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Query: UNIPROT:P20226 (
TATA-binding protein
)
1,297
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The thyroid hormone receptor (TR) belongs to the steroid/nuclear receptor superfamily of ligand-inducible transcription factors. Numerous studies using transient transfection assays have demonstrated that in the absence of
thyroid hormone
(T3), unliganded TR acts as a constitutive repressor of transcription on genes bearing TR-response elements. We examined the molecular mechanism of TR repression in vitro using both HeLa nuclear extracts and purified basal factors. Here, we show that unliganded TR is an active transcriptional repressor, distinct from passive repressors that compete with activators for DNA binding. Repression by TR can be relieved by adding the T3 analog triiodothyroactic acid, suggesting that liganded TR undergoes a conformational change that masks or disrupts the repressor function. Repression by TR is mediated through the basal transcription machinery and can occur independently of previously characterized
TATA-binding protein
-associated cofactors thought to be involved in either basal repression or activator-dependent transcription. TR inhibits transcription at an early step during preinitiation complex (PIC) assembly, as preassembled PICs are refractory to the inhibitory effects of TR.
...
PMID:Unliganded thyroid hormone receptor inhibits formation of a functional preinitiation complex: implications for active repression. 839 77
Unliganded human thyroid hormone receptor alpha (hTR alpha) can repress transcription by inhibiting the formation of a functional preinitiation complex (PIC) on promoters bearing thyroid hormone receptor (TR)-binding elements. Here we demonstrate that hTR alpha directly contacts the
TATA-binding protein
(
TBP
) and that preincubation of hTR alpha with
TBP
completely alleviates TR-mediated repression in vitro. Using stepwise preassembled PICs, we show that hTR alpha targets either the
TBP
/TFIIA or the
TBP
/TFIIA/TFIIB steps of PIC assembly for repression. We also show that the repression domain of hTR alpha maps to the C-terminal ligand-binding region and that direct TR-
TBP
interactions can be inhibited by
thyroid hormone
. Together, these results suggest a model in which unliganded hTR alpha contacts promoter-bound
TBP
and interferes with later steps in the initiation of transcription.
...
PMID:Unliganded thyroid hormone receptor alpha can target TATA-binding protein for transcriptional repression. 852 5
We have identified novel interactions between the human (h)
TATA-binding protein
-associated factor TAF(II)55 and the ligand-binding domains (LBDs) of the nuclear receptors for vitamin D(3) (VDR) and
thyroid hormone
(TRalpha). Following expression in Cos cells, hTAF(II)55 interacts with the VDR and TRalpha LBDs in a ligand-independent manner whereas no interactions with the retinoid X receptors (RXRs) or with other receptors were observed. Deletion mapping indicates that hTAF(II)55 interacts with a 40-amino-acid region spanning alpha-helices H3 to H5 of the VDR and TRalpha LBDs but not with the equivalent highly related region of RXRgamma. TAF(II)55 also interacts with chimeric receptors in which the H3-to-H5 region of RXRgamma has been replaced with that of the VDR or TRalpha. Furthermore, replacement of two single amino acids of the RXRgamma LBD with their VDR counterparts allows the RXRgamma LBD to interact with hTAF(II)55 while the corresponding double substitution allows a much stronger interaction. In transfection experiments, the single mutated RXRgamma LBDs activate transcription to fivefold higher levels than wild-type RXRgamma while the double mutation activates transcription to a level comparable to that observed with the VDR. There is therefore a correlation between the ability of the modified RXRs to interact with hTAF(II)55 and transactivation. These results strongly suggest that the TAF(II)55 interactions with the modified RXR LBDs modulate transcriptional activation.
...
PMID:Human TAF(II)55 interacts with the vitamin D(3) and thyroid hormone receptors and with derivatives of the retinoid X receptor that have altered transactivation properties. 1040 38
Using coexpression in COS cells, we have identified novel interactions between the human
TATA-binding protein
-associated factor 28 (hTAF(II)28) component of transcription factor IID and the ligand binding domains (LBDs) of the nuclear receptors for vitamin D3 (VDR) and
thyroid hormone
(TRalpha). Interaction between hTAF(II)28 and the VDR and TR LBDs was ligand-reversible, whereas no interactions between hTAF(II)28 and the retinoid X receptors (RXRs) or other receptors were observed. TAF(II)28 interacted with two regions of the VDR, a 40-amino acid region spanning alpha-helices H3-H5 and alpha-helix H8. Interactions were also observed with the H3-H5 region of the TRalpha but not with the equivalent highly related region of the RXRgamma. Fine mapping using RXR derivatives in which single amino acids of the RXRgamma LBD have been replaced with their VDR counterparts shows that the determinants for interaction with hTAF(II)28 are located in alpha-helix H3 and are not identical to those previously identified for interactions with hTAF(II)55. We also describe a mutation in the H3-H5 region of the VDR LBD, which abolishes transactivation, and we show that interaction of hTAF(II)28 with this mutant is no longer ligand-reversible.
...
PMID:The human transcription factor IID subunit human TATA-binding protein-associated factor 28 interacts in a ligand-reversible manner with the vitamin D(3) and thyroid hormone receptors. 1074 85
Nuclear
thyroid hormone
receptors (TRs) act as ligand-dependent activators, but paradoxically unliganded TRs can increase transcription of promoters containing negative response elements (nTRE), and hormone binding represses this activation. The rat growth hormone (GH) promoter contains a positive TRE and a nTRE. Ligand-dependent negative regulation mediated by the nTRE could play an important physiological role in restricting GH gene expression in non-pituitary cells that express TRs. With chromatin immunoprecipitation assays, we show here that the nTRE is responsible for binding of TR to the promoter in non-pituitary HeLa cells and that this element also governs transactivation by the unoccupied receptor and repression by triiodothyronine. Occupancy of the promoter by TR is concomitant with appearance of acetylated histone H3, and triiodothyronine causes release of the receptor as well as disappearance of the acetylated histone from the promoter. Although the nTRE overlaps the TATA box, the receptor does not exclude binding of
TATA-binding protein
, but could rather facilitate formation of the preinitiation complex. Furthermore, the proximal GH promoter is synergistically stimulated by unliganded TR and
TATA-binding protein
, whereas the ligand represses this cooperation. Constitutive receptor activity and synergism with
TATA-binding protein
require binding of corepressors. Furthermore, inhibitors of histone deacetylases enhance promoter activation by the unliganded receptor and reduce triiodothyronine-dependent repression, whereas expression of HDAC1 reverses promoter stimulation. This suggests that partitioning of histone acetylases and deacetylases between the receptors and basal transcription factors could be involved in regulation of the basal GH promoter by TRs.
...
PMID:Binding of the thyroid hormone receptor to a negative element in the basal growth hormone promoter is associated with histone acetylation. 1287 87
