EC:2.7.1.21 - FACTA Search

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Query: EC:2.7.1.21 (thymidine kinase)
7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thyroid hormones suppress the synthesis of TSH in part by decreasing the rate of alpha and TSH beta gene transcription. Cis-acting DNA sequences present in the rat TSH beta subunit gene that are induced in transcriptional regulation by thyroid hormone have been identified by deletion-mutation and transient expression studies. Plasmid expression vectors were constructed including 2900, 900, 204, 77, 17 base pairs (bp) of 5'-flanking sequence and exon (5'-untranslated sequence, transcriptional start sites) fused to the coding region of the bacterial chloramphenicol acetyltransferase (CAT) gene. The transfected chimaeric plasmids demonstrated expression (with TSH beta DNA sequences in the 5'- to -3'-but not 3'- to -5'-orientation) in both a clonal pituitary cell line, GH3, and primary pituitary cell cultures, both of which are responsive to thyroid hormones. T3 (10(-11) M to 10(-7) M) treatment of transfected cells produced a dose-dependent decrease in CAT expression with a maximal 70% decrease at 10(-8) M. While a decrease in the basal level of expression was noted with progressive removal of both 5'-flanking and intronic sequences adjacent to exon 1, the fold-decrease in response to T3 was equivalent even in the 57 bp construct. In contrast, T3 had no effect on CAT expression directed by the promoter of the herpes simplex virus thymidine kinase gene. Thus, the rat TSH beta gene 5'-flanking region can direct heterologous gene expression in GH3 cells and contains sequences which have properties of a putative cis-active T3 responsive regulatory element(s).2+he
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PMID:Thyroid hormones regulate rat thyrotropin beta gene promoter activity expressed in GH3 cells. 254 80

To analyze the regulation of PRL gene expression by thyroid hormone (T3), fusion gene constructs containing various lengths of the rat PRL gene 5'-flanking sequence linked to the bacterial chloramphenicol acetyltransferase (CAT) gene were transfected into the GH3 cell line. Thyroid hormone had no effect on basal or cAMP-stimulated CAT expression in constructs containing more than 1.7 kilobasepairs of the 5'-sequence. However, deletion to 1.5 or 0.6 kilobasepairs resulted in an inhibition of both basal and cAMP-stimulated expression by T3. A construct containing the proximal enhancer region (positions -292 to -38 basepairs) linked to the herpes simplex thymidine kinase promoter (TK) and the CAT reporter gene also responded to T3 with inhibition of basal and cAMP-induced CAT expression. The distal enhancer region (positions -1714 to -1495) linked to thymidine kinase promoter CAT responded to T3 with a stimulation of CAT expression, and the response was additive with the stimulatory response to cAMP. Deletion analysis of the distal enhancer region revealed that the sequence between positions -1530 and -1565 was required for the stimulatory response to T3. The stimulatory response to T3 was additive with the response to estradiol, suggesting distinct elements, but deletion to position -1565 abolished the response to estradiol and permitted an inhibitory response to T3. Mutation of the estrogen response element prevents the response to estradiol, but only blunted the response to T3. Mutation of the sequence GGTCA at positions -1555 to -1551 resulted in an inhibitory response to T3, implicating this sequence in the stimulatory response.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thyroid hormone-responsive elements of the prolactin gene: evidence for both positive and negative regulation. 273 56

Thyroid hormone regulation of the human thyrotropin beta-subunit gene (TSH beta) was examined in a human embryonal cell line (293). Transient expression studies were performed with chimeric plasmids containing the reporter gene, chloramphenicol acetyltransferase. Sequences in the first exon between +9 and +37 base pairs (bp) enhanced gene expression from the human TSH beta promoter in the absence of thyroid hormone as well as mediated a concentration-dependent triiodothyronine (L-T3) decrease in gene expression. Thyroid hormone inhibition of expression was also conferred to the herpes simplex virus thymidine kinase promoter by inserting +3 to +37 bp of the human TSH beta gene downstream from the start of transcription. Primer extension analysis of RNA from transfected cell cultures revealed accurate transcription initiation in only those constructs which contained sequences between +9 and +37 bp. Moreover, RNA analysis confirmed that L-T3 inhibition of chloramphenicol acetyltransferase activity from chimeric pTSH beta CAT constructs occurred at a pretranslational level. In addition, a nuclear thyroid hormone receptor, c-erbA-beta, bound to this region in an avidin-biotin DNA binding assay. These data suggest that L-T3, bound to its receptor, may inhibit human TSH beta expression by interfering with an element that functions to enhance gene expression.
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PMID:Thyroid hormone inhibition of human thyrotropin beta-subunit gene expression is mediated by a cis-acting element located in the first exon. 276 33

