J. A. Inostroza scite author profile

The functionally conserved proteins CBP and p300 act in conjunction with other factors to activate transcription of DNA. A new factor, p/CIP, has been discovered that is present in the cell as a complex with CBP and is required for transcriptional activity of nuclear receptors and other CBP/p300-dependent transcription factors. The highly related nuclear-receptor co-activator protein NCoA-1 is also specifically required for ligand-dependent activation of genes by nuclear receptors. p/CIP, NCoA-1 and CBP all contain related leucine-rich charged helical interaction motifs that are required for receptor-specific mechanisms of gene activation, and allow the selective inhibition of distinct signal-transduction pathways.

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Determinants of coactivator LXXLL motif specificity in nuclear receptor transcriptional activation

McInerney¹,

Rose²,

Flynn³

et al. 1998

Genes Dev.

568

471

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Ligand-dependent activation of gene transcription by nuclear receptors is dependent on the recruitment of coactivators, including a family of related NCoA/SRC factors, via a region containing three helical domains sharing an LXXLL core consensus sequence, referred to as LXDs. In this manuscript, we report receptor-specific differential utilization of LXXLL-containing motifs of the NCoA-1/SRC-1 coactivator. Whereas a single LXD is sufficient for activation by the estrogen receptor, different combinations of two, appropriately spaced, LXDs are required for actions of the thyroid hormone, retinoic acid, peroxisome proliferator-activated, or progesterone receptors. The specificity of LXD usage in the cell appears to be dictated, at least in part, by specific amino acids carboxy-terminal to the core LXXLL motif that may make differential contacts with helices 1 and 3 (or 3) in receptor ligand-binding domains. Intriguingly, distinct carboxy-terminal amino acids are required for PPAR␥ activation in response to different ligands. Related LXXLL-containing motifs in NCoA-1/SRC-1 are also required for a functional interaction with CBP, potentially interacting with a hydrophobic binding pocket. Together, these data suggest that the LXXLL-containing motifs have evolved to serve overlapping roles that are likely to permit both receptor-specific and ligand-specific assembly of a coactivator complex, and that these recognition motifs underlie the recruitment of coactivator complexes required for nuclear receptor function.

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Transcriptional Repression by Msx-1 Does Not Require Homeodomain DNA-Binding Sites

Catron

Zhang

Marshall

et al. 1995

Molecular and Cellular Biology

166

141

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This study investigates the transcriptional properties of Msx-1, a murine homeodomain protein which has been proposed to play a key role in regulating the differentiation and/or proliferation state of specific cell populations during embryogenesis. We show, using basal and activated transcription templates, that Msx-1 is a potent repressor of transcription and can function through both TATA-containing and TATA-less promoters. Moreover, repression in vivo and in vitro occurs in the absence of DNA-binding sites for the Msx-1 homeodomain. Utilizing a series of truncated Msx-1 polypeptides, we show that multiple regions of Msx-1 contribute to repression, and these are rich in alanine, glycine, and proline residues. When fused to a heterologous DNA-binding domain, both N-and C-terminal regions of Msx-1 retain repressor function, which is dependent upon the presence of the heterologous DNA-binding site. Moreover, a polypeptide consisting of the full-length Msx-1 fused to a heterologous DNA-binding domain is a more potent repressor than either the N-or C-terminal regions alone, and this fusion retains the ability to repress transcription in the absence of the heterologous DNA site. We further show that Msx-1 represses transcription in vitro in a purified reconstituted assay system and interacts with protein complexes composed of TBP and TFIIA (DA) and TBP, TFIIA, and TFIIB (DAB) in gel retardation assays, suggesting that the mechanism of repression is mediated through interaction(s) with a component(s) of the core transcription complex. We speculate that the repressor function of Msx-1 is critical for its proposed role in embryogenesis as a regulator of cellular differentiation.

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Requirement of a corepressor for Dr1-mediated repression of transcription.

Mermelstein¹,

Yeung²,

Cao³

et al. 1996

Genes Dev.

120

126

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Studies aimed at understanding eukaryotic transcription have focused largely on identifying and characterizing RNA polymerase II and the general transcription machinery. To date, transcription of protein coding genes requires the concerted actions of six general transcription factors (GTFs) and RNA polymerase II (RNAPII) to accurately initiate RNA synthesis (Zawel and Reinberg 1993;Maldonado and Reinberg 1995). Of the six GTFs,

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Structure-function analysis of the TBP-binding protein Dr1 reveals a mechanism for repression of class II gene transcription.

Yeung

Inostroza²,

Mermelstein³

et al. 1994

Genes Dev.

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J. A. Inostroza

The transcriptional co-activator p/CIP binds CBP and mediates nuclear-receptor function

Determinants of coactivator LXXLL motif specificity in nuclear receptor transcriptional activation

Transcriptional Repression by Msx-1 Does Not Require Homeodomain DNA-Binding Sites

Requirement of a corepressor for Dr1-mediated repression of transcription.

Structure-function analysis of the TBP-binding protein Dr1 reveals a mechanism for repression of class II gene transcription.

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