Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Most modern chemo- and radiotherapy treatments of human cancers use the DNA damage pathway, which induces a p53 response leading to either G1 arrest or apoptosis. However, such treatments can induce mutations and translocations leading to secondary malignancies or recurrent disease, which often have a poor prognosis because of resistance to therapy. Here we report that 5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB), an inhibitor of CDK7 TFIIH-associated kinase, CKI and CKII kinases, blocking RNA polymerase II in the early elongation stage, triggers p53-dependent apoptosis in human colon adenocarcinoma cells in a transcription independent manner. The fact that DRB kills tumour-derived cells without employment of DNA damage gives rise to the possibility of the development of a new alternative chemotherapeutic treatment of tumours expressing wild type p53, with a decreased risk of therapy-related, secondary malignancies.
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PMID:RNA synthesis block by 5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB) triggers p53-dependent apoptosis in human colon carcinoma cells. 1052 57

Telomerase is a ribonucleoprotein which has a RNA template to bind and extend telomere ends, so prolonging the life of tumour cells. The aim of this study was to determine whether transcriptase function of telomerase could be inhibited by the reverse transcriptase inhibitors (RTI); azydothymidine (AZT), dideoxyinosine (ddI) and AZT-5' triphosphate (AZT-TP). We examined their effects on the proliferation of cancer cells and the antitumour effects of cisplatin in vitro. The three agents did not cause major changes in telomerase activity or telomere length in MCAS cells. However, in HEC-1 cells changes in telomerase activity and telomere length were observed that were dependent on the RTI concentration and duration of exposure. ddI and AZT-TP reduced telomerase activity and shortened the length of the telomere. In the presence of RTI, the antitumour effects of cisplatin were enhanced. This was particularly evident in HEC-1 cells where there was a marked reduction in cell proliferation, appearance of morphological changes and senescent-like cells in the presence of ddI or AZT-TP. In MCAS cells, TP53 expression was increased by ddI and AZT-TP, while p21 expression was unchanged. In HEC-1 cells the expression of both TP53 and P21 was increased by ddI. Continuous administration of RTI enhanced the cell growth inhibition of cisplatin. RTI also inhibited the proliferation of some cells.
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PMID:Inhibition of telomerase activity and cell proliferation by a reverse transcriptase inhibitor in gynaecological cancer cell lines. 1053 89

The DNA topoisomerase I (topI) inhibitor camptothecin (CPT), stabilizes so-called cleavable complexes which consist of topI covalently attached to 3' OH ends of DNA nicks. Collisions between the progressing DNA replication forks (occurring in S phase cells) or between the transcription driven RNA polymerase molecules (occurring in G1, S and G2 cells) and these complexes convert the latter into secondary DNA lesions which are unrepairable and lethal to the cell. Changes induced by CPT in the level of the tumor suppressor p53, cyclin-dependent kinase inhibitor p21WAF1 and proapoptotic protein Bax (all detected immunocytochemically), were measured separately in the nucleus and cytoplasm of individual human breast carcinoma MCF-7 cells by laser scanning cytometry (LSC) in relation to cell cycle position and induction of apoptosis. The initial transient cell arrest at the G1 checkpoint seen at 8-16 h of treatment with 0.15 microM CPT was accompanied by the rapid accumulation of p53 (preventable by cycloheximide) in the nucleus; the rise (>20-fold) in p53 was maximal for S phase cells. The magnitude of the nuclear p53 increase induced by CPT, at maximum, was 2-fold higher than that induced by the proteasome inhibitor N-acetyl-Leu-Leu-norleucinal (LLnL). While the accumulation of p53 was seen in all phases of the cycle, only G1 cells responded by induction ( approximately 60-fold increase) of p21WAF1. Inhibition of DNA replication by aphidicolin prevented the accumulation of p53 in S and G2/M but had no effect on its induction in G1 cells. Perturbation of cell progression through S phase was seen between 24-72 h of treatment, and it coincided with induction of Bax and apoptosis (both maximal in S phase cells). Thus, the changes observed in S phase cells (nuclear accumulation of p53 preventable by aphidicolin, induction of Bax, apoptosis), triggered by the collisions of DNA replication forks with the CPT-induced lesions, were distinct from the changes in G1 (nuclear p53 accumulation unaffected by aphidicolin, induction of p21WAF1) presumably triggered by collisions of RNA polymerase with the CPT-lesions. Great heterogeneity in expression of p53 and p21WAF1 of the G1 cell population in response to CPT was observed, which may reflect the intercellular variability in the rate of transcription (i.e., frequencies of collisions of RNA polymerase with the lesions). Thus, differences in the transcriptional activity of G1 cells may play a role in their sensitivity to CPT and similar topI inhibitors.
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PMID:Differences in induction of p53, p21WAF1 and apoptosis in relation to cell cycle phase of MCF-7 cells treated with camptothecin. 1053 67

