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

Bufalin, an active principle of the traditional Chinese medicine chan'su, has been proved to be a potent differentiation inducer in human leukemia cells. To study the mechanism of the differentiation of human leukemia ML1 cells induced by bufalin, we measured the effect of 10 nM bufalin on cell growth, activities of various protein kinases, and cell cycle. The ML1 cell growth was inhibited significantly at 24 hr and the inhibiting effect persisted for 6 days. Activities of PKC, PKA, cdc2 kinase and CK II in ML1 cells were changed early by bufalin; PKA and PKC activities were inhibited, and cdc2 kinase and CK II activities were increased. These results suggest that bufalin induces differentiation of ML1 cells by modulating several protein kinase activities in a distinct way from RA and 1 alpha, 25(OH) 2D3. Cell cycle changes, measured by flow cytometry, became evident at 12 hr after treatment of ML1 cells with bufalin and the cells were preferentially arrested in the G2/M phase. This effect of bufalin on the cell cycle of leukemia cells is similar to that of topoisomerase inhibitors. Indeed, the activity of topoisomerase II but not topoisomerase I of ML1 cells was inhibited remarkably by the treatment of the cells with 10 nM bufalin.
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PMID:Cell cycle arrest and protein kinase modulating effect of bufalin on human leukemia ML1 cells. 807 71

In this investigation, untreated non-B-type acute lymphoblastic leukemia (ALL) of 104 children was analyzed using immunocytochemistry for expression of protein kinase C, proto-oncogene products (Fos, Jun, Ras) and resistance-related proteins (topoisomerase II, P-glycoprotein, glutathione S-transferase-pi, metallothionein, dihydrofolate-reductase, thymidylate-synthase). The aim of the analysis was to find out whether combining those factors with the most important clinical prognostic factor (blast cell count) can improve the prognostic value (relapse-free interval). Univariate analysis shows that protein kinase D (PKC), Fos, P-glycoprotein (P-170) and glutathione S-transferase-pi (GST-pi) are significant prognostic factors independent of blast cell count (PBC) for the relapse-free intervals of children with ALL. The presence of the proteins Fos, PKC, P-170 and GST-pi was not independent within the patient population. The multivariate analysis showed that in combination with PBC and PKC, both P-170 and GST-pi have only limited prognostic influence. Combining the factors PKC, Fos and GST-pi as a categorical variable showed that this variable is a strong prognostic factor in addition to PBC.
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PMID:Prognostic value of protein kinase C, proto-oncogene products and resistance-related proteins in newly diagnosed childhood acute lymphoblastic leukemia. 898 47

Mammalian spermiogenesis is characterized by replacement of somatic histones by a set of basic nuclear transition proteins thought to be actively involved in the chromatin remodeling process. The two major transition proteins of the elongating spermatids, namely TP1 and TP2, were expressed and purified using a bacterial expression system. Both topoisomerase and ligase-mediated supercoiling assays demonstrated that TP1, as well as TP2, did not produce detectable changes in the twist and/or writhe of DNA molecules upon binding. Ligase-mediated circularization assay further demonstrated that neither of the transition proteins under study produced bends in linear DNA but that they both have the capacity to stimulate oligomerization of linear DNA fragments. We further established that the transition proteins are in vitro substrates for the Ca+2-phospholipid-dependent protein kinase (PKC) as well as the cAMP-dependent protein kinase (PKA). PKC phosphorylation was found to strongly weaken the DNA-condensing ability of TP2. These results suggest that the major transition proteins represent architectural factors able to stabilize DNA in a nonsupercoiled state, thereby promoting DNA condensation.
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PMID:Architectural DNA-binding properties of the spermatidal transition proteins 1 and 2. 983 53