Thyroid hormone dependent transcription stimulatory and inhibitory elements exist at the 5'-end of the rat GH (rGH) gene (TSE and TIE, respectively). In this study, the location of the sequences essential for TSE activity was examined using stably transfected GC cells. Because the TIE may influence TSE activity, we investigated TSE activity both on the rGH promoter, in the presence of the TIE, and on the viral thymidine kinase promoter, with the TIE deleted. The results of these studies indicate that the minimum sequences essential for TSE activity exist between positions -194 and -169 of the rGH gene.
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PMID:Sequences essential for activity of the thyroid hormone responsive transcription stimulatory element of the rat growth hormone gene. 284 60

We have recently shown that a thyroid hormone-responsive transcription stimulatory element exists in the 5'-flanking DNA near the rat growth hormone (rGH) gene (Crew, M. D., and Spindler, S. R. (1986) J. Biol. Chem. 261, 5018-5022). Progressive deletion-transfection analysis of the 5' end of the gene has led to the identification of two genetic elements responsive to thyroid hormone. The first of these is a thyroid hormone-responsive transcription stimulatory element, or TSE. The TSE induced a thyroid hormone-dependent induction-attenuation transcription cycle similar to that of the natural rGH gene. Deletion of sequences between positions -254 and -241 in the rGH 5'-flanking DNA eliminated TSE activity. The second regulatory element is a thyroid hormone-responsive transcription inhibitory element (TIE). When this element was active, thyroid hormone strongly but transiently inhibited rGH promoter utilization. Deletion of sequences between nucleotides -46 and -21 abolished the effects of the TIE. To determine whether the TSE and TIE are enhancer-like, we ligated various regions of rat growth hormone 5'-flanking DNA containing these elements to a chimeric test gene containing the Herpes simplex virus thymidine kinase promoter. Thyroid hormone activated heterologous promoter utilization when a rat growth hormone 5'-flanking DNA fragment containing the TSE (-520 to -115) was linked in cis, regardless of the distance or orientation of the TSE with respect to the promoter. These data suggest that the TSE is a thyroid hormone-dependent enhancer. In contrast, when the TIE was placed immediately 5' to the thymidine kinase promoter, transcription was not effected by 3,5,3'-L-triiodothyronine, suggesting that the TIE is not enhancer-like.
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PMID:Discrete positive and negative thyroid hormone-responsive transcription regulatory elements of the rat growth hormone gene. 357 Dec 30

Thyroid hormone (T3) receptors (T3Rs) regulate transcription by binding to T3 response elements (TREs) located within promoter regions of T3-regulated genes. In rat pituitary GH4C1 cells, expression of a reporter containing herpes simplex virus thymidine kinase (TK) gene sequences (-105/+51) linked to the chloramphenicol acetyltransferase gene was stimulated 4- to 5-fold by T3. Linker scanning mutants of the TK promoter revealed that regions around -80 containing a CTF/NF-1 recognition sequence and around -10 are both required for regulation by T3. Endogenous T3Rs from GH4C1 cells labeled with [125I]T3 bound only to TK promoter DNA fragments containing the -10 region. The -22/-2 sequence (TK-TRE) contains half-sites oriented as an inverted repeat separated by 6 basepairs that are identical to and similar to an optimized TRE half-site. Purified chicken T3R alpha 1 forms apparent monomeric and dimeric complexes on the 32P-labeled TK-TRE, as found previously with an inverted repeat of the optimized TRE (TREp) with no basepair gap. T3 enhances the formation and alters the mobility of these complexes on both elements. When positioned up-stream of a heterologous promoter-chloramphenicol acetyltransferase reporter, the TK-TRE conferred T3 regulation by endogenous T3R in GH4C1 cells and by cotransfected chicken T3R alpha 1 in HeLa cells. The TK-TRE does not bind and is not activated by retinoic acid receptor. T3Rs and nuclear proteins from GH4C1, HeLa, and COS1 cells form heterodimers on the TK-TRE which differ in abundance and mobility from heterodimers formed on the TREp. The identification of a TRE in the TK promoter raises the possibility that T3R or related proteins may play important roles in regulating the life cycle of herpes simplex virus.
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PMID:The herpes simplex virus thymidine kinase gene promoter contains a novel thyroid hormone response element. 838 56

