Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The epidermal growth factor (EGF) receptor (EGFR) promoter is negatively regulated by thyroid hormone and retinoic acid. This regulation can be mapped to a 36-basepair GC-rich region of the promoter (EGFR P/E) that functions autonomously as a promoter and an enhancer when placed in front of the thymidine kinase gene TATA element. Direct high affinity binding of the thyroid hormone receptor (T3R) to this element requires a nuclear protein. Through ion exchange chromatography and gel filtration of HeLa nuclear extract, this activity was identified as a protein of approximately 67 kilodaltons. This protein did not bind to DNA alone, but greatly augmented T3R binding to the EGFR P/E sequence in gel mobility shift and DNA precipitation assays. When combined with the T3R auxillary protein (TRAP), the T3R migrated as a larger complex on the DNA. Chemical cross-linking identified this complex as a heterodimer between T3R and TRAP. T3R-TRAP binds to a 7-basepair site in the EGFR P/E (GGGACTC) that has weak homology to a consensus thyroid response element half-site. Thus, on this element, T3R-TRAP heterodimers contact the DNA primarily on a single site that comprises an inhibitory thyroid response element.
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PMID:A nuclear protein is required for thyroid hormone receptor binding to an inhibitory half-site in the epidermal growth factor receptor promoter. 158 25

Development has been studied in re-aggregate cultures derived from the 16 day foetal rat brain and the effects of triiodothyronine (T3) investigated. Cultures were maintained in either a medium containing 10% serum (S+), or in serum-free culture medium (S-) or in serum-free medium containing 30nM T3. The muscarinic cholinoceptor, measured by specific binding of [3H]-quinuclidinyl benzitate ([3H]-QNB) at 9 and 14 days in vitro, was at a lower level in the serum-free cultured cells compared with those in serum-containing culture medium (S+). In cultures in the latter medium, receptor concentration at day 14 was of a similar magnitude to that in rat brain at an equivalent postnatal age. Binding increased with development from 9 to 14 days in vitro in the S+ medium but not in the S- medium. T3 treatment caused an 85% increase in [3H]-QNB binding compared with the cultures in S- medium at day 14 to a level equivalent to that found in the cells grown in S+ medium. This increase was reflected in the Bmax but not in the KD (approx. 0.1nM). Choline acetyltransferase (ChAT) activity developed more slowly in the S- medium than in the S+ medium where the specific activity approximated values obtained in vivo. T3 treatment of cultures grow in S- medium significantly enhanced the developmental rate of increase of ChAT activity. The characteristics of [3H]-choline uptake and metabolism in the cultures was examined. Uptake was strictly Na+-independent but was energy-dependent, and inhibited by 2, 4'-dinitrophenol (2, 4'-DNP) and cooling (0-4 degrees C). Neither iodoacetate nor ouabain had any effect on the amount of uptake. Hemicholinium (HC3) was a potent inhibitor of uptake (70% inhibition at 10 microM HC3). Metabolism studies showed virtually no conversion to [3H]-acetylcholine ([3H]-ACH) in reaggregates grown in either the S+, S- or T3 containing media. However, a small amount of [3H]-choline was incorporated into phosphorylcholine. T3 treatment had no effect on this metabolic profile. The kinetics of [3H]-choline uptake by the re-aggregates was also studied in the re-aggregate cultures (after 12 and 22 days in vitro) using [3H]-choline at 0.05-100 microM. Both Eadie-Hofstee transformation and least-squares analysis of the data showed that the uptake comprised only a single low-affinity component with an apparent Kt = approx. 50 microM. Unlike ChAT and [3H]-QNB binding, there appeared to be no difference between the uptake in the different culture conditions. 6 It is concluded that the differentiation of cholinergic neurones and muscarinic receptors in serum-free cultured re-aggregates from foetal rat brain is enhanced by thyroid hormone treatment. The development of [3H]-choline uptake does not seem to be associated with cholinergic cells under these culture conditions, and is unaffected by thyroid hormone treatment.
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PMID:Development of markers for cholinergic neurones in re-aggregate cultures of foetal rat whole brain in serum-containing and serum-free media: effects of triiodothyronine (T3). 648 98