Cells that have been irradiated with ultraviolet light (UV) suffer damage to their DNA, primarily in the form of covalent linkage between adjacent pyrimidines. Such photoproducts represent blocks to RNA and DNA polymerases and are potentially mutagenic. Blockage of RNA polymerase II by a photoproduct in the transcribed strand of an active gene leads to induction of the p53 protein, which induces pleiotropic responses that may include apoptotic cell death. If a cell survives, the blocked polymerase targets the nucleotide excision repair machinery to the site of the lesion, which is repaired in an error-free manner. Repair coupled to transcription in this manner strongly influences the mutation spectrum induced by UV, reducing the proportion of base substitutions that arise from photoproducts on the transcribed strand. If the damage persists when the DNA is replicated in S-phase, either because the cell is unable to repair the damage or because there is insufficient time between the induction of damage and the onset of S-phase. To do so, the replicative DNA polymerase complex may be blocked. In this situation, lesion bypass can be accomplished using an error-free mechanism, or using an error-prone mechanism that involves the newly described, non-processive DNA polymerase zeta encoded by the human homolog of the yeast REV3 gene.
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PMID:DNA repair, DNA replication, and UV mutagenesis. 1053 99

An alternative and facile delivery system for T7 RNA polymerase has been devised and constructed. T7 gene 1 has been placed under control of the araBAD promoter element regulated by the AraC protein. Cotransformation of the resultant plasmid, pTara, with one containing a target gene under T7 promoter-regulated expression potentially allows repression by glucose and induction by arabinose in the range of 0.5 to 20 mM sugar concentration. To demonstrate the efficacy of this expression system, the p53 gene under T7 promoter control in two different plasmids was expressed in Escherichia coli using pTara as the source of T7 RNA polymerase. Repression and induction of p53 were achieved in both a lower and higher copy number plasmid, although the levels of induction were higher with the lower copy number expression vector. Cotransformation of an expression plasmid with pTara provides a low-cost method of T7 RNA polymerase-regulated expression that can be fine-tuned using glucose and arabinose concentrations to balance protein expression with potential solubility or toxicity problems.
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PMID:Generation of an AraC-araBAD promoter-regulated T7 expression system. 1061 Jun 90

The cell cycle and transcription by RNA polymerase II (RNAP II) are closely related. They utilize shared components. RNAP II transcriptional activity is modulated during the cell cycle. Cell cycle dependent changes in the phosphorylation status of the carboxyl-terminal domain (CTD) of the largest subunit of RNAP II (RNAP II-LS) alter transcription. Several CTD kinases are members of the cyclin-dependent kinase (cdk) superfamily, including p34cdc2 (cdk1), cdk7, cdk8, and cdk9. Each of these cdks, with their respective cyclin partners, have been linked to cell cycle regulatory events. Other CTD kinases such as casein kinase II (CKII) and c-abl have also been implicated in cell cycle dependent modifications of the CTD. In addition, the stalling of RNAP II complexes at DNA lesions helps stimulate p53 accumulation which largely determines the cell's DNA damage response, including cell cycle arrest. Alzheimer's disease pathology results partially from activation of mitotic cdks in postmitotic neurons which can phosphorylate RNAP II-LS and other targets.
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PMID:Cell cycle regulation and RNA polymerase II. 1070 51

The Long-Evans Cinnamon (LEC) rat is a mutant strain characterized by abnormal copper metabolism and a high incidence of hepatitis and hepatoma. Using a yeast-based assay which scores mutants in p53 gene transcripts as red colonies, we detected frequent mutations in the liver of LEC rats. The majority (50-60%) of these were frameshift mutations caused by the insertion of an extra adenine (A) in the regions containing six consecutive adenines. The rate of A insertion was calculated to be 6.9-9.0% of the total p53 cDNA. Insertions of an extra adenine were found almost exclusively in the mRNA (cDNA), especially in the (A)(6) tract located at the most 5'-side (exon 4) among the three (A)(6) tracts (exons 4, 7, and 8), but rarely in the corresponding sites of genomic DNA. Wild-type p53 cDNA was transcribed in vitro into mRNA with the use of SP6 RNA polymerase and tested by the yeast functional assay. Subsequent sequencing detected A insertions at an overall rate of 1.6% in exons 7 and 8 but none in exon 4. This indicates that the A insertion in the exon 4 (A)(6) tract was an in vivo phenomenon rather than an artifact in reverse transcription or polymerase chain reaction. The percentage of red colonies increased sharply to about 20% of the liver samples in the acute hepatitis stage, and returned to control level of those in the chronic hepatitis stage, and increased again slightly to those in the neoplastic stage. The percentage of red colonies correlated with the serum GOT level (r=0.96, p<0.001) but not with the contents of copper and 8-hydroxydeoxyguanosine in the liver of LEC rats. Ethanol treatment of hepatic cell lines also increased the rate of transcriptional slippage at the (A)(6) tract. These findings indicate that cellular damage is responsible for the increase in the rate of mutation at the transcriptional level, and suggest that cellular damage degrades transcriptional fidelity, thereby further impairing cellular functions.
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PMID:Transcriptional slippage of p53 gene enhanced by cellular damage in rat liver: monitoring the slippage by a yeast functional assay. 1075 4

