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)

G1-specific temperature-sensitive (ts) mutants of the cell cycle arrest in G1 after serum stimulation at the restrictive temperature. Under these conditions, the RNA levels of late growth-regulated genes (such as DNA polymerase alpha, PCNA, thymidine kinase, and core histones) are markedly decreased or even undetectable, while early growth-regulated genes (for instance, c-myc) are normally expressed, and certain promoters are actually super-induced. We have used the human PCNA gene transfected into TK-ts13 cells (a G1-specific ts mutant) to investigate whether the inhibition of gene expression caused by this type of growth inhibition occurs at a transcriptional or post-transcriptional level. Constructs were made in which the 5' and 3' flanking sequences of the human PCNA gene were replaced by the corresponding elements of the SV40 T antigen coding gene. Using these constructs and data from run-on assays and RT-PCR, we conclude that the failure of expression of the PCNA gene in G1-arrested TK-ts13 cells occurs at the transcriptional level.
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PMID:The role of the promoter in the expression of the PCNA gene. 136 Feb 87

In addition to being regulated by a complex array of cis- and trans-acting factors, c-myc protooncogene expression may be modulated by antisense RNA transcripts. Our previous studies have determined that depletion of intracellular polyamines by alpha-difluoromethylornithine results in a marked decrease in the transcription of the human c-myc gene. Because of reports that antisense transcription occurs in the 5' and 3' regions of this gene, we used a genomic clone of the human c-myc gene to ascertain whether polyamine depletion might induce an antisense RNA transcript. These studies demonstrate that polyamine depletion of the human colon cancer cell line COLO 320 results in induction of an endogenous RNA transcript with high homology to the antisense strand of the second intervening sequence (PvuII-RsaI) of the c-myc gene. Furthermore, during such depletion, steady state levels of this transcript vary inversely to the sense direction c-myc RNA. RNase protection studies suggest that the antisense transcript may arise from a different gene locus than the c-myc gene. To further identify the origins of this RNA, a cDNA library was generated from size-selected RNA and screened with c-myc sequences. A 438-base pair cDNA was isolated with approximately 85% homology, to a 285-base region in the second intron of the c-myc gene. Computer homology analysis further reveals that a 120-base region within this cDNA also has approximately 85% homology to the antisense strands of a number of genes, including the growth-related genes, N-myc, p53, and thymidine kinase. These studies provide the initial characterization of an endogenous antisense RNA transcript which could influence cell growth by modulating the expression of c-myc and other genes.
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PMID:Characterization of an endogenous RNA transcript with homology to the antisense strand of the human c-myc gene. 137 45

Platelet-derived growth factor (PDGF) stimulates the expression of a number of genes associated with entry of quiescent Balb/c-3T3 fibroblasts into the cell cycle. We determined that two of these genes, c-myc and c-fos, are induced equivalently in medium supplemented with platelet-poor plasma (PPP) and either PDGF-BB or PDGF-AA. The rate at which fibroblasts entered S phase was also similar in PDGF-BB- and AA-treated cells as was the expression of the late G1 gene, thymidine kinase (TK). However, PDGF-AA must be present for a period of 16 h to stimulate the proliferation of 90% of the cells, whereas PDGF-BB was required for only 4 h. Exposure of cells to PDGF-AA for 4 h, a time during which maximum expression of c-fos and c-myc occurred, only induced 20% of the cells in a quiescent population to enter the cell cycle. Therefore, PDGF-AA-mediated expression of the immediate early genes c-fos and c-myc may be necessary but is not sufficient to rapidly stimulate density-arrested Balb/c-3T3 fibroblasts into the competent state. Thus, these data suggest that PDGF-AA and PDGF-BB initiate traverse of the cell cycle by distinct mechanisms.
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PMID:Rapid induction of competence formation is PDGF-isoform specific. 140 Jun 10