Thyroid hormone action is mediated through its nuclear receptors (TRs), which bind to target DNA sequences [thyroid hormone response element (TRE)] as a homodimer or a heterodimer with 9-cis-retinoic acid receptors. Mutations of TR beta identified in patients with resistance to thyroid hormone (RTH) cluster primarily at two areas separated by the putative dimerization region. Two TR beta mutations were newly found in patients with RTH at codon 435 histidine (H435L and H435Q) close to the dimerization region. Recent crystallographic study suggested that H435 is critical for direct contact with T3. To study how the side-chain charge of amino acids at this position affects receptor characteristics, T3-binding activity, receptor dimerization, transcriptional activity, and dominant negative action were analyzed in two RTH mutants and two additional artificial mutants (H435R and H435E). The T3 binding affinities of all four mutants were below detection. In electrophoretic mobility shift assay using TRE-DR4 or the inverted palindrome (Lap), heterodimer formation of mutant receptors with 9-cis-retinoic acid receptor was similar to that of wild type receptors. However, homodimer formation varied among mutant receptors, especially using TRE-DR4, with a rank order of wild type = H435R > H435Q > H435L > > H435E. In the presence of a basic amino acid at codon 435, homodimer formation was preserved, whereas substitution to neutral or acidic amino acids resulted in decreased homodimer formation. In transient transfection assays using reporter genes under the control of 2xPal-thymidine kinase (TK), DR4-TK, Lap-TK, or TSH alpha promoter, these four mutants were inactive in T3-dependent transcriptional activation. Dominant negative inhibition was similar for all four mutants. These results indicate that 1) newly found TR beta mutations at codon 435 are responsible for RTH; and 2) codon 435 in TR beta is located at a position that can predominantly alter homodimer formation on certain TREs, such as DR4.
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PMID:Amino acid substitutions of thyroid hormone receptor-beta at codon 435 with resistance to thyroid hormone selectively alter homodimer formation. 882 60

Relaxation of skeletal muscle requires the re-uptake of Ca2+, which is mediated by the sarcoplasmic reticulum Ca2+-ATPase (SERCA). Thyroid hormone (T3) stimulates the expression of the SERCA1 isoform, which is essential for fast skeletal muscle fiber phenotype. We have cloned and studied the first 962 base pairs of the 5'-flanking region of the rat SERCA1 gene. This sequence was tested for T3-regulated expression in transient transfection experiments using COS7 cells and for binding of thyroid hormone receptor (TR) alpha in mobility shift assays. A construct of the 5'-flanking region and a reporter gene was unresponsive to T3 in the absence of co-transfected thyroid hormone receptor. In the presence of TRalpha, a T3 induction ratio of almost 4.0 was found, and this induction ratio was doubled with co-transfection of an RXR expression plasmid. Analysis of progressive 5'-deletion fragments of the sequence indicated multiple regions involved in T3 responsiveness. Three regions, R1, R2, and R3, were identified that bound TR complexes in mobility shift assays and conferred T3 responsiveness to a heterologous promoter. The most potent of these thyroid hormone response elements, R3, increased the 2-fold background T3 stimulation of the thymidine kinase promoter to nearly 6-fold. Detailed analysis of this element showed that four TR-binding half-sites, comprising two independent thyroid hormone response elements, interact cooperatively to give the maximal T3 response. T3 regulation of SERCA1 expression is mediated by a complex thyroid hormone response element that may serve to provide a greater range of response in interaction with nuclear receptor partners or cell-specific transcription factors.
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PMID:Characterization of the promoter of the rat sarcoplasmic endoplasmic reticulum Ca2+-ATPase 1 gene and analysis of thyroid hormone responsiveness. 894 55

