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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)
Proliferating cells characteristically undergo programmed (i.e. apoptotic) death if their progression through the cell cycle is sufficiently perturbed. To determine whether androgen ablation-induced programmed death of prostatic glandular cells involves apoptosis triggered by recruitment of nonproliferating cells into a perturbed cell cycle, rat ventral prostates were assessed temporally after castration for several stereotypical molecular stigmata of entry into the proliferative cell cycle. Northern blot analysis was used to assess levels of transcripts from genes characteristically activated 1) during the transition from quiescence (G(0)) into G1 of the proliferative cell cycle (cyclin-D1 and cyclin-C), 2) during the transition from G1 to S (cyclin-E, cdk2,
thymidine kinase
, and H4-histone), and 3) during progression through S (cyclin-A). Although levels of each of these transcripts increased as expected in prostatic glandular epithelial cells stimulated to proliferate by the administration of exogenous androgen to previously castrated rats, levels of the same transcripts decreased in prostatic glandular cells induced to undergo apoptosis after androgen withdrawal. Northern and Western blot analyses also demonstrated that there was no increase in prostatic p53 messenger RNA or protein content per cell after androgen ablation. Likewise, after castration, there was no enhanced prostatic expression of the WAF1/CIP1 gene, a gene whose expression is known to be induced in both a p53-dependent and -independent manner during recruitment from G0 into G1. In addition, androgen ablation-induced apoptosis of prostatic glandular cells was not accompanied by retinoblastoma protein phosphorylation, which is characteristic of progression into late G1. Nuclear run-on assays demonstrated that there was no increase in the prostatic rate of transcription of the c-myc and
c-fos
genes after castration. These results demonstrate that prostatic glandular cells undergo programmed death in G(0) without recruitment into the G1 phase of a defective cell cycle, and that an increase in p53 protein or its function is not involved in this death process.
...
PMID:Androgen ablation-induced programmed death of prostatic glandular cells does not involve recruitment into a defective cell cycle or p53 induction. 772 Jun 36
The mechanism by which transforming Ha-ras induces
c-fos
expression in HC11 mouse mammary epithelial cells was investigated with regard to controversial data concerning the role of protein kinase C (PKC) and the required promoter elements of the fos gene. HC11 cells carrying a glucocorticoid-inducible Ha-ras (val12) construct were transfected with a chloramphenicol acetyltransferase (CAT) reporter gene under the control of a human fos promoter which includes the serum response element (SRE), the adjacent
c-fos
AP-1 site (FAP) and the cAMP response element (CRE). Induction of the Ha-ras gene by dexamethasone lead to a transactivation of expression of the transfected fos promoter construct which was inhibited by the PKC inhibitor BM41440 and abrogated in PKC-'depleted' cells. A similar transactivation was observed when the fos promoter construct was co-transfected with a constitutively active ras expression vector. Again, this effect was depressed by the PKC inhibitor and abolished in PKC-'depleted' cells. 'PKC-depletion' was achieved by long-term exposure to 12-O-tetradecanoylphorbol-13-acetate. This procedure was shown to deplete cells of PKC alpha and to reduce significantly PKC epsilon. Long-term exposure to bryostatin 1 selectively depletes PKC alpha. Depletion of PKC alpha by bryostatin 1 does not reduce the transcriptional activation of the SRE-FAP-TK-CAT (TK:
thymidine kinase
) construct by Ha-ras. In order to delineate the promoter elements mediating the transcriptional activation, constructs which lack the FAP and the CRE sites but contain an intact SRE were co-transfected with the ras construct. Elimination of the FAP and CRE sequences did not affect the transcriptional activation by Ha-ras (val12). It is concluded that in HC11 cells, transforming Ha-ras activates
c-fos
expression in a PKC-dependent manner, presumably implying PKC epsilon, and that the SRE is sufficient to mediate transcriptional activation.
...
PMID:Activation of c-fos expression by transforming Ha-ras in HC11 mouse mammary epithelial cells is PKC-dependent and mediated by the serum response element. 791 86
HC-11 mouse mammary epithelial cells stably transfected with a glucocorticoid-inducible Ha-ras construct encoding a transforming (val12) p21Ha-ras were cotransfected with a
c-fos
-CAT construct containing the human
c-fos
promoter up to position -711 and the CAT reporter gene. Expression of Ha-ras by dexamethasone leads to a transcriptional activation of the fos-CAT construct which was found to be sensitive to the PKC inhibitor ilmofosine (BM41440) and abrogated by PKC depletion following long-term exposure to TPA. The responsiveness to Ha-ras is retained if only the portion of the fos promoter covering the serum response element (SRE) and the adjacent fos AP-1 (FAP) site are put in front of a CAT gene linked to a
thymidine kinase
(TK) promoter. Further depletion of the FAP-site does not affect the inducibility by Ha-ras. Transcriptional activation of the SRE-FAP-TK-CAT as well as the SRE-TK-CAT constructs by Ha-ras is sensitive to the PKC-inhibitor ilmofosine (BM41440) and blocked by long-term exposure to TPA. Long-term exposure to TPA depletes cells of PKC alpha and significantly reduces the PKC epsilon levels. Long-term exposure in bryostatin 1 selectively depletes PKC alpha. Depletion of PKC alpha by bryostatin 1 does not reduce the transcriptional activation of the SRE-FAP-TK-CAT-construct by Ha-ras. It is concluded that (i) transforming Ha-ras induces
c-fos
in HC-11 cells via PKC (presumably epsilon), (ii) the signal is mediated to the serum response element (SRE) of the fos promoter and (iii) the fos AP-1 (FAP) site is not required for this mechanism.