Protein kinase C-delta (PKC-delta) appears to be variously involved in proliferation and apoptosis. To compare the changes of this enzyme in these two processes, we have determined the levels and activities of the 79-kDa PKC-delta holoenzyme and its catalytically active 47- and 40-kDa C-terminal fragments in the nuclei of proliferating untreated polyomavirus-transformed pyF111 rat fibroblasts and pyF111 cells treated with the apoptogenic topoisomerase-II inhibitors VP-16 (etoposide), VM-26 (teniposide), and doxorubicin. PyF111 cells were chosen because they hyperexpress PKC-delta and they are hypersusceptible to apoptosis because they do not express the antiapoptotic proteins Bcl-2 and Bcl-XL. The highest PKC-delta activity in cells before they started proliferating or were exposed to one of the inhibitors was in the NM (nuclear envelope-containing) fraction, which contained the holoenzyme and both C-terminal fragments, while only the two fragments were in the nucleoplasmic (NP) fraction where they were tightly associated with chromatin. When the cells began proliferating the amounts of the PKC-delta holoenzyme and the two fragments increased in the NM and the NP fractions and the already high PKC-delta activity either increased or stayed the same in these fractions until the end of the 72-h incubation. And there was no leakage of cytochrome c from the mitochondria into the cytoplasm. VP-16 exposure caused a prompt release of cytochrome c from the mitochondria into the cytosol and at the same time triggered a sharp drop (35% by 3 h and 60% by 6 h) in the PKC-delta activity in the NM fraction without changing the actual amounts of the holoenzyme or its fragments. This prompt inactivation of PKC-delta and its fragments during the first 6 h of exposure to the drug was not due to their dephosphorylation and could not be reversed by phosphatidylserine and/or 12-O-tetradecanoylphorbol 13-acetate (TPA). Between 6 and 24 h the PKC-delta activity in the NM fraction dropped a further 20%, the kinase's activity transiently surged in the NP fraction, and cytoplasmic CPP-32-like (DEVD-specific caspase) activity increased without an increase in the proteolysis of nuclear PKC-delta or PARP. Between 24 and 72 h nuclear CPP-32-like activity increased along with a massive proteolysis of PKC-delta, an accumulation of various PKC-delta fragments, and the cleavage of PARP. But despite this proteolysis, the cells were still able to maintain or even increase the amounts of holoenzyme and 40- and 47-kDa fragments in the NM and NP fractions before dying. VM-26 and doxorubicin caused the same prompt release of cytochrome c from the mitochondria and dramatic drop of NM PKC-delta activity as did VP-16. Thus, high levels of activity of nuclear PKC-delta, particularly PKC-delta in the nuclear membrane, might have a role driving the cell cycle of pyF111 cells. On the other hand, the prompt and sustained large drop in the activity of PKC-delta at this site that precedes the onset of the caspase-mediated proteolysis of the isoform may be involved in starting and driving apoptogenesis in pyF111 fibroblasts exposed to topoisomerase-II inhibitors.
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PMID:Changes in nuclear protein kinase C-delta holoenzyme, its catalytic fragments, and its activity in polyomavirus-transformed pyF111 rat fibroblasts while proliferating and following exposure to apoptogenic topoisomerase-II inhibitors. 1032 62

A caspase-mediated release of the 40-kDa catalytic fragment of the delta isoform (CF-delta) of protein kinase C (PKC-delta) is involved in apoptosis, but its actual role in apoptosis development is still unknown. In an effort to understand this role, we have used polyomavirus-transformed pyF111 rat fibroblasts, which are hypersusceptible to apoptosis as they constitutively hyperexpress PKC-delta, but cannot make the antiapoptotic Bcl-2 and Bcl-X(L) proteins, while making the proapoptotic Bax protein. Calphostin C is reportedly both a specific inhibitor of PKC-delta activity (C. Keenan, N. Goode, and C. Pears, 1997, FEBS Lett. 415, 101-108) and an effective apoptogen (M. Murata et al., 1997, Cell. Mol. Life Sci. 53, 737-743). Exposure of pyF111 cells to calphostin C (75 nM) stimulated the translocation of the PKC-delta holoenzyme (holo-PKC-delta) onto the cytoplasmic particulate (CP) fraction between 15 and 45 min, which was after the release of mitochondrial cytochrome c but before the activation of cytoplasmic DEVD-specific caspases. The CF-delta fragment started accumulating only between 2 and 4 h, while apoptosis occurred mostly within 6 h. Incubating pyF111 cells with the much slower acting, apoptogenic topoisomerase-II inhibitors etoposide (VP-16) and teniposide (VM-26) also caused within 6 h a doubling of the CP-bound holo-PKC-delta-related activity but with no significant translocation of the holoenzyme to the CP fraction. Again this occurred after the release of cytochrome c but before the activation of DEVDases and the accumulation of the CF-delta. However, while calphostin C did not affect the delta-related activity in the nuclear membrane (NM) and nucleoplasmic (NP) fractions, VP-16 and VM-26 caused a prompt, large, and irreversible drop in the delta activity at the NM and a transient surge followed by a fall in the NP-associated activity. Hence, a surge of CP-anchored holo-PKC-delta activity is a common part of the signals given by various apoptogenic drugs to pyF111 cells. On the other hand, inhibition of delta-related activity, first at the NM and then in the NP fraction, is a specific feature only of the signals given by apoptogenic DNA-damaging agents.
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PMID:Increased activity of the protein kinase C-delta holoenzyme in the cytoplasmic particulate fraction precedes the activation of caspases in polyomavirus-transformed pyF111 rat fibroblasts exposed to calphostin C or topoisomerase-II inhibitors. 1069 33