To elucidate the pathogenesis of thyroid gland hypervascularity in patients with Graves' disease, we studied the expression of mRNAs for vascular endothelial growth factor (VEGF) and its receptor, Flt family, using human thyroid follicles in vitro and thiouracil-fed rats in vivo. Human thyroid follicles, cultured in the absence of endothelial cells, secreted de novo-synthesized thyroid hormone in response to thyroid-stimulating hormone (TSH) and Graves' IgG. The thyroid follicles produced VEGF mRNA but not flt-1 mRNA. The expression of VEGF mRNA was enhanced by insulin, tumor-promoting phorbol ester, calcium ionophore, dibutyryl cAMP, TSH, and Graves' IgG. When rats were fed thiouracil for 4 wk, their serum levels of TSH were increased at day 3. VEGF mRNA was also increased on day 3, accompanied by an increase in flt family (flt-1 and KDR/ flk-1) mRNA expression. These in vitro and in vivo findings suggest that VEGF is produced by thyroid follicles in response to stimulators of TSH receptors, via the protein kinase A and C pathways. VEGF, a secretable angiogenesis factor, subsequently stimulates Flt receptors on endothelial cells in a paracrine manner, leading to their proliferation and producing hypervascularity of the thyroid gland, as seen in patients with Graves' disease.
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PMID:Stimulation by thyroid-stimulating hormone and Grave's immunoglobulin G of vascular endothelial growth factor mRNA expression in human thyroid follicles in vitro and flt mRNA expression in the rat thyroid in vivo. 765 4

The effect of the CSF-1 receptor, cFMS, on the phosphorylation of the retinoblastoma (RB) tumor suppressor protein and on the cell cycle and cell differentiation was analyzed in a cultured promyelocytic leukemia cell capable of induced myelomonocytic differentiation. A series of cFMS-transfected HL-60 sublines with progressively higher cell surface FMS expression was derived by flow cytometric cell sorting. Overexpression of FMS increased the duration of the cell cycle, prolonging all cell cycle phases especially S phase, which doubled. The increased cell cycle generation times occurred without any detectable changes in RB expression level or phosphorylation. For retinoic acid (RA)-induced myeloid differentiation, progressive overexpression of FMS caused a greater fraction of cells to differentiate and G1/0 arrest compared to wild-type cells after the same number of cell cycle generation times. FMS overexpression also progressively increased the relative amount of dephosphorylated RB protein induced, while reducing the total amount of RB protein. The inducer-originated and FMS-driven changes in RB hypophosphorylation were not effected through changes in p21/WAF1/CIP1 in this p53-negative cell. Similar effects on differentiation and G0 arrest occurred with 1,25-dihydroxy vitamin D3 (D3)-induced monocytic differentiation. FMS did not significantly affect myeloid differentiation induced by DMSO, which does not target steroid-thyroid hormone receptors like RA and D3. While differentiation is typically associated with hypophosphorylated RB in all these cases, the kinetics indicate that the FMS-induced changes in cell cycle and cell differentiation do not depend in a direct causal fashion on the interconversion between hyperphosphorylated and hypophosphorylated RB.
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PMID:FMS (CSF-1 receptor) prolongs cell cycle and promotes retinoic acid-induced hypophosphorylation of retinoblastoma protein, G1 arrest, and cell differentiation. 894 Feb 55

To investigate the estrogenic effects on the transcriptional regulation of the epidermal growth factor (EGF) receptor (EGFR) gene, we assayed its promoter ability to direct transcription of the luciferase reporter gene after transfection into HeLa cells. Our studies demonstrated a dose-dependent activation of the EGFR gene transcription by ligand-bound estrogen receptor alpha (ERalpha). This action was retained by the 36-bp core promoter fragment and did not require the receptor DNA binding domain, as demonstrated by analyzing the role of ERalpha deletion mutants on EGFR gene promoter-derived constructs. The 36-bp promoter fragment does not contain an estrogen response element but an imperfect thyroid hormone response element half-site that overlaps the Sp1 binding site. ERalpha does not bind this imperfect thyroid hormone response element half-site but is able to enhance binding of Sp1 to its site, in gel mobility shift assays, suggesting that the mechanism by which the receptor stimulated the transcription involved protein-protein interactions that replaced DNA binding. To explain this action, we propose a model in which induction of the EGFR gene expression by estrogens in HeLa cells is dependent upon the formation of a transcriptionally active ERalpha-Sp1 complex that binds to the GC-rich (Sp1) region of the minimal promoter.
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PMID:Identification of an estrogen-mediated deoxyribonucleic acid-binding independent transactivation pathway on the epidermal growth factor receptor gene promoter. 1083 Mar 17