...
PMID:Role of protein kinase C in ras-mediated fos-expression. 794 78
We have shown previously that overexpression of c-Ha-ras, v-mos or
c-fos
increases the spontaneous level of chromosomal aberrations and gene mutations in NIH 3T3 cells, and that reduction of the Fos protein level inhibits aberration induction by c-Ha-ras and v-mos and also by irradiation with ultraviolet light (van den Berg et al., Mol. Carcinogenesis, 4, 460-466). In order to examine whether fos is also involved in DNA recombination,
thymidine kinase
(tk) deficient human osteosarcoma cells containing two versions of the herpes simplex virus tk gene inactivated by base insertion were either transiently or stably transfected with various fos expression plasmids. The frequency of tk+ revertants was significantly enhanced both upon transient transfection with RSV-promoter-fos gene constructs and by stimulation of Fos synthesis in stably transfected cells harbouring an inducible metallothionein promoter-fos construct. No such increases were observed in cells transfected with plasmids containing a truncated version of
c-fos
. The data indicate that
c-fos
is involved in generating various types of genetic changes including homologous recombination; a role of
c-fos
in genetic instability may contribute to its action in tumor promotion and progression.
...
PMID:Overexpression of c-fos increases recombination frequency in human osteosarcoma cells. 809 16
The murine alpha B-crystallin/small heat shock protein gene is expressed at high levels in the lens and at lower levels in the heart, skeletal muscle, and numerous other tissues. Previously we have found a skeletal-muscle-preferred enhancer at positions -427 to -259 of the alpha B-crystallin gene containing at least four cis-acting regulatory elements (alpha BE-1, alpha BE-2, alpha BE-3, and MRF, which has an E box). Here we show that in transgenic mice, the alpha B-crystallin enhancer directs the chloramphenicol acetyltransferase reporter gene driven by the alpha B-crystallin promoter specifically to myocardiocytes of the heart. The alpha B-crystallin enhancer was active in conjugation with the herpes simplex virus
thymidine kinase
promoter/human growth hormone reporter gene in transfected rat myocardiocytes. DNase I footprinting and site-specific mutagenesis experiments showed that alpha BE-1, alpha BE-2, alpha BE-3, MRF, and a novel, heart-specific element called alpha BE-4 are required for alpha B-crystallin enhancer activity in transfected myocardiocytes. By contrast, alpha BE-4 is not utilized for enhancer activity in transfected lens or skeletal muscle cell lines. Alpha BE-4 contains an overlapping heat shock sequence and a reverse CArG box [5'-GG(A/T)6CC-3']. Electrophoretic mobility shift assays with an antibody to serum response factor and a CArG-box-competing sequence from the
c-fos
promoter indicated that a cardiac-specific protein with DNA-binding and antigenic similarities to serum response factor binds to alpha BE-4 via the reverse CArG box; electrophoretic mobility shift assays and antibody experiments with anti-USF antiserum and heart nuclear extract also raised the possibility that the MRF E box utilizes USF or an antigenically related protein. We conclude that the activity of the alpha B-crystallin enhancer in the heart utilizes a reverse CArG box and an E-box-dependent pathway.
...
PMID:Regulation of the murine alpha B-crystallin/small heat shock protein gene in cardiac muscle. 852 75
This study investigates whether insulin (a differentiation factor for lens epithelial cells) acts as a survival factor. In the absence of insulin, 6-day embryonic chicken lens epithelial explants undergo apoptosis as shown by changes in cell morphology, DNA fragmentation, and loss of trypan blue exclusion. Insulin inhibits these changes and promotes survival of the cells. Aurintricarboxylic acid suppresses the apoptosis of lens explants. In contrast to 6-day embryonic explants, 19-day embryonic explants survive in the absence of insulin, presumably due to an endogenous survival factor. To explore the mechanism of the action of insulin as a survival factor for 6-day embryonic lens explants, we compared the pattern of cell cycle markers (
c-fos
, c-jun, c-myc, p53, histone H3,
thymidine kinase
, and cyclin B) in both apoptotic and differentiating lens explants. In the presence of insulin, the expression of
c-fos
and c-jun was down-regulated after an initial induction. Expression of these genes was also induced in the absence of insulin, but mRNA levels remained elevated as the cells underwent apoptosis. In contrast, expression of c-myc, p53, histone H3,
thymidine kinase
, and cyclin B showed only minor differences in differentiating and apoptotic cells. Since
c-fos
and c-jun have been shown to play a role in apoptosis in other cell types, the ability of insulin to regulate expression of these genes may be central to its ability to act as a survival factor for lens epithelial cells.
