Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P51532 (transcriptional activator)
 6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thyroid hormone receptors (TRs) are nuclear proteins that regulate gene expression through interactions with specific DNA sequences. It is well known that thyroid hormones have critical functions in the control of normal brain development. In the rat brain, at least three mRNA species are generated by differential processing of the TR alpha transcript. Only one of the isoforms, TR alpha-1, is a transcriptional activator, while the regulatory roles of the carboxy-terminal variants TR alpha-2 and TR alpha-2v remain unclear. In this study we have used polymerase chain reaction amplification of total RNA to compare TR alpha-1, TR alpha-2, and TR alpha-2v mRNA levels in the brainstem, cerebellum, cerebrum, midbrain, and olfactory bulbs of developing neonatal brains in rats. RNA was collected 5, 10, 15, 20, and 25 days after birth from both normal and hypothyroid animals. Coordinate expression of all three isoforms was observed in most tissues during development, with TR alpha-2 generally maintaining the highest level of expression, and TR alpha-1 the lowest. In hypothyroid tissues, TR alpha-1 message was generally increased, while TR alpha-2 was not. To explore the possible roles of the TR alpha isoforms, we have compared their DNA-binding activities. We report that compared to TR alpha-1, the carboxy-terminal variants TR alpha-2 and TR alpha-2v show different binding patterns with a thyroid hormone response element, suggesting that they bind only poorly as monomers. The varying ratios of the TR alpha isoform expression together with their distinct binding patterns and reported repressor functions suggest that TR alpha isoforms have important roles during brain development and function, and may serve to fine-tune the biological responses to thyroid hormone.
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PMID:Coordinate expression of functionally distinct thyroid hormone receptor alpha isoforms during neonatal brain development. 194 7

Heat shock factor 2 (HSF2) functions as a transcriptional regulator of heat shock protein gene expression in mammalian cells undergoing processes of differentiation and development. Our previous studies demonstrated high regulated expression and unusual constitutive DNA-binding activity of the HSF2 protein in mouse testes, suggesting that HSF2 functions to regulate heat shock protein gene expression in spermatogenic cells. The purpose of this study was to test whether HSF2 regulation in testes is associated with alterations in the HSF2 polypeptide expressed in testes relative to other mouse tissues. Our results show that mouse cells express not one but two distinct HSF2 proteins and that the levels of these HSF2 isoforms are regulated in a tissue-dependent manner. The testes express predominantly the 71-kDa HSF2-alpha isoform, while the heart and brain express primarily the 69-kDa HSF2-beta isoform. These isoforms are generated by alternative splicing of HSF2 pre-mRNA, which results in the inclusion of an 18-amino-acid coding sequence in the HSF2-alpha mRNA that is skipped in the HSF2-beta mRNA. HSF2 alternative splicing is also developmentally regulated, as our results reveal a switch in expression from the HSF2-beta mRNA isoform to the HSF2-alpha isoform during testis postnatal developmental. Transfection analysis shows that the HSF2-alpha protein, the predominant isoform expressed in testis cells, is a more potent transcriptional activator than the HSF2-beta isoform. These results reveal a new mechanism for the control of HSF2 function in mammalian cells, in which regulated alternative splicing is used to modulate HSF2 transcriptional activity in a tissue-dependent manner.
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PMID:Tissue-dependent expression of heat shock factor 2 isoforms with distinct transcriptional activities. 756 77

The LIM homeodomain protein Islet-1 (Isl1), one of the earliest markers for motor neuron differentiation, is also expressed in all classes of islet cells in the pancreas. Isl1 is known to bind and regulate the promoters of the insulin, glucagon and somatostatin genes. In this study, we describe isolation of a novel isl1 cDNA species from the mouse islet beta cell line betaTC6, which arose from the utilization of an alternative splicing acceptor site in the fifth exon. This shorter cDNA encodes an Isl1 isoform (Isl1-beta) lacking the carboxy-terminal 23 amino acids of the previously reported product Isl1-alpha. Although the level of isl1-beta mRNA is much lower than that of isl1-alpha, isl1-beta is preferentially expressed in murine insulinoma cell lines but not in glucagonoma cell line. Upon transient transfection, both Isl1-alpha and Isl1-beta accumulate in the nuclei of murine insulinoma cells. We found that Isl1-beta is a relatively more potent transcriptional activator of the insulin promoter than Isl1-alpha and that the Isl1-alpha isoform undergoes phosphorylation. Therefore, the transcriptional activity of Isl1 is potentially regulated by the alternative splicing of its mRNA and by phosphorylation.
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PMID:Isolation and characterization of an alternatively spliced variant of transcription factor Islet-1. 1466 3