The efficacy of the epipodophyllotoxins VP-16 and VM-26 is limited by the occurrence of drug resistance in the tumor cell population. Cellular insensitivity to drugs that stabilize the cleavable complex is frequently expressed as multidrug resistance (MDR). In some cell lines, overexpression of MDR-1/P-glycoprotein or the multidrug resistance associated protein (MRP) has been demonstrated and implicated as the mechanism of resistance. Typically, these cells have reduced drug accumulation, secondary to increased drug efflux. In other cell lines, an atypical MDR phenotype has been identified, with the predominant mechanism of resistance shown to be qualitative and/or quantitative changes in the levels and activity of topoisomerase II. For VP-16, increased expression of MDR-1 or MRP and alterations in topoisomerase II have been shown to confer tolerance. To further understand resistance to VP-16, T98G-VP(1000) was initially isolated as a single clone from parental cell, T98G, by exposure to VP-16. Subsequently, a population of cells from this subline was exposed to three-fold higher drug concentration allowing stable sublines to be established at higher extracellular drug concentration. Characterization of the resistant sublines demonstrates the adaptation that occurs with advancing drug concentrations during in vitro selections. Reduced topoisomerase II mRNA and protein levels were observed in the initial isolate. This reduction was accompanied by a decrease in topoisomerase II activity and cellular growth rate and was associated with 47-fold resistance to topoisomerase II poisons. With advancing resistance, MRP expression increased, with increased VP-16 efflux and reduced accumulation. This adaptation allowed for partial restoration of topoisomerase II activity secondary to increased expression and hyperphosphorylation, with a resultant increase in growth rate. In this cell line, hyperphosphorylation coincided with increased casein kinase II mRNA protein levels, without increased PKC protein levels, suggesting a role for this kinase in the acquired hyperphosphorylation. In this cell line, hyperphosphorylation mediated the increased activity despite a fall in topoisomerase II protein levels secondary to an acquired 615 bp deletion in one topoisomerase II allele, which resulted in reduced protein levels. In this subline, high levels of resistance were attained as a result of synergism between the reduced topoisomerase II levels and MRP overexpression. These studies demonstrate how cellular adaptation to increasing drug pressure occurs and how more than one mechanism can contribute to the resistant phenotype when increasing selecting pressure is applied. Reduced expression of topoisomerase II is sufficient to confer substantial resistance early in the selection process, with synergy from additional mechanisms helping to confer high levels of resistance.
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PMID:Increased phosphorylation of DNA topoisomerase II in etoposide resistant mutants of human glioma cell line. 1072 8

