition (EMT). On the other hand, bone morphogenetic proteins (BMPs) weakly affect epithelial cell growth and do not induce EMT. Smad4 transmits signals from both TGF-beta and BMP pathways. Stimulation of Smad4-deficient epithelial cells with TGF-beta 1 or BMP-7 in the absence or presence of exogenous Smad4, followed by cDNA microarray analysis, revealed 173 mostly Smad4-dependent, TGF-beta-, or BMP-responsive genes. Among 25 genes coregulated by both factors, inhibitors of differentiation Id2 and Id3 showed long-term repression by TGF-beta and sustained induction by BMP. The opposing regulation of Id genes is critical for proliferative and differentiation responses. Hence, ectopic Id2 or Id3 expression renders epithelial cells refractory to growth inhibition and EMT induced by TGF-beta, phenocopying the BMP response. Knockdown of endogenous Id2 or Id3 sensitizes epithelial cells to BMP, leading to robust growth inhibition and induction of transdifferentiation. Thus, Id genes sense Smad signals and create a permissive or refractory nuclear environment that defines decisions of cell fate and proliferation.
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