RETRACTED: The Chromatin-Remodeling Complex WINAC Targets a Nuclear Receptor to Promoters and Is Impaired in Williams Syndrome

Kitagawa, Hirochika; Fujiki, Ryoji; Yoshimura, Kimihiro; Mezaki, Yoshihiro; Uematsu, Yoshikatsu; Matsui, Daisuke; Ogawa, Shinpei; Unno, Kiyoe; Okubo, Mataichi; Tokita, Akifumi; Nakagawa, Takeya; Ito, Takashi; Ishimi, Yukio; Nagasawa, Hiromichi; Matsumoto, Toshio; Yanagisawa, Junn; Kato, Shigeaki

doi:10.1016/s0092-8674(03)00436-7

Cited by 250 publications

(263 citation statements)

References 45 publications

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“…The protein composition of these complexes determines the overall transcriptional effect exerted by the receptor (Yanagisawa et al, 2002;Kitagawa et al, 2003;Ohtake et al, 2003). Interaction of retinoid receptors with b-catenin at the Id2 gene WRE presumably leads to recruitment of repressor complexes containing histone deacetylase and demethylase activities.…”

Section: Discussionmentioning

confidence: 99%

Id2 gene-targeted crosstalk between Wnt and retinoid signaling regulates proliferation in human keratinocytes

et al. 2007

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We investigated the effect of all-trans-retinoic acid (atRA) on proliferation in several human skin cell lines and found that antiproliferative potency of atRA correlated with the endogenous activity of canonical Wnt signaling. In HaCaT keratinocytes, we found that atRA significantly suppressed the expression of Id2, a member of the inhibitor of differentiation family of transcription factors that regulate cell growth and differentiation. However, no apparent change in the expression of other Wnt targets, like c-Myc or cyclin D1, was observed. Retinoid-induced Id2 gene suppression was associated with decreased levels of histone H3 and H4 acetylation and histone H3 Lys-4 methylation, and with recruitment of the LSD1 demethylase at the Wnt-response element (WRE) (TCF/LEF-binding site), in the Id2 gene promoter. None of such changes was detected at the WRE of c-Myc and cyclin D1 gene promoters. Inhibition of Id2 by short interfering RNA (siRNA) had a similar effect on the proliferation of HaCaT cells as exposure to atRA, whereas anti-b-catenin siRNA significantly inhibited its antiproliferative effect. These data suggest that downregulation of Id2 gene expression through transcriptional convergence between Wnt and retinoid signaling pathways underlies the antiproliferative effect of retinoids in keratinocytes, and provide evidence of gene-targeted crosstalk between signaling pathways.

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Section: Discussionmentioning

confidence: 99%

Id2 gene-targeted crosstalk between Wnt and retinoid signaling regulates proliferation in human keratinocytes

et al. 2007

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“…The BAZ1B protein (alias WSTF: Williams syndrome transcription factor) is a component of ATP-dependent chromatin remodelling complexes WINAC (WSTF Including Nucleosome Assembly Complex); these complexes are required in many nuclear processes such as replication, transcription and chromatin maintenance [144 -146]. Furthermore, the WINAC complex interacts with the vitamin D receptor via ligand-induced transactivation of the receptor [147]. BAZ1B is expressed differentially in neural tissue and it is subcellularly localized to condensed chromatin.…”

Section: The Single Copy Gene Part Of the Wbs Regionmentioning

confidence: 99%

“…Based on results from knock out mice studies, from in vitro assays on gene expression and from clinical findings in patients with only partial deletions of the WBS region, the genes LIMK1, CLIP2 (alias CYLN2) and the two members of TFII-I transcription family (GTF2IRD1 and GTF2I) are identified as playing the major role in developing the cognitive features [12, 43, 93 -95, 179, 186, 188]. Furthermore there are some hints that haploinsufficiency of BAZ1B may contribute to the hypercalcaemia in infants with WBS [147].…”

Section: Genotype-phenotype Correlation In Wbsmentioning

confidence: 99%

The genomic basis of the Williams – Beuren syndrome

Schubert

2008

Cell. Mol. Life Sci.