Familial thyroid cancer can arise from parafollicular cells (familial medullary thyroid cancer) or from follicular cells (familial nonmedullary thyroid cancer). Familial medullary thyroid cancer may occur in isolation or as part of multiple endocrine neoplasia (MEN) type II syndromes. Genetic testing for a RET mutation on chromosome 10 is used to identify new family members who are gene carriers. Total thyroidectomy should be used in gene carriers without clinical disease before age 6 in medullary thyroid cancer and MEN type IIA, and as soon as the diagnosis is made in MEN type IIB after the first year of life. Those with clinical disease should have at least a bilateral central neck dissection. Modified radical neck dissection is recommended for patients when the primary tumor is 1.5 cm. A normal postoperative serum calcitonin level suggests that the operation has been curative. Physicians need to be aware of ethical and lifestyle issues related to patients with familial disease and their family members. Familial nonmedullary thyroid cancer occurs as a discrete entity or as part of other family cancer syndromes such as Gardner syndrome, Cowden disease, and other rare syndromes. Familial nonmedullary thyroid cancer almost exclusively includes patients with papillary or Hurthle cell cancers. These families appear to have more benign thyroid conditions. The gene (or genes) for familial papillary thyroid cancer is yet to be identified, whereas that for some Hurthle cells (TCO) has been mapped to chromosome 19p13.2. Familial nonmedullary thyroid cancer is somewhat more aggressive than its sporadic counterpart, but is less aggressive than medullary thyroid cancer. Total thyroidectomy and central neck dissection followed by radioactive iodine ablation and thyroid hormone suppression appear to be the most effective therapy.
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PMID:Familial thyroid cancer. 1114 85

TRs are transcription factors that regulate cell proliferation, differentiation, and apoptosis. They are cellular homologs of the transcriptionally inactive viral oncogene v-erbA. We tested the hypothesis that the functions of TRs could be impaired in cancer tissues as a result of aberrant expression and/or somatic mutations. As a model system, we selected human thyroid papillary cancer, in which the most common abnormalities, RET/papillary thyroid cancer rearrangements (fusion of RET kinase domain to the activating domains of other genes), were found in 40--45% of cases. We found that the mean expression levels of TR beta mRNA and TR alpha mRNA were significantly lower, whereas the protein levels of TR beta 1 and TR alpha 1 were higher in cancer tissues than in healthy thyroid. Sequencing of TR beta 1 and TR alpha 1 cDNAs, cloned from 16 papillary cancers, revealed that mutations affected receptor amino acid sequences in 93.75% and 62.5% of cases, respectively. In contrast, no mutations were found in healthy thyroid controls, and only 11.11% and 22.22% of thyroid adenomas had such TR beta 1 or TR alpha 1 mutations, respectively. The majority of the mutated TRs lost their trans-activation function and exhibited dominant negative activity. These findings suggest a possible role for mutated thyroid hormone receptors in the tumorigenesis of human papillary thyroid carcinoma.
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PMID:Functionally impaired TR mutants are present in thyroid papillary cancer. 1188 75