While pituitary tumors can be induced in rats by the administration of estrogen, susceptibility to such tumors is highly strain dependent. In this study, 21-day-old male rats of two strains-Fischer 344 (F344) strain, which is particularly susceptible to pituitary tumors, and Sprague-Dawley (SD) strain, which is relatively resistant, were treated with diethylstilbestrol (DES) over a period of 10 days. Reverse-transcriptase polymerase chain reaction (RT-PCR) was used to analyze the expression levels of two tumor suppressor genes, p53 and rb, in the pituitaries. In SD rats, both p53 and rb mRNA appeared to increase in response to DES treatment, while in F344 rats they remained undetectable. Western blot analysis revealed that protein levels of cyclin D, which is a cell cycle regulating protein thought to be a potential oncogene, decreased in response to DES treatment in F344 rats but remained constant in SD rats. The observed differences in the expression levels of p53, rb and cyclin D suggest that they might be involved in the primary process of estrogen-induced pituitary tumor development prior to detectable tumor growth.
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PMID:Potential involvement of tumor suppressor gene expression in the formation of estrogen-inducible pituitary tumors in rats. 1081 Dec 86

The state of chromatin (the packaging of DNA in eukaryotes) has long been recognized to have major effects on levels of gene expression, and numerous chromatin-altering strategies-including ATP-dependent remodeling and histone modification-are employed in the cell to bring about transcriptional regulation. Of these, histone acetylation is one of the best characterized, as recent years have seen the identification and further study of many histone acetyltransferase (HAT) proteins and their associated complexes. Interestingly, most of these proteins were previously shown to have coactivator or other transcription-related functions. Confirmed and putative HAT proteins have been identified from various organisms from yeast to humans, and they include Gcn5-related N-acetyltransferase (GNAT) superfamily members Gcn5, PCAF, Elp3, Hpa2, and Hat1: MYST proteins Sas2, Sas3, Esa1, MOF, Tip60, MOZ, MORF, and HBO1; global coactivators p300 and CREB-binding protein; nuclear receptor coactivators SRC-1, ACTR, and TIF2; TATA-binding protein-associated factor TAF(II)250 and its homologs; and subunits of RNA polymerase III general factor TFIIIC. The acetylation and transcriptional functions of these HATs and the native complexes containing them (such as yeast SAGA, NuA4, and possibly analogous human complexes) are discussed. In addition, some of these HATs are also known to modify certain nonhistone transcription-related proteins, including high-mobility-group chromatin proteins, activators such as p53, coactivators, and general factors. Thus, we also detail these known factor acetyltransferase (FAT) substrates and the demonstrated or potential roles of their acetylation in transcriptional processes.
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PMID:Acetylation of histones and transcription-related factors. 1083 22

Molecular analysis of mutations at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) locus in peripheral blood T-lymphocytes can provide information on mechanisms of somatic in vivo mutation in populations exposed to exogenous carcinogens and in individuals with inherent susceptibility to cancer and other diseases. To study possible mutational changes associated with smoking as a risk factor for lung cancer, we analyzed HPRT mutations in T-cells of newly diagnosed, nonsmoking and smoking lung cancer patients before treatment. Reverse transcriptase polymerase chain reaction (RT-PCR) and DNA sequencing methods were used to identify 146 independent mutations, 73 each from 32 nonsmoking and 31 smoking cases. In 35 T-cell mutants, the HPRT cDNA showed loss of an entire exon, indicating a splicing mutation. Among the remaining 111 fully characterized mutations in the coding region, single base pair (bp) substitutions predominated with 79% (48/61) in nonsmokers and 90% (45/50) in smokers. Frameshift and small deletion (1-24 bp) mutations were found in 18 mutants. The distribution of base pair substitutions was nonrandom, with significant clustering at previously identified hotspot positions 143, 197 and 617 in the HPRT coding sequence (P< or =0.008). One additional hotspot, GC-->TA at position 606, was observed only in smokers (P=0.006). The frequency of GC>TA transversions was higher in smokers (13%) than in nonsmokers (6%). Conversely, smokers had a lower frequency of GC>AT transitions (24%) than nonsmokers (35%). This smoking-associated shift of the HPRT mutational spectrum, although not statistically significant, is consistent with the in vitro mutagenicity of benzo(a)pyrene (BaP), a prominent carcinogen of tobacco smoke, and with known differences in the TP53 mutational spectrum in lung tumors of smokers and nonsmokers. Among nonsmokers, the HPRT mutational spectra in healthy population controls and lung cancer patients were similar, but there was a marginally significant difference (P=0.07) in the distribution of base pair substitutions between smoking controls and patients. These results suggest that (i) general mechanisms of somatic mutagenesis in individuals with possible predisposition to cancer (e.g. nonsmoking lung cancer patients) are not different from those in normal healthy individuals, and (ii) the HPRT gene in T-cells is a useful reporter locus for smoking-associated somatic in vivo mutations occurring early in lung cancer development.
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PMID:Mutational spectra at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) locus in T-lymphocytes of nonsmoking and smoking lung cancer patients. 1086 57


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