A 30-base pair element within the c-fos promoter, termed the RCE (retinoblastoma control element), has previously been shown to be the target of transcriptional regulation by the product of the retinoblastoma (Rb) gene. We have identified three nuclear proteins [retinoblastoma control proteins (RCPs)] that complex with this promoter element in vitro. The Rb gene does not appear to encode the RCPs as the expression of Rb in vivo does not correlate with RCE-RCP complex formation in vitro. A single binding site for the RCPs within the c-fos RCE was identified, and the nucleotides required for protein-DNA complex formation were defined. Similar sequences are found in the promoters of two additional genes that are regulated by Rb (c-myc and TGF-beta 1), and binding assays demonstrate that the RCPs also interact with these elements. Linkage of the c-fos RCE to the herpes simplex virus thymidine kinase promoter led to a 4-fold stimulation of expression in transient transfection assays. Mutations within the RCP binding site that abrogate stable interaction of the RCPs with the RCE in vitro block RCE transcriptional activity in vivo. Our results suggest a role for the RCPs in RCE-dependent transcription and the regulation of transcription by the Rb protein.
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PMID:A common set of nuclear factors bind to promoter elements regulated by the retinoblastoma protein. 141 10

The neuroendocrine hormone PRL acts as a progression factor during interleukin-2 (IL2) stimulated lymphocyte proliferation. Since the sequential expression of cell cycle regulated genes occurs during this process, we examined the contribution of IL2 and PRL to specific RNA accumulation. Stimulation of the cloned T cell line L2 with IL2 and PRL induced the sequential expression of interferon regulatory factor-1, c-myc, proliferating cell nuclear antigen, thymidine kinase, cyclin B, and histone H3. Stimulation of L2 cells with PRL alone, however, induced only the expression of interferon regulatory factor-1. Depletion of PRL, through the use of an anti-PRL antiserum, inhibited IL2 driven proliferation and the expression of cyclin B and histone H3. These results demonstrate that PRL may regulate T cell proliferation by enhancing the expression of some genes necessary for entry into S-phase.
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PMID:Requirement for prolactin during cell cycle regulated gene expression in cloned T-lymphocytes. 153 39

The expression of a set of cell cycle dependent (CCD) genes (c-fos, c-myc, ornithine decarboxylase (ODC), and thymidine kinase (TK)) was comparatively studied in cultured arterial smooth muscle cells (SMC) during exit from quiescence and exponential proliferation. These genes, which were not expressed in quiescent SMC, were chronologically induced after serum stimulation. c-fos mRNA were rapidly and transiently expressed very early in the G1 phase; c-myc and ODC peaked a few hours after serum stimulation and then remained at an intermediary level throughout the first cell cycle; TK mRNA and activity then appeared at the G1/S boundary and peak in G2/M phases. Except for c-fos, the other genes were also expressed in asynchronously cycling SMC (ACSMC); their expression was studied in elutriated subpopulations representative of cell cycle progression. c-fos mRNA were undetectable in any sorted subpopulations, even in the pure early G1 population. Despite a slight increase as the cell cycle advanced, c-myc and ODC genes were expressed throughout the ACSMC cell cycle. A faint TK activity was found in G1 subpopulations and increased in populations enriched in other phases; in contrast, TK mRNA remained highly expressed in all elutriated subpopulations. This study demonstrates significant modulations in CCD gene expression between quiescent stimulated and asynchronously cycling SMC in culture. This suggests that the events occurring during the emergence of SMC from quiescence are probably different from those in the G1 phase of ACSMC.
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PMID:Cell cycle dependent gene expression in quiescent stimulated and asynchronously cycling arterial smooth muscle cells in culture. 153 80

The MDA-468 human breast cancer cell line displays the unusual phenomenon of growth inhibition in response to pharmacological concentrations of EGF. This study was initiated with the objective of elucidating the cellular mechanisms involved in EGF-induced growth inhibition. Following EGF treatment the percentage of MDA-468 cells in G1 phase increased, together with a concomitant depletion in S and G2/M phase populations, as revealed by flow cytometry of DNA content. The apparent G1 block in the cell cycle was confirmed by treating the cells with vinblastine. DNA synthesis was reduced to about 35% of that measured in control, untreated cells after 48 h of EGF treatment, as measured by the incorporation of [3H]thymidine. DNA synthesis returned to normal following the removal of EGF from the growth-arrested cells. In order to locate the EGF-induced event responsible for the G1 arrest more precisely, we examined the expression of certain cell cycle-dependent genes by Northern blot analysis. EGF treatment did not alter either the induction of the early G1 marker, c-myc, or the expression of the late G1 markers, proliferating cell nuclear antigen, and thymidine kinase. However, EGF-treated cells revealed down regulation of p53 and histone 3.2 expression, which are expressed at the G1/S boundary and in S phase, respectively. These results indicate that EGF-induced growth inhibition in MDA-468 human breast cancer cells is characterized by a reversible cell cycle block at the G1/S boundary.
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PMID:EGF-dependent growth inhibition in MDA-468 human breast cancer cells is characterized by late G1 arrest and altered gene expression. 167 99

