EC:5.99.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:5.99.1.2 (topoisomerase)
9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In vitro erythroid differentiation of mouse erythroleukemia (MEL) cells was induced by combinations of topoisomerase and protein kinase inhibitors. Neither inhibitor alone exhibited inducing activity. Although inhibitors of topoisomerases I and II were equally effective in the synergistic induction of erythroid differentiation, only inhibitors of tyrosine kinases, not of serine/threonine kinases, exhibited synergistic activity. The erythroid differentiation induced by the combination of topoisomerase and protein tyrosine kinase inhibitors was distinguished from that induced by typical erythroid inducing agents such as DMSO or HMBA by (1) earlier hemoglobin accumulation in the cells and (2) insensitivity to specific inhibitors (dexamethasone and sodium orthovanadate) of MEL cell differentiation.
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PMID:Synergistic induction of erythroid differentiation of mouse erythroleukemia (MEL) cells by inhibitors of topoisomerases and protein tyrosine kinases. 131 8

The activities of protein tyrosine kinase and phosphatidylinositol turnover have been found to be associated with cell growth and differentiation. We examined the effects of some inhibitors for these biochemical activities in human myelogenous leukemia cells. Genistein, which is known to inhibit the activities of protein tyrosine kinase, phosphatidylinositol turnover and topoisomerase II, induced nitroblue tetrazolium (NBT) reduction and lysozyme activity in ML-1, HL-60 and U937 cells. Morphological studies showed that genistein-induced differentiation of myeloblastic ML-1 cells into promyelocytes and of promyelocytic HL-60 cells into mature granulocytes. The differentiation-inducing effect of genistein was augmented by addition of 1 alpha,25-dihydroxyvitamin D3 (VD3) or retinoic acid, VD3 being more effective than retinoic acid. Methyl 2,5-dihydroxycinamate, a protein tyrosine kinase inhibitor, had only a weak effect in inducing differentiation of ML-1 cells. On the other hand, psi-tectorigenin was more effective than genistein in inducing the differentiations of ML-1 and HL-60 cells. Psi-tectorigenin is reported to inhibit phosphatidylinositol turnover without inhibiting protein tyrosine kinase. Thus modulation of phosphatidylinositol turnover might be more important than that of protein tyrosine kinase activity for differentiation of some myelogenous leukemia cells.
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PMID:Effects of inhibitors of protein tyrosine kinase activity and/or phosphatidylinositol turnover on differentiation of some human myelomonocytic leukemia cells. 189 51

Genistein, an isoflavonoid derivative initially described as an in vitro protein tyrosine kinase inhibitor, also inhibits mammalian DNA topoisomerase II both in vitro and in vivo. From a human leukaemic T cell line (CCRF-CEM), two genistein-resistant cell lines, which grow in the presence of 50 and 150 microM genistein, respectively, were selected and designated CEM/GN50 and CEM/GN150. Flow cytometry and karyotype analyses revealed that more than 95% of the parental cells were tetraploid whereas both resistant sublines were essentially diploid and were likely derived from the diploid fraction in the initial population. The CEM/GN cells were 3- to 4-fold resistant to genistein, and highly cross-resistant to certain metabolic inhibitors such as cytosine-arabinoside (50-fold) and 5-fluoro-2'-deoxyuridine (5000-fold). This resistance was associated with a markedly decreased uptake of thymidine and a 10-fold reduction in thymidine kinase activity. The CEM/GM cells were also 15- to 30-fold cross-resistant to topoisomerase inhibitors (etoposide, m-AMSA, 2-Me-9-OH-ellipticinium). Comparison of topoisomerase II activities in the sensitive and resistant cells showed: (i) an approximately 2-fold reduced decatenation activity in nuclear extracts from the resistant cells; (ii) an approximate 30% reduction in DNA-protein cross-links in etoposide-treated resistant cells; and (iii) a markedly reduced expression of the topoisomerase II beta isoform. These data, consistent with our previous results, indicate that the cytotoxicity of genistein is at least in part related to its capacity to inhibit DNA topoisomerase II.
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PMID:Genistein resistance in human leukaemic CCRF-CEM cells: selection of a diploid cell line with reduced DNA topoisomerase II beta isoform. 763 61

