EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of tau protein in non-neuronal cells can result in a redistribution of the microtubule cytoskeleton into thick bundles of tau-containing microtubules (Lewis et al.: Nature 342:498-505, 1989; Kanai et al.: J Cell Biol 109:1173-1184, 1989). We reconstituted microtubule bundles using purified tubulin and tau in order to study the assembly of these structures. Taxol-stabilized tubulin polymers were incubated with various concentrations of recombinant human tau and examined by electron microscopy. With increasing concentrations of tau 3 (tau isoform containing three microtubule binding domains) or tau 4 (isoform containing four microtubule binding domains) the microtubules changed orientation from a random distribution to loosely and tightly packed parallel arrays and then to thick cables. In contrast, tau 4L, the tau isoform containing four microtubule binding domains plus a 58-amino acid insert near the N-terminus, showed minimal bundling activity. tau 4-induced bundling could be inhibited by the addition of 0.5 M NaCl or 0.4 mM estramustine phosphate, conditions which are known to inhibit tau binding to microtubules. A tau construct that contained only the microtubule binding domains plus 19 amino acids to the C-terminus was fully capable of bundling microtubules. Phosphorylation of tau 3 with cAMP-dependent protein kinase had no effect on its ability to induce microtubule bundling. These results indicate that tau protein is directly capable of bundling microtubules in vitro, and suggests that different tau isoforms differ in their ability to bundle microtubule filaments.
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PMID:Tau protein induces bundling of microtubules in vitro: comparison of different tau isoforms and a tau protein fragment. 136 May 42

Taxol stabilizes microtubules, prevents tubulin depolymerization, and promotes tubulin bundling and is one of the most effective drugs for the treatment of metastatic breast and ovarian cancer. Although its interaction with tubulin has been well characterized, the mechanism by which taxol induces growth arrest and cytotoxicity is not well understood. Herein, we show that taxol induced dose- and time-dependent accumulation of the cyclin inhibitor p21WAF1 in both p53 wild-type and p53-null cells, although the degree of induction was greater in cells expressing wild-type p53. In MCF7 cells, wild-type p53 protein was also induced after taxol treatment, and this induction was mediated primarily by increased protein stability. Taxol induced both p21WAF1 and wild-type p53 optimally in MCF7 cells after 20-24-h exposure with an EC50(3) of 5 nM. In p53-null PC3M cells, p21WAF1 was similarly induced after 24-h exposure to taxol. Coincident with these biochemical effects, taxol altered the electrophoretic mobility of c-raf-1 and stimulated mitogen activated protein kinase. Previous depletion of c-raf-1 inhibited both the p21WAF1- and p53-inducing properties of taxol, as well as the activation of MAP kinase. These data suggest that induction of p21WAF1 by taxol requires c-raf-1 activity, but that it is not strictly dependent on wild-type p53. Furthermore, the ability of taxol to both induce wild-type p53 in MCF7 cells and activate MAP kinase is also dependent on c-raf-1 expression.
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PMID:Taxol induction of p21WAF1 and p53 requires c-raf-1. 755 39

Taxol, a natural product with significant anti-tumor activity, stabilizes microtubules and arrests cells in the G2/M phase of the cell cycle. It has been reported that taxol has additional effects in cells, including an increase in tyrosine phosphorylation of proteins and activation of MAP kinase. We investigated a possible effect of taxol on tyrosine phosphorylation of Shc and on formation of the Shc/Grb-2 complex in the murine macrophage-like cell line RAW 264.7. Shc, an SH2 domain containing adaptor protein, was immunoprecipitated from lysates of taxol-treated cells with anti-phosphotyrosine antibody and its identity determined by Western blotting with anti-Shc antibody. Non-denatured Shc containing protein complexes were immunoprecipitated with anti-Shc antibody, and analysis with an anti-Grb2 antibody revealed the presence of the 24-kDa Grb2 protein. Taxol also activated Raf-1 kinase and ERK1/ERK2 MAP kinases in these cells. These results demonstrate that taxol affects tyrosine phosphorylation of Shc and this may result in the activation of the Raf-1/MAPK cascade.
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PMID:Taxol induces tyrosine phosphorylation of Shc and its association with Grb2 in murine RAW 264.7 cells. 900 67