Thyroid hormone (T3) and retinoic acid (RA) receptors regulate transcription of the rat growth hormone (GH) gene through binding to a common hormone response element (HRE) in the promoter. We have investigated the effect of histone acetylation on hormone-dependent expression of the rat GH gene. We examined the effect of butyrate, which induces histone hyperacetylation, and trichostatin A (TSA), a highly specific inhibitor of histone deacetylases. GH-mRNA levels were significantly increased in pituitary GH4C1 cells incubated with T3 and RA, and this response was further stimulated in the presence of 1 mM butyrate. The effect of butyrate was mimicked by TSA. Butyrate and TSA also enhanced the activity of recombinant constructs containing the GH promoter directing chloramphenicol acetyl transferase (CAT) reporter gene expression. CAT activity increased by 4- to 8-fold after incubation with 1 nM T3 and 1 microM RA, and this response was stimulated 2- to 4-fold further in the presence of 0.25 mM butyrate. This concentration of butyrate did not influence basal expression of CAT. TSA produced a dose-dependent increase of CAT activity in the absence of ligands, and between 5 and 200 nM potentiated the effect of T3 and RA. These compounds also increased the hormonal response of constructs in which the HRE was linked to heterologous [mouse mammary tumor virus (MMTV) and thymidine kinase (TK)] promoters. With butyrate >1 mM, basal activity of the GH promoter increased by more than 10-fold and the effect of T3 and RA was no longer observed. Overexpression of T3 receptors was able to counteract the stimulation of basal CAT levels caused by butyrate. Thus, in the absence of ligand, the T3 receptor acts as a constitutive repressor of gene expression. Upon binding of the hormone, the T3 receptor is converted into an activator. Our findings suggest that histone acetylation, which alters chromatin structure, may play an important role in hormone-mediated transcriptional regulation.
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PMID:Histone acetylation influences thyroid hormone and retinoic acid-mediated gene expression. 915 Apr 29

Mice that carry the wild-type herpes simplex virus type 1 (HSV1) thymidine kinase (tk) gene coupled to the bovine thyroglobulin (bTG) promoter (bTG-tk1 mice) express viral TK at a high level in the thyroid gland, and at an equally high level, ectopically, in the testis, which renders the males sterile. When the bTG promoter was coupled either to a variant of HSV1-tk (differing from the wild type in 2 nucleotides) (bTG-tk1alpha mice) or to the herpes simplex virus type 2 (HSV2) tk gene (bTG-tk2 mice) viral TK was expressed at high levels in the thyroid gland, and much lower levels in the testis, which causes a reduction in male fecundity rather than sterility. Here, we compare the expression of the three transgenes in the two tissues. Thyroids of all mice exhibited a 1.3 kb RNA initiated at or near the bTG cap site. Testes of all mice exhibited mainly 5'-end-shortened RNAs (bTG-tk1 and bTG-tk1alpha mice, approx. 1.2 kb and 0.9 kb; bTG-tk2 mice, approx. 1.2 kb) initiated from cryptic initiation sites in the HSV1-tk and HSV2-tk coding regions. Also, less abundant RNAs initiated near the bTG cap site were expressed from all three transgenes. Thyroids of bTG-tk1 and bTG-tk1alpha mice contained the full-length HSV-TK protein and a truncated variant previously shown to originate at a non-ATG start codon. Testes of these mice exhibited both proteins but relatively less of the full-length protein. We attribute the high level of viral TK in the testes of bTG-tk1 mice to the expression of a predominant protein of Mr 39000 that originates from ATG-2. Thyroid and testis of bTG-tk2 mice contained only the full-length HSV2-TK protein.
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PMID:Herpesvirus thymidine kinase transgenes that do not cause male sterility are aberrantly transcribed and translated in the testis. 976 91

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