179

158

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“…A more common, reversely connected motif, the PHD finger-bromodomain, is found in many chromatinassociated proteins including histone lysine methyl-transferase MLL1 (ref. 28), Williams syndrome transcription factor (WSTF) in the chromatin-remodeling complex WINAC 29 , and the TIF1 family proteins (α, β, γ and δ; note that TIF1β is also known as KAP1 or TRIM28) 30 . This tandem PHD finger-bromodomain is also found in Sp140, a leukocytespecific protein in the nuclear body that is involved in the pathogenesis of acute promyelocytic leukemia and viral infection 31 .…”

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confidence: 99%

Structural insights into human KAP1 PHD finger–bromodomain and its role in gene silencing

Zeng

Yap

Ivanov

et al. 2008

Nat Struct Mol Biol

117

112

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The tandem PHD finger-bromodomain, found in many chromatin-associated proteins, has an important role in gene silencing by the human co-repressor KRAB-associated protein 1 (KAP1). Here we report the three-dimensional solution structure of the tandem PHD finger-bromodomain of KAP1. The structure reveals a distinct scaffold unifying the two protein modules, in which the first helix, α Z , of an atypical bromodomain forms the central hydrophobic core that anchors the other three helices of the bromodomain on one side and the zinc binding PHD finger on the other. A comprehensive mutation-based structure-function analysis correlating transcriptional repression, ubiquitin-conjugating enzyme 9 (UBC9) binding and SUMOylation shows that the PHD finger and the bromodomain of KAP1 cooperate as one functional unit to facilitate lysine SUMOylation, which is required for KAP1 co-repressor activity in gene silencing. These results demonstrate a previously unknown unified function for the tandem PHD finger-bromodomain as an intramolecular small ubiquitin-like modifier (SUMO) E3 ligase for transcriptional silencing.Chemical modifications of chromatin on the DNA (for example, methylation of cytosine) and DNA-packing histones (for example, acetylation, methylation, phosphorylation, ubiquitination and SUMOylation) are important in the epigenetic control of gene transcription in response to physiological and environmental stimuli [1][2][3] . An emerging model suggests that there is an 'epigenetic code' embedded within chromatin to signify regions of distinct nuclear activities, such as heterochromatin formation or transcriptional activation [4][5][6] . It is thought that the epigenetic code is established by chromatin-modifying enzymes and interpreted by proteins that bind the chromatin in a modification-sensitive manner. The discovery of methyl-CpG binding domains 7 , bromodomains as acetyllysine binding The tandem bromodomain-PHD finger of the human transcriptional coactivator p300/CBP has been shown to be interdependent in interactions with nucleosomes 27 . A more common, reversely connected motif, the PHD finger-bromodomain, is found in many chromatinassociated proteins including histone lysine methyl-transferase MLL1 (ref. 28), Williams syndrome transcription factor (WSTF) in the chromatin-remodeling complex WINAC 29 , and the TIF1 family proteins (α, β, γ and δ; note that TIF1β is also known as KAP1 or TRIM28) 30 . This tandem PHD finger-bromodomain is also found in Sp140, a leukocytespecific protein in the nuclear body that is involved in the pathogenesis of acute promyelocytic leukemia and viral infection 31 . Mutations of PHD fingers, particularly those that disrupt zinc coordination, have been linked to tumor formation and genetic disorders 32 .More recently, it has been reported that the PHD finger of the human co-repressor KAP1 functions as a unique SUMO E3 ligase that is required for KAP1's gene transcription repression activity 33 .To understand its molecular function in gene silencing, we solved the three-dim...

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RETRACTED: The Chromatin-Remodeling Complex WINAC Targets a Nuclear Receptor to Promoters and Is Impaired in Williams Syndrome

Cited by 250 publications

References 45 publications

Id2 gene-targeted crosstalk between Wnt and retinoid signaling regulates proliferation in human keratinocytes

Id2 gene-targeted crosstalk between Wnt and retinoid signaling regulates proliferation in human keratinocytes

The genomic basis of the Williams – Beuren syndrome

Structural insights into human KAP1 PHD finger–bromodomain and its role in gene silencing

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