Retinoic acid (RA) inhibits tumor promotion in many models in vivo and in vitro, among them mouse epidermal JB6 cells. RA treatment suppresses 12-O-tetradecanoylphorbol-13-acetate (TPA) induced AP-1 activity, an activity that is required for transformation of JB6 P+ cells. The molecular mechanism of AP-1 transrepression by retinoids is unclear, especially as related to inhibition of transformation. Overexpression of AP-1 components did not rescue TPA induced AP-1 activation nor did a GST pull down experiment implicate direct binding, thus rendering unlikely both a Jun/Fos-RA-RAR direct interaction and a Jun/Fos sequestration mechanism. Overexpression of p300, SRC-1 or pCAF did not abrogate AP-1 suppression by RA, thus arguing against coactivator competition. Overexpression of the corepressor silencing mediator for retinoic acid and thyroid hormone receptors (SMRT) suppressed AP-1 activity. However, SMRT but not RA inhibited cJun transactivation, suggesting SMRT does not mediate RA transrepression. RA treatment also did not block TPA induced ERK phosphorylation, Jun/Fos family protein expression except for cFos, or DNA binding of the AP-1 complex. The transcriptional activities of full-length JunB and full-length Fra-1, but not the transactivation domain fusions, were increased by TPA treatment and suppressed by RA. Since these full-length fusions have bzip domains, the results suggest that JunB and/or Fra-1-containing dimers may constitute one target of RA for transrepression of AP-1.
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PMID:AP-1 transrepressing retinoic acid does not deplete coactivators or AP-1 monomers but may target specific Jun or Fos containing dimers. 1194 1

We have previously demonstrated that liposomes generated from poly(cationic lipid) (PCL) and cholesterol (Chol) have low cytotoxicity, are serum resistant, and display a transfection efficiency in vitro similar to commercially available cationic liposomes. Our in vivo experiments demonstrated that PCL-Chol liposomes bound much less avidly to serum proteins than did liposomes composed of 1,2-bis(dioleoyloxy)-3-(trimethylamonio)propane (DOTAP)-Chol or DOTAP-L-alpha dioleoyl phosphatidylethanolamine (DOPE). Injection of the lipoplexes (PCL-Chol+DNA) through the portal vein after partial hepatectomy (PH) led to much higher reporter gene expression (luciferase) in the liver than did naked DNA injection. Marked green fluorescent protein expression was visualized in almost all hepatocytes in the liver of mice receiving lipoplex injection, even in the absence of PH. Subcutaneous injection of thyroid hormone triiodothyromine (T(3)) significantly promoted hepatocyte regeneration and markedly enhanced PCL-Chol-mediated gene transfer in mouse liver when the lipoplex was administrated through either portal or tail vein. With T(3) pretreatment, PCL-Chol exerted a better gene transfer efficacy in mouse liver than DOTAP-Chol or DOTAP-DOPE. Two injections of lipoplexes through an indwelling catheter in the portal vein extended the transgene expression at a high level when T(3) injection was repeated. In conclusion, our findings demonstrate that the polymerized cationic liposomes are very stable in the blood and are effective agents for in vivo gene delivery, and that thyroid hormone administration offers a non-invasive approach to enhance liposome-mediated liver gene delivery.
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PMID:Poly(cationic lipid)-mediated in vivo gene delivery to mouse liver. 1257 47

Autoregulation of thyroid hormone (TH) receptors (TRs) is a mechanism whereby a cell can regulate its responsiveness to TH. Nuclear coactivators (NCoAs) modulate TH action and may also be important for regulation of TR expression. We have determined the effect of TH withdrawal and treatment on the expression of different isoforms of TR as well as expression of the NCoAs SRC-1, TIF-2 and SRC-3 using quantitative real time polymerase chain reaction. In order to identify the effect that each TR isoform exerts over the expression of the other, NCoA and TR transcripts were measured in liver and heart tissue from wild type mice or mice with deletion of either TR isoform or SRC-1 genes. In liver, regulation of TR beta1 and TR alpha2 subtype expression is inversely related to TH levels and the regulation of TR beta expression is, in part, controlled by TR alpha. In the heart, the opposite is the case, regulation of TR alpha2 and TR beta1 isoform expression is directly related to TH levels and this regulation is primarily controlled by TR alpha. Although NCoAs are, in general, increased in response to hypothyroidism or in states of TH resistance, SRC-1 specifically does not regulate TR isoform expression. We have demonstrated that TR isoforms and NCoAs are autoregulated transcription factors with tissue specificity.
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PMID:Regulation of expression of thyroid hormone receptor isoforms and coactivators in liver and heart by thyroid hormone. 1278 4


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