We tested the potential impact of tyrosine phosphorylation on the expression of the c-myc gene in two colon cancer cell lines, HCT8 and SW837. We found that the protein tyrosine kinase inhibitor genistein causes a decrease in the abundance of c-myc RNA and an inhibition of proliferation with a similar dose response. Geldanamycin, a mechanistically different tyrosine kinase inhibitor, also causes a decrease in both the expression of c-myc RNA and proliferation. Genistein has also been found to inhibit topoisomerase II, but the topoisomerase II inhibitor novobiocin did not lower the expression of c-myc. The most likely interpretation is that inhibition of protein tyrosine kinase activity caused a decrease in c-myc expression in these cells. The impact of tyrosine phosphorylation on the expression of the c-myc gene is further supported by the finding that inhibition of phosphotyrosine phosphatase using orthovanadate causes an increase in the level of c-myc RNA. The effect of genistein on HCT8 cells is not dependent on the synthesis of new protein and does not involve an alteration in the stability of the message. Analysis of transcription in the c-myc gene reveals a more complicated picture with a decrease in initiation and an increase in elongation but no net change in transcription. We speculate that the genistein induced reduction in myc expression is the result of a posttranscriptional intranuclear event(s).
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PMID:Influence of protein tyrosine phosphorylation on the expression of the c-myc oncogene in cancer of the large bowel. 764 26

Although data from epidemiological studies and cancer models suggest that genistein plays an important role in cancer prevention, the biochemical target(s) of genistein action is (are) not known. Genistein is a potent in vitro inhibitor of protein tyrosine kinase (PTK) activity, especially that of the epidermal growth factor receptor (EGF-R), having little effect on serine/threonine kinases. This led to the suggestion that genistein might exert its anti-cancer effects through inhibiting the activity of EGF-R PTK, or other crucial PTK's in vivo. Subsequent studies on intact tumor cell lines demonstrated that EGF-R and other growth factor receptors are able to transmit mitogenic signals in the presence of genistein. In fact, it is difficult to detect decreases in the tyrosine phosphorylation of discrete proteins after genistein treatment. Other mechanisms for the effect of genistein have been suggested from in vitro and cell culture data. Genistein not only inhibits the activity of purified topoisomerase II in vitro, but also leads to the accumulation of protein-associated single strand breaks in whole cells. Genistein also inhibits the production of reactive oxygen species which may lead to tissue damage and DNA modification. Additionally, genistein acts as a weak estrogen, modifies cellular differentiation programs, inhibits angiogenesis. modulates cell cycle events and may precipitate apoptosis. However, few of the above mechanisms in tumor cells are sensitive to the physiological serum concentrations of genistein (< 18.5 mumol/L, or < 5 micrograms/mL). Primary, nontransformed human mammary epithelial cells, which have a much greater sensitivity to genistein, would be a better system for the study of these mechanisms.
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PMID:Evaluation of the biochemical targets of genistein in tumor cells. 788 65

Genistein is an inhibitor of the enzymes protein tyrosine kinase and topoisomerase-II. It induces G2-phase arrest in human Jurkat and murine P388 leukemia cells at concentrations at which it is also cytotoxic. The effects of genistein have been investigated on Jurkat and P388 leukemia sublines that manifest multidrug resistance. Cells that possess altered topoisomerase-II activity ("atypical" multidrug resistance) are resistant to both the G2 phase-arresting and cytotoxic effects of genistein. The ability of genistein to impede progression through the cell cycle and kill cells is similar to that of amsacrine, a classical topoisomerase-II poison. This result identifies topoisomerase-II rather than tyrosine kinase activity as the target of genistein-mediated cytotoxicity and G2-phase arrest.
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PMID:Comparison of the effects of genistein and amsacrine on leukemia cell proliferation. 791 50

We studied the effects of protein tyrosine kinase inhibitors with different modes of action on topoisomerase activity and cell death in CTLL-2 cells, whose growth is IL-2-dependent. The Flavonoids genistein, biochanin A, and apigenin inhibited topoisomerase II to the same extent as etoposide, a specific inhibitor of the enzyme. Methyl 2,5-dihydroxycinnamate (2,5-MeC) also inhibited topoisomerase II, but was less potent than genistein. Herbimycin A and staurosporine did not inhibit topoisomerase II. None of the inhibitors of protein tyrosine kinases examined inhibited topoisomerase I activity. All the inhibitors induced cell death with internucleosomal DNA fragmentation in the presence of IL-2. Genistein, biochanin A, and apigenin induced DNA fragmentation and cell death early in the incubation period and did not alter the profiles of phosphotyrosine proteins in either the lysate or pelleted fractions, indicating that the early cell death was induced by the inhibition of topoisomerase II activity rather than by the inhibition of protein tyrosine kinase activity. 2,5-MeC similarly induced early cell death and DNA fragmentation, but to a lesser extent than genistein presumably due to the inhibition of topoisomerase II activity. Herbimycin A induced a slow increase in DNA fragmentation and cell death, accompanied by a decrease in phosphotyrosine proteins in the pelleted fraction, suggesting that the inhibition of protein tyrosine phosphorylation, presumably of the nuclear proteins, is related to cell death and DNA fragmentation. Staurosporine-induced DNA fragmentation appeared to be due to mechanism(s) other than the inhibition of topoisomerases and protein tyrosine kinases, since it neither altered the profiles of phosphotyrosine proteins nor inhibited topoisomerase activity.
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PMID:Effects of protein tyrosine kinase inhibitors with different modes of action on topoisomerase activity and death of IL-2-dependent CTLL-2 cells. 854 64