CDC 25 is a dual phosphatase responsible for dephosphorylation and, thus, activation of CDC 2 kinase in G2. Abnormal activation of cyclin B-associated CDC 2 kinase has been implicated in apoptosis induced by cancer chemotherapeutic agents such as paclitaxel (Taxol) and etoposide (VP-16). In this study, we found that the CDC 2 kinase could be transiently activated when nasopharyngeal carcinoma NPC-TW01 cells were treated for 3 h with a new anticancer agent, GL331. GL331 treatment also induced a concomitant increase in CDC 25A phosphatase activity and a reduced level of Tyr-15-phosphorylated CDC 2 in NPC-TW01 cells. Furthermore, subsequent apoptotic DNA fragmentation induced by GL331 could be interrupted by treatment of the cells with the cyclin B1-specific antisense oligonucleotides, suggesting that abnormal activation of cyclin B1-associated CDC 2 kinase and CDC 25A phosphatase was involved in GL331-induced apoptosis. Raf-1 has been shown to associate with CDC 25A and, thus, to stimulate its phosphatase activity. Our results revealed that GL331 could facilitate the association of CDC 25A with Raf-1, resulting in the cascade of CDC 25A phosphatase activation and CDC 2 kinase activation, as well as related signaling pathways, and ultimately causing apoptosis in cancer cells.
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PMID:Activation of CDC 25 phosphatase and CDC 2 kinase involved in GL331-induced apoptosis. 923 Feb 11

DNA damage inactivates cyclin-dependent kinases (CDKs) and arrests the cell cycle. Following DNA damage, the G1-S CDKs are inhibited by a mechanism involving p53-dependent induction of p21Cip1/Waf1; but how the Cdc2 is inhibited is less apparent. We found that the signal generated by the DNA damage checkpoint in G2 was dominant over that from the spindle microtubule-assembly checkpoint, because the high Cdc2 activity present in nocodazole or Taxol-arrested cells was reduced by DNA damage. Phosphorylation of the inhibitory residues in Cdc2, Thr14, and Tyr15 coincided with the inactivation of Cdc2 after DNA damage. Interpretation of this result, however, was not straightforward due to the regulation of Thr14/Tyr15 phosphorylation by feedback loops; hence, their phosphorylation can in principle result merely from the inhibition of Cdc2 activity. Consistent with this, Thr14/Tyr15 phosphorylation was induced when Cdc2 kinase activity was inhibited with butyrolactone-I. Given these complications, we undertook a more critical analysis of the mechanisms that regulate Cdc2 after DNA damage. Caffeine reversed the DNA damage-induced inhibition of Cdc2 by causing dephosphorylation of Cdc2, and this dephosphorylation still occurred even when the Cdc2 feedback loops were blocked with butyrolactone-I. These data suggest that the DNA damage checkpoint in part acts through Thr14/Tyr15 phosphorylation by a mechanism independent of Cdc2 activity, and this phosphorylation can be accentuated by the Cdc2 feedback loops involving Thr14/Tyr15 protein kinases and phosphatases. The kinase activity of the Wee1Hu Tyr15 protein kinase was unaltered after DNA damage, but the phosphatase activity of Cdc25C was reduced. Thus, the decrease in Cdc25C activity may in part account for the DNA damage-induced increase in Thr14/Tyr15 phosphorylation.
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PMID:The role of Cdc2 feedback loop control in the DNA damage checkpoint in mammalian cells. 937 20

