Chao‐Xing Yuan scite author profile

Cognate cDNAs are described for 2 of the 10 thyroid hormone receptor-associated proteins (TRAPs) that are immunopurified with thyroid hormone receptor α (TRα) from ligand-treated HeLa (α-2) cells. Both TRAP220 and TRAP100 contain LXXLL domains found in other nuclear receptor-interacting proteins and both appear to reside in a single complex with other TRAPs (in the absence of TR). However, only TRAP220 shows a direct ligand-dependent interaction with TRα, and these interactions are mediated through the C terminus of TRα and (at least in part) the LXXLL domains of TRAP220. TRAP220 also interacts with other nuclear receptors [vitamin D receptor, retinoic acid receptor α, retinoid X receptor α, peroxisome proliferation-activated receptor (PPAR) α, PPARγ and, to a lesser extent, estrogen receptor] in a ligand-dependent manner, whereas TRAP100 shows only marginal interactions with estrogen receptor, retinoid X receptor α, PPARα, and PPARγ. Consistent with these results, TRAP220 moderately stimulates human TRα-mediated transcription in transfected cells, whereas a fragment containing the LXXLL motifs acts as a dominant negative inhibitor of nuclear receptor-mediated transcription both in transfected cells (TRα) and in cell free transcription systems (TRα and vitamin D receptor). These studies indicate that TRAP220 plays a major role in anchoring other TRAPs to TRα during the function of the TRα–TRAP complex and, further, that TRAP220 (possibly along with other TRAPs) may be a global coactivator for the nuclear receptor superfamily.

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Identity between TRAP and SMCC Complexes Indicates Novel Pathways for the Function of Nuclear Receptors and Diverse Mammalian Activators

Ito

et al. 1999

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The human thyroid hormone receptor-associated protein (TRAP) complex, an earlier described coactivator for nuclear receptors, and an SRB- and MED-containing cofactor complex (SMCC) that mediates activation by Gal4-p53 are shown to be virtually the same with respect to specific polypeptide subunits, coactivator functions, and mechanisms of action (activator interactions). In parallel with ligand-dependent interactions of nuclear receptors with the TRAP220 subunit, p53 and VP16 activation domains interact directly with a newly cloned TRAP80 subunit. These results indicate novel pathways for the function of nuclear receptors and other activators (p53 and VP16) through a common coactivator complex that is likely to target RNA polymerase II. Identification of the TRAP230 subunit as a previously predicted gene product also suggests a coactivator-related transcription defect in certain disease states.

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Transcription coactivator TRAP220 is required for PPARγ2-stimulated adipogenesis

Guermah

Yuan

et al. 2002

Nature

294

283

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The TRAP (thyroid hormone receptor-associated proteins) transcription coactivator complex (also known as Mediator) was first isolated as a group of proteins that facilitate the function of the thyroid hormone receptor. This complex interacts physically with several nuclear receptors through the TRAP220 subunit, and with diverse activators through other subunits. TRAP220 has been reported to show ligand-enhanced interaction with peroxisome proliferator-activated receptor gamma(2) (PPAR gamma(2)), a nuclear receptor essential for adipogenesis. Here we show that Trap220(-/-) fibroblasts are refractory to PPAR gamma(2)-stimulated adipogenesis, but not to MyoD-stimulated myogenesis, and do not express adipogenesis markers or PPAR gamma(2) target genes. These defects can be restored by expression of exogenous TRAP220. Further indicative of a direct role for TRAP220 in PPAR gamma(2) function via the TRAP complex, TRAP functions directly as a transcriptional coactivator for PPAR gamma(2) in a purified in vitro system and interacts with PPAR gamma(2) in a ligand- and TRAP220-dependent manner. These data indicate that TRAP220 acts, via the TRAP complex, as a PPAR gamma(2)-selective coactivator and, accordingly, that it is specific for one fibroblast differentiation pathway (adipogenesis) relative to another (myogenesis).

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An iPSC Line from Human Pancreatic Ductal Adenocarcinoma Undergoes Early to Invasive Stages of Pancreatic Cancer Progression

et al. 2013

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Pancreatic ductal adenocarcinoma (PDAC) carries a dismal prognosis and lacks a human cell model of early disease progression. When human PDAC cells are injected into immunodeficient mice, they generate advanced stage cancer. We hypothesized that if human PDAC cells were converted to pluripotency and then allowed to differentiate back into pancreatic tissue, they might undergo early stages of cancer. Although most induced pluripotent stem (iPS) cell lines were not of the expected cancer genotype, one PDAC line, 10-22 cells, when injected into immunodeficient mice, generates pancreatic intraepithelial neoplasia (PanIN) precursors to PDAC that progress to the invasive stage. The PanIN-like cells secrete or release proteins corresponding to genes and networks expressed in human pancreatic cancer progression and which predicted an HNF4α network also seen a mouse model. Thus, rare events allow iPS technology to provide a live human cell model of early pancreatic cancer and new insights into disease progression.

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Chao‐Xing Yuan

The TRAP220 component of a thyroid hormone receptor- associated protein (TRAP) coactivator complex interacts directly with nuclear receptors in a ligand-dependent fashion

Identity between TRAP and SMCC Complexes Indicates Novel Pathways for the Function of Nuclear Receptors and Diverse Mammalian Activators

Transcription coactivator TRAP220 is required for PPARγ2-stimulated adipogenesis

An iPSC Line from Human Pancreatic Ductal Adenocarcinoma Undergoes Early to Invasive Stages of Pancreatic Cancer Progression

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