...
PMID:Insulin regulates expression of c-fos and c-jun and suppresses apoptosis of lens epithelial cells. 854 23
Lipopolysaccharide (LPS) treatment of monocytic cells has been shown to activate the Raf-1/mitogen-activated protein kinase (MAPK) signaling pathway and to increase secretory interleukin-1 receptor antagonist (sIL-1Ra) gene expression. The significance of the activation of the Raf-1/MAPK signaling pathway to LPS regulation of sIL-1Ra gene expression, however, has not been determined. This study addresses the role of the Raf-1/MAPK signaling pathway in regulation of sIL-1Ra gene expression by LPS. Cotransfection of the murine macrophage cell line RAW 264.7 with a 294-bp sIL-1Ra promoter/luciferase construct (pRA-294-luc) and a constitutively active Raf-1 kinase expression vector (pRSV-Raf-BXB) resulted in induction of sIL-1Ra promoter activity, indicating that Raf-1, like LPS, can regulate sIL-1Ra promoter activity. An in vitro MAPK analysis indicated that both LPS treatment and pRSV-Raf-BXB transfection of RAW 264.7 cells increases p42 MAPK activity. An in vitro Raf-1 kinase assay, however, failed to detect LPS-induced Raf-1 kinase activity in RAW 264.7 cells, suggesting that in RAW 264.7 cells, Raf-1 kinase is not an activating component of the LPS signaling pathway regulating MAPK activity or sIL-1Ra promoter activity. This observation was supported by results from transfection studies which demonstrated that expression of a dominant-inhibitory Raf-1 mutant in RAW 264.7 cells does not inhibit LPS-induced MAPK activity or sIL-1Ra promoter activity, indicating that LPS-induced sIL-1Ra promoter activation occurs independent of the Raf-1/MAPK signaling pathway. In additional studies, cotransfection of RAW 264.7 cells with pRA-294-luc and increasing amounts of pRSV-Raf-BXB caused a dose-dependent inhibition of LPS-induced sIL-1Ra promoter activity, indicating that the role of the Raf-1 pathway in the regulation of sIL-1Ra promoter activity by LPS is as an antagonizer. Interestingly, LPS treatment of RAW 264.7 cells, cotransfected with pRA-294-luc and pRSV-Raf-BXB, also inhibited pRSV-Raf-BXB-induced sIL-1Ra promoter activity, suggesting that inductions of sIL-1Ra promoter activity by LPS and Raf-1 actually occur by mutually antagonistic mechanisms. In support of this conclusion, sIL-1Ra promoter mapping studies indicated that LPS and Raf-1 responses localized to different regions of the sIL-1Ra promoter. Further studies demonstrated that mutual antagonism between the LPS and Raf-1 kinase pathways is not promoter specific, as the same phenomenon is observed in assays using a
c-fos
enhancer/
thymidine kinase
promoter/luciferase construct (pc-fos-TK81-luc). Additionally, mutual antagonism with regard to sIL-1Ra promoter activity also was observed between the LPS and MEK kinase pathways, indicating that mutual antagonism can occur in more than one MAPK activation pathway.
...