GL331 is a semisynthetic topoisomerase II inhibitor derived from a plant toxin podophyllotoxin. In 72-h exposure assays, LD50 values of GL331 range from 0.5 to 2 microM, which are three- to ten-fold lower than those of its homologous compound etoposide (VP-16), depending on different cancer cell lines including nasopharyngeal, hepatocellular, gastric, cervical and colon cancer types. Apoptotic DNA ladders could be detected when cancer cells were treated with GL331 for 24 h even if the Bcl-2 and Bax protein levels were not altered during the period. Besides acting as topoisomerase II inhibitors, both GL331 and VP-16 decrease the cellular protein tyrosine kinase (PTK) activities in cancer cells. The activities of protein tyrosine phosphatase (PTP) are significantly increased after GL331 treatment but are not affected by VP-16. GL331-induced internucleosomal cleavage can be efficiently prevented by two inhibitors of PTP, sodium orthovanadate and zinc chloride, but not by okadaic acid, which inhibits serine/threonine phosphatase activity. These results indicate that GL331 may induce apoptotic cell death, and that activation of protein tyrosine phosphatases may be involved in this process.
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PMID:Protein tyrosine phosphatase activities are involved in apoptotic cancer cell death induced by GL331, a new homolog of etoposide. 901 84

Soy-based diets, rich in the isoflavones genistein and daidzein, are thought to protect against breast and prostate cancer. We used the N-methyl-N-nitrosourea (MNU)-induced mammary carcinogenesis animal model to test the effectiveness of these two isoflavones as chemopreventive agents. Each isoflavone was injected daily into 35-day-old rats for six months while we monitored the animals' body weight and mammary tumor appearance. Genistein was effective in reducing tumor multiplicity, but it reduced tumor incidence only marginally. Daidzein was less effective in reducing both tumor incidence and multiplicity. To investigate genistein's mechanism of action, we determined the topoisomerase II (topo II) activity and detected the phosphotyrosine-containing peptides in the extracts of mammary tissues isolated from control and isoflavone-treated animals. Mammary tumors contained over 60-fold higher topo II enzymatic activity than the mammary glands. Similarly, more tyrosine phosphopeptides were detectable in mammary tumors than in mammary glands. Tissue samples from genistein treated animals contained similar topo II and protein tyrosine kinase (PTK) activities as the control group. These data suggest that mammary tumorigenesis is accompanied by an extensive increase in topo II and PTK activities. The mechanism of chemoprevention by genistein, however, is independent of topo II or PTK inhibition.
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PMID:Inhibition of N-methyl-N-nitrosourea-induced mammary tumors in rats by the soybean isoflavones. 904 3

The aim of this study was to identify the molecular mechanism of action of the isoflavone, genistein. Genistein at 0.15 mM caused MCF-7 apoptotic cell death, which was accompanied by cell cycle delay in the G2/M phase. Twenty-four hours post-treatment, 47.3% of the MCF-7 cells accumulated at G2/M, compared with 19.9% in the untreated controls. At 0.15 mM, genistein caused an increase in the steady-state levels of the wild-type tumour suppressor p53, which was attributed to stabilising the tumour suppressor protein, since p53 mRNA levels did not increase. Prior to the upregulation of p53, which became evident within 6 h of genistein treatment, there was increased bcl-2 phosphorylation at 30 min post-treatment. Although early changes (30-120 min) in the phosphotyrosine peptide patterns were not detected, after 24h, genistein inhibited phosphorylation of several peptides. These results suggest that genistein's dual roles of protein tyrosine kinase inhibitor and topoisomerase II inhibitor are essential for the initiation of apoptosis.
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PMID:Genistein inactivates bcl-2, delays the G2/M phase of the cell cycle, and induces apoptosis of human breast adenocarcinoma MCF-7 cells. 1002 17

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