Multidrug resistance (MDR) in cancer poses a major obstacle to the success of chemotherapy. We previously reported that cyclic AMP (cAMP)-resistant mutants of the Chinese hamster ovary and the mouse adrenal cortical carcinoma cells harboring defective regulatory (RI alpha) subunits of the cAMP-dependent protein kinase (PKA) are more sensitive than wild-type cells to chemotherapeutic agents that are substrates for P-glycoprotein. In addition, a transfectant overexpressing a mutant RI alpha cDNA showed similar increased sensitivity to these drugs. The altered drug sensitivity in the RI alpha mutants results from reduced expression of the mdr gene, suggesting that PKA may regulate its expression. In this study, we evaluated the sensitivity of several Chinese hamster ovary catalytic (C) subunit mutants to various anticancer drugs. Like the RI alpha subunit mutant, the C subunit mutants also exhibit decreased kinase activity and unresponsiveness to growth inhibition by cAMP. However, in contrast to the RI alpha subunit mutant, the C subunit mutants are not multidrug sensitive and maintain P-glycoprotein expression levels comparable to those of wild-type cells. Furthermore, the C subunit mutants display the same resistance patterns as wild-type cells to P-glycoprotein substrates, including Adriamycin, Taxol, and colchicine. No significant difference was observed in their sensitivity to non-MDR drugs, such as 5-fluorodeoxyuridine, between wild-type, RI alpha, and C subunit mutant cells. These results suggest that the increased multidrug sensitivity in the PKA mutant cells results from alteration of the RI alpha subunit and not the kinase activity, thus implying novel functions for the RI alpha subunit. Therefore, genetic alteration of the RI alpha subunit of PKA may modulate drug resistance in cancer.
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PMID:Regulation of P-glycoprotein expression in cyclic AMP-dependent protein kinase mutants. 941 12

Telomerase is a specialized ribonucleoprotein polymerase that adds hexanucleotides (TTAGGG) onto human chromosomal ends. The expression of telomerase activity has been associated with cell immortalization and the malignant phenotype in most cancers. How the telomerase activity is regulated in cancer cells is presently not known. In this work, the effects of cell cycle blockers, DNA damaging agents, TopII inhibitors and proteins kinase inhibitors on the telomerase activity were examined in cultured nasopharyngeal carcinoma cells NPC-076. Agents which interfere with tubulin assembly (Taxol and vinblastine) and agents which arrest cells at S phase (methotrexate and 5-fluorouracil) did not inhibit telomerase activity of treated cells. Agents which damage DNA (cisplatin, methyl methanesulfonate, and UV radiation) and TopII inhibitors (etoposide and daunorubicin) also did not inhibit telomerase activity of treated cells. Among the protein kinase inhibitors examined, no significant inhibition of telomerase activity was observed with cells treated with quercetin, H-89, or herbimycin A. On the other hand, two protein kinase C (PKC) inhibitors (bisindolylmaleimide I and H-7) were found to produce a big inhibition of telomerase activity in treated cells. Staurosporine produced a moderate inhibition, and sphingosine had a small inhibitory effect. The inhibition of telomerase activity by PKC inhibitors appears to be specific since the treated cells were mostly viable (i.e., greater than 75%) and still retained significant levels of protein synthesis capability. These results implicate that protein kinase C is involved in the regulation of telomerase activity in vivo.
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PMID:Inhibition of telomerase activity by PKC inhibitors in human nasopharyngeal cancer cells in culture. 943 77