PMID:Lipopolysaccharide and Raf-1 kinase regulate secretory interleukin-1 receptor antagonist gene expression by mutually antagonistic mechanisms. 903 39
Epidermal growth factor (EGF), a mitogen in vitro for hepatocytes, produces in various cell lines changes similar to those observed very rapidly in hepatocytes after partial hepatectomy (PH). These changes include ion movements, membrane hyperpolarization and proto-oncogene expression. A stimulatory effect of EGF on liver regeneration can therefore tentatively be associated with the events occurring within the first 3 hours after a PH, sometimes referred to as the "priming phase." To assess this hypothesis, we examined in Wistar rats the effect of EGF deprivation produced by sialoadenectomy (SX) performed before or after a PH of 70%. SX at the time of PH significantly decreased the 3H-thymidine uptake in the DNA 24 hours later (147 +/- 14 DPM per microgram of DNA, mean +/- SE) compared with a simple PH (322 +/- 16; P < .01), but also compared with results obtained when PH is combined with a sham sialoadenectomy (SSX) or in rats pair-fed with the sialoadenectomized rats. This incomplete inhibition was confirmed by a decreased rise in
thymidine kinase
(TK) activity and by reduced proliferating cell nuclear antigen (PCNA) labeling and mitotic indices 30 hours after PH. By contrast, SX did not inhibit the early expression of c-jun and
c-fos
, or of c-myc, 30 or 120 minutes after PH, respectively. A reduction of DNA synthesis was also obtained when SX was performed 3 hours after PH (127 +/- 15 DPM per microgram of DNA vs. 350 +/- 21 in SSX; P < .001) but not when SX was delayed until the 6th or the 17th hour after PH. It was sufficient to administer EGF (40 microg) from the third to the ninth hour to correct the reduction of [3H]thymidine uptake in rats sialoadenectomized before PH. These results indicate that the diminished EGF availability following SX decreases or at least delays liver regeneration, and that the effect of EGF on liver regeneration does not seem related to the early changes of proto-oncogene expression, but rather to events occuring later, at the time of reported internalization and binding of EGF to its nuclear receptors.
...
PMID:Effect of sialoadenectomy and epidermal growth factor administration on liver regeneration after partial hepatectomy. 904 6
D-type cyclins are involved in the regulation of the G1/S transition of the cell cycle in various cell types cultured in vitro. Little is, however, known about the expression pattern and functional role of D-type cyclins in physiological processes in vivo. In this report, we studied whether the expression of murine D-type cyclins correlates with the states of mouse uterine cell proliferation in vivo. Time-course changes in cyclin D1 and D3 mRNA levels in the uterine tissues of immature mice primed with 17 beta-estradiol (E2) were examined by Northern blot hybridization.
c-fos
and
thymidine kinase
(TK) mRNA levels were also examined as markers for the transition from G0 to G1 and the onset of S phase, respectively. Cyclin D1 and D3 mRNAs were induced 2.5-fold between
c-fos
and TK mRNA peaks. The E2-induced cyclin D1 and D3 gene expressions were blocked by antiestrogens tamoxifen and ICI 182,780. We also investigated the effects of cycloheximide (CHX), a protein synthesis inhibitor, on cyclin D1 and D3 gene expressions. When CHX was treated alone, cyclin D3, but not cyclin D1, mRNA was immediately superinduced. The E2-induced cyclin D3 gene expression was shifted by approximately 6 h when CHX was pretreated 1 hr before E2 administration. Interestingly, the 3H-thymidine incorporation experiment showed that the mouse uterine cell cycle progression also shifted by 6 hr with pretreatment of CHX. The overall results suggest that both cyclin D1 and D3 mRNAs are constitutively expressed in uterine tissues and induced by E2 at G1 phase of the mouse uterine cell cycle. However, the superinducibility and temporal shift of cyclin D3 by CHX suggest that there is a different regulatory mechanism underlying cyclin D1 and D3 gene expressions in the mouse uterine cell cycle progression.
...
PMID:Estrogen-induced cyclin D1 and D3 gene expressions during mouse uterine cell proliferation in vivo: differential induction mechanism of cyclin D1 and D3. 909 91
Kidney dysfunction after ischemia can be improved by either limiting the initial injury or by enhancing the subsequent proliferative repair process. Adenosine triphosphate (ATP) favorably affects kidney function when it is given shortly after ischemia. We tested whether ATP promotes the proliferative repair response. Rats were subjected to occlusion of the left renal artery for 40 minutes and received an infusion of ATP, 12.5 micromol intravenously over 30 minutes, beginning at reperfusion. Control animals received saline solution or the hydroxyl radical scavenger dimethylthiourea (DMTU). Despite comparable functional protection by DMTU and ATP, only ATP specifically increased DNA synthesis (renal incorporation of tritiated thymidine) to an extent greater than that produced by ischemia alone. In other animals, ribonucleic acid was extracted from kidneys for Northern analysis. Expression of the proto-oncogenes
c-fos
and c-jun was enhanced in ATP-treated animals as compared with controls. Expression of a histone protein gene (H2b) and
thymidine kinase
was increased by ischemia but was not additionally affected by ATP. In vitro studies of primary cultures of renal proximal tubule epithelial cells confirmed the ability of ATP to stimulate cellular proliferation as a consequence of stimulation of purinergic P2 receptors, possibly of the P2x subclass. In summary, ATP given after ischemia increased new DNA synthesis and augmented expression of genes critical to cellular proliferation. These beneficial effects were not merely a consequence of limiting initial cellular damage, and they suggest a novel mechanism of action for ATP and other purinergic receptor agonists in renal ischemia.
...
PMID:Purinergic receptors mediate cell proliferation and enhanced recovery from renal ischemia by adenosine triphosphate. 948 2
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