The murine B-cell hybridoma B9 requires interleukin-6 (IL-6) for its survival and proliferation in vitro. We show here that withdrawal of IL-6 from B9 cultures results in programmed death, concomitant with arrest of the cells in the G1 phase of the cell cycle. Unlike several other systems that undergo programmed cell death, no induction of transcripts corresponding to the testosterone-repressed message-2 or transglutaminase genes is observed during this process. Upon readdition of IL-6 to G1-arrested B9 cells, viability is maintained and entry into S phase occurs after a lag period of 10 to 12 hr. Northern blot analysis showed that the immediate-early mRNAs normally induced shortly after growth factor stimulation in quiescent fibroblasts (c-fos, c-jun, Egr-1, c-myc, JE, and KC), and other growth-related genes (2F1, c-Ha-ras, and p53), are either not induced or remain unchanged during G1 to S phase progression. A correlation was found, however, between the temporal pattern of expression of several G1/S phase genes (dihydrofolate reductase, thymidine kinase, transferrin receptor, and histone H3) and DNA synthesis. These results demonstrate that IL-6-induced viability and growth of hybridoma (and, presumably, plasmacytoma) cells is mediated via novel signal transduction pathways.
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PMID:Suppression of programmed death and G1 arrest in B-cell hybridomas by interleukin-6 is not accompanied by altered expression of immediate early response genes. 170 72

Serum stimulation of arterial smooth muscle cells in culture induces a progression through the cell cycle and cell proliferation. Most genes previously described as cell cycle-dependent in various cell types also demonstrate a cell cycle-dependent expression in arterial smooth muscle cells. As in other cell types, these genes can be classified into three groups according to their mode of expression: "immediate early" genes (c-fos, c-myc, ...), "delayed early" genes (2F1, ...), and "late-G1" genes (proliferating cell nuclear antigen, thymidine kinase, . . .). In addition to these previously described genes, three genes isolated from a cDNA library of stimulated smooth muscle cells have been demonstrated to be cell cycle-dependent: A21, the rat JE gene, and L51 can be classified as "immediate early" genes, while M11 represents a new member of the "delayed early" gene family.
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PMID:Induction of cell cycle-dependent genes during cell cycle progression of arterial smooth muscle cells in culture. 170 78

To study the regulation of proliferation of lung alveolar epithelial type 2 cells, we have established a cell line derived from neonatal type 2 cells by transfection with the SV40 large T antigen gene. We find that this cell line, designated SV40-T2, displays the same post-transcriptional control of expression of proliferation-related genes, including c-myc, ornithine decarboxylase, thymidine kinase, and histone, that we have previously described in primary isolates of type 2 cells (Clement et al., Proc. Natl. Acad. Sci. USA 87, 318-322, 1990). Both proliferating and nonproliferating SV40-T2 cells express these genes at high levels, but their translation products are only detected in proliferating cells. Using the histone gene as an example, we have found that regulation of expression occurs at the level of transcription and of mRNA turnover, as previously described in other mammalian systems. However, in addition, regulation of expression also occurs at the level of translation of the histone mRNA, because its protein product is not detectable in nonproliferating SV40-T2 cells. We have analyzed the steps which are potentially involved in this translational regulation of histone gene expression in SV40-T2 cells. In both proliferating and nonproliferating cells, histone mRNA was found to be efficiently transported from the nucleus to the cytoplasm and to associate with the translationally active heavy polysomal fractions. These results indicate that control of histone gene expression (and perhaps that of other proliferation-related genes) in lung epithelial cells may involve either rapid and selective degradation of histone protein or binding factor(s) which modulate translational efficiency of histone mRNA.
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PMID:SV40T-immortalized lung alveolar epithelial cells display post-transcriptional regulation of proliferation-related genes. 171 83

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