Paclitaxel (Taxol) is becoming increasingly important in the treatment of many tumors, although a large proportion of tumors fail to respond to this drug. The identification of the processes that confer cellular paclitaxel resistance could provide potential targets for novel therapies that may help to eliminate paclitaxel-resistant tumors. Recent reports suggest that the Raf-1 protein kinase may have a profound influence on the level of paclitaxel-induced apoptosis. We have critically evaluated the relationship between Raf-1 kinase activity and de novo paclitaxel resistance in early-passage human cervical tumors. In the 12 cell lines studied, Raf-1 kinase activity was inversely correlated (P = 0.0016) with the level of cytotoxicity induced by 60 nM paclitaxel. The relationship between these two parameters seems to be more than an epiphenomenon, because genetic down-regulation of Raf-1 kinase activity led to an approximately 4-fold increase in paclitaxel-induced cytotoxicity. The data from both our transfection studies and those on the 12 unperturbed cell lines are consistent with Raf-1 kinase being a negative determinant of paclitaxel-induced cytotoxicity. Because the cytotoxicity of paclitaxel is primarily attributable to apoptosis, these data suggest that Raf-1 kinase acts to suppress paclitaxel-induced apoptosis. These data suggest that the clinical effectiveness of paclitaxel could be substantially improved by the use of Raf-1 kinase inhibitors, provided that a similar relationship between Raf-1 kinase activity and paclitaxel cytotoxicity exists in the clinic, especially in those tumor sites where paclitaxel is the current treatment of choice e.g., ovarian and breast cancer.
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PMID:High Raf-1 kinase activity protects human tumor cells against paclitaxel-induced cytotoxicity. 960 67

Although the ability of Taxol to stabilize cellular microtubules is well accepted, the mechanisms by which Taxol induces growth arrest and cell death remain unclear. Recent evidence indicates that Taxol alters specific intracellular signal transduction events, such as the activation of Raf-1 kinase, that may be essential for drug-induced apoptosis. To determine whether Raf-1 kinase activation occurs at different concentrations of Taxol and in response to disruption of the normal microtubule cytoskeleton, A549 cells were treated with different concentrations of Taxol after which Raf-1 activation and the microtubule cytoskeleton were analyzed. Raf-1 activation was observed at Taxol concentrations of 9 nM and greater. However, disruption of the normal microtubule cytoskeleton was seen at lower Taxol concentrations (1-7 nM), indicating that this process begins in the absence of Raf-1 activation. Raf-1 activation correlated with the induction of a G2-M block. Depletion of Raf-1 resulted in the accumulation of cells in the G2-M phase of the cell cycle, suggesting that Raf-1 may play an important role in the passage through mitosis. Supporting this idea, Raf-1 was activated in mitotic cells. Low concentrations of Taxol induced cell death in the absence of Raf-1 activation, indicating that Taxol-induced cell death is not dependent on Raf-1 activation. At concentrations of drug lower than the critical concentration required for Raf-1 activation, p53 and p21(WAF-1) were induced independently of Raf-1. These studies suggest that Taxol-mediated cell death may result from two different mechanisms. At low Taxol concentrations (< 9 nM), cell death may occur after an aberrant mitosis by a Raf-1 independent pathway, whereas at higher Taxol concentrations (> or = 9 nM) cell death may be the result of a terminal mitotic arrest occurring by a Raf-1-dependent pathway.
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PMID:Mechanisms of Taxol-induced cell death are concentration dependent. 972 70

The induction of apoptosis by Taxol was investigated in human leukemic U937 cells. Treatment of U937 cells with 20 nM Taxol for 24 h induced apoptosis in 30-40% of cells, which resulted in an 80% growth inhibition 3 days after treatment. Synchronous cells at different cell cycle stages exhibited different sensitivities toward Taxol, and their reversion by certain protein kinase inhibitors was also phase specific. Kinetic studies of cell cycle progress reveal that Taxol accelerates the progression of the cell cycle, which facilitates the process of apoptosis, especially for cells initially in the G1 phase. This acceleration may result from transient activation of p42/ 44 mitogen-activated protein (MAP) kinase, because inhibition of upstream MAP/extracellular signal-regulated kinase kinase (MEK1/2) by PD98059 reversed this effect. However, the delayed S-G2-M-phase progression by PD98059 was insignificant. The results suggest that MAP kinase may not only mediate cell cycle progress but may also participate in the apoptosis pathway for cells originally in S phase.
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PMID:Role of mitogen-activated protein kinase in taxol-induced apoptosis in human leukemic U937 cells. 975 Nov 20

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