The topoisomerase-I inhibitor irinotecan (CPT-11) is currently used in Phase I/II trials for the treatment of patients with recurrent malignant gliomas. Protein kinase C (PKC) inhibitors such as high-dose tamoxifen and hypericin also have been used in the treatment of malignant gliomas. The current study examined the role of PKC inhibitors as chemosensitizers for CPT-11 and their proposed mechanism of action. Two glioma cell lines (A-172 and U-87) and one primary glioma cell culture (LA-567) were used. Proliferation ((3)H-thymidine) and cytotoxicity (methylthiotetrazole) studies were performed using CPT-11 (0-100 microM) alone, 7-ethyl-10-hydroxy camptothecin (SN-38) (0-1000 nM) alone or in the presence of a PKC inhibitor, tamoxifen (10 microM), hypericin (10 microM), calphositin C (400 nM), or staurosporine (10 nM). The terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling(TUNEL) assay was used to determine apoptosis as the mechanism of cytotoxicity; alterations in bcl-2 and bax expression were determined using Western blot analysis. Conversion of CPT-11 to SN-38 by glioma cells was determined using high-performance liquid chromatography (HPLC) analysis. Increasing CPT-11 and SN-38 concentrations induced cytotoxic morphologic changes, decreased proliferation, and increased cytotoxicity on all glioma cell lines tested. These changes were increased in the presence of a PKC inhibitor. The mechanism of the cytotoxicity was determined to be apoptosis by the TUNEL assay. The combination of a PKC inhibitor with CPT-11 or SN-38 led to decreased expression of the antiapoptotic protein bcl-2, and increased expression of the proapoptotic protein bax. HPLC analysis demonstrated conversion of CPT-11 to SN-38 by glioma cells. A combination of CPT-11 or SN-38 with a PKC inhibitor was found to lead to a decrease in proliferation and an increase in apoptosis in malignant glioma cells. The induction of apoptosis was secondary to a decrease in bcl-2 and an increase in bax expression. Glioma cells are capable of converting CPT-11 to SN-38 by intrinsic tumor carboxylesterases.
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PMID:Combination therapy with irinotecan and protein kinase C inhibitors in malignant glioma. 1271 58

Topoisomerase II plays an essential role in the segregation of chromosomes during cell division. It is also a major component of the nuclear matrix. Proteins that interact with and regulate this essential enzyme are of great interest. To investigate the role of proteins interacting with the N-terminal domain of the Saccharomyces cerevisiae topoisomerase II, we used a yeast two-hybrid protein interaction screen. We identified an interaction between the catalytic domain of the yeast protein kinase 1 enzyme (Pkc1) and the N-terminal domain of the S. cerevisiae topoisomerase II. The S. cerevisiae Pkc1 is the homologue of the mammalian calcium dependent PKC.
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PMID:The identification of a functional interaction between PKC and topoisomerase II. 1636 7

Caspase-2 exists as two main isoforms: the caspase-2L long isoform, which is pro-apoptotic, and the caspase-2S short isoform, which may be anti-apoptotic. Topoisomerase inhibitors drive inclusion of exon 9, specific for Casp-2S mRNA, and lower Casp-2L [corrected] mRNA and protein. With cell lines engineered to express various PKC isoforms, we demonstrate that PKC zeta, but not PKCalpha, positively regulates Casp-2S mRNA assembly triggered by topoisomerase inhibitors. In addition, exon 9 inclusion is lowered in mitosis but increased in the G1/S phase. Hence, the control of caspase-2 exon 9 inclusion by topoisomerase inhibitors depends on phosphorylation and/or dephosphorylation events, and on the cell cycle phase.
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PMID:PKC zeta controls DNA topoisomerase-dependent human caspase-2 pre-mRNA splicing. 1816 55

The heterocyclic carboxyborane amines were found to be potent cytotoxic agents in the murine L1210 lymphoid leukemia and human HeLa suspended carcinoma cells. These agents were observed to inhibit HeLa DNA topoisomerase II activity ~ 200 muM and L1210 topoisomerase II activity >/= 100 muM. These agents did not cause DNA protein linked breaks themselves, but upon incubation for 14-24 hr did enhance the ability of VP-16 to cause cleavable complexes. The heterocyclic amineboranes inhibited DNA synthesis and caused DNA strand scission. They were additive with VP-16 in affording these results as well as inhibiting colony growth of L1210 cells after co-incubation for 1 hr. The agents inhibited in vitro PKC phosphorylation of both L1210 lymphoid leukemia and human topoisomerase II enzyme.
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PMID:Cytotoxic action of carboxyborane heterocyclic amine adducts. 1847 92


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