Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P08758 (annexin V)
 9,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Monensin, a Na+ ionophore, regulates many cellular functions, including apoptosis. We investigated the in vitro antiproliferative effect of monensin on nine human lymphoma cell lines. Monensin significantly inhibited the proliferation of all the lymphoma cell lines examined with a 50% inhibition concentration of about 0.5 micromol/l, and induced a G1 and/or a G2-M phase arrest in these cell lines. To address the antiproliferative mechanism of monensin, we examined the effect of this drug on cell-cycle-related proteins in CA46 cells (both G1 and G2 arrest) and Molt-4 cells (G2 arrest). Treatment with monensin for 72 h decreased CDK4 and cyclin A levels in CA46 cells, and cdc2 levels in Molt-4 cells. In monensin-treated CA46 cells, increased p21-CDK2, p27-CDK2 and p27-CDK4 complex forms were observed. And, in monensin-treated Molt-4 cells, increased p21-cdc2 complex form was detected. Furthermore, the activities of CDK2- and CDK4-associated kinases were reduced in association with Rb hypophosphorylation in monensin-treated CA46 cells. The activity of cdc2-associated kinase was decreased in both cell lines, which was accompanied by induction of Wee1. Also, monensin induced apoptosis in these cell lines, as evidenced by annexin V binding assay and flow cytometric detection of sub-G1 DNA content. This apoptotic process was associated with loss of mitochondria transmembrane potential (Delta(psi)m). Taken together, these results demonstrated for the first time that monensin potently inhibits the proliferation of human lymphoma cell lines via cell cycle arrest and apoptosis.
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PMID:Monensin-mediated growth inhibition in human lymphoma cells through cell cycle arrest and apoptosis. 1240 77

The objective of this study was to explore the effect of p21(WAF1) on the sensitivity to chemotherapeutic agent VP-16, etoposide, in leukemia cell line K562. A p21(WAF1) retroviral expression vector was constructed, and mediated by FuGENE(TM)6, it was transfected into K562 cells, which without p21(WAF1) expression. The ecotropic expression of p21(WAF1) in K562 cells was identified by RT-PCR and Western blot, and named K562-p21(WAF1) cell. The K562-p21(WAF1) cells were exposed to VP-16 at different concentrations and different times, then, the sensitivity to VP-16 was examined by cell viability and MTT assay, the apoptosis induced by VP-16 was examined by DNA fragments electrophoresis and flow cytometric Annexin V-PI dual labeling technique. The results showed that the ecotropic expression of p21(WAF1) decreased the sensitivity of K562 cells to VP-16. After treatment of VP-16, the DNA ladder was examined in control K562-neo cells at 20 microgram/ml, but in K562-p21(WAF1) cells at 80 microgram/ml. With FCM, the number of apoptotic K562-neo cells was 14.9% and 25.4% respectively after treated with 20 microgram/ml VP-16 for 12 and 24 hours, and it was 6.94% and 10.96% in K562-p21(WAF1) cells. Our results suggest that the expression of p21(WAF1) could reduce the sensitivity of K562 cells to VP-16 and inhibit the apoptosis of K562 cells
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PMID:[p21(WAF1) transfection decreases sensitivity of K562 cells to VP-16]. 1251 33

Despite the growing interest in selenium intervention of prostate cancer in humans, scanty information is currently available on the molecular mechanism of selenium action. Our past research indicated that methylseleninic acid (MSA) is an excellent reagent for investigating the anticancer effect of selenium in vitro. The present study was designed to examine the cellular and molecular effects of MSA in PC-3 human prostate cancer cells. After exposure to physiological concentrations of MSA, these cells exhibited a dose- and time-dependent inhibition of growth. MSA retarded cell cycle progression at multiple transition points without changing the proportion of cells in different phases of the cell cycle. Flow cytometric analysis of annexin V- and propidium iodide-labeled cells showed a marked induction of apoptosis by MSA. Array analysis with the Affymetrix human genome U95A chip was then applied to profile the gene expression changes that might mediate the effects of selenium. Gene profiling was done in a time course experiment (at 12, 24, 36, and 48 h) using synchronized cells. A large number of potential selenium-responsive genes with diverse biological functions were identified. These genes fell into 12 clusters of distinct kinetics pattern of modulation by MSA. The expression changes of 10 genes known to be critically involved in cell cycle regulation were selected for verification by Western analysis to determine the reliability of the array data. An agreement rate of 70% was obtained based on these confirmation experiments. The array data enabled us to focus on the role of potential key genes (e.g., GADD153, CHK2, p21(WAF1), cyclin A, CDK1, and DHFR) that might be targets of MSA in impeding cell cycle progression. The data also provide valuable insights into novel biological effects of selenium, such as inhibition of cell invasion, DNA repair, and stimulation of transforming growth factor beta signaling. The present study demonstrates the utility of a genome-wide analysis to elucidate the mechanism of selenium chemoprevention.
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PMID:Delineation of the molecular basis for selenium-induced growth arrest in human prostate cancer cells by oligonucleotide array. 1251 77

Terfenadine (TF), a highly potent histamine H1 receptor antagonist, has been shown to exert no significant central nervous system side effects in clinically effective doses. In this study, we demonstrated that TF induced significant growth inhibition of human cancer cells, including Hep G2, HT 29, and COLO 205 cells, through induction of G(0)/G(1) phase cell-cycle arrest. The minimal dose of TF induced significant G(0)/G(1) arrest in these cells was 1-3 microM. The protein levels of p53, p21/Cip1, and p27/Kip1 were significantly elevated, whereas the kinase activities of cyclin-dependent kinase 2 (CDK2) and CDK4 were inhibited simultaneously in the TF-treated cells. On the other hand, significant apoptosis, but not G(0)/G(1) arrest, was induced in the HL 60 (p53-null) or Hep 3B (with deleted p53) cells when treated with TF (3-5 microM). To clarify the roles of p21/Cip1 and p27/Kip1 protein expression, which was involved in G(0)/G(1) arrest and apoptosis induced by TF in human cancer cells, antisense oligodeoxynucleotides (ODNs) specific to p21/Cip1 and p27/Kip1 were used, and the expression of the p21/Cip1 and p27/Kip1 were monitored by immunoblotting analysis. Our data demonstrated that the percentage of the apoptotic cells detected by annexin V/PI analysis in the TF-treated group was clearly attenuated by pretreatment with p27/Kip1-specific ODNs. These results indicated that p27/Kip1 (but not p21/Cip1) protein indeed played a critical role in the TF-induced apoptosis. We also demonstrated that the TF-induced G(0)/G(1) cell-cycle arrest effect was not reversed by TF removal, and this growth inhibition lasted for at least 7 d. Importantly, the occurrence of apoptosis and cell growth arrest was not observed in the TF-treated normal human fibroblast, even at a dose as high as 25 microM. Our study showed the molecular mechanisms for TF-induced cell growth inhibition and the occurrence of apoptosis in human cancer cells.
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PMID:Molecular mechanisms of G0/G1 cell-cycle arrest and apoptosis induced by terfenadine in human cancer cells. 1272 Feb 99

Previously, we showed that monensin, Na+ ionophore, potently inhibited the growth of acute myelogenous leukemia and lymphoma cells. Here, we investigated the antiproliferative effect of monensin on human myeloma cell lines. Monensin significantly inhibited the proliferation of myeloma cell lines examined with IC50 of about 1 micro M. Cell cycle analysis indicated that monensin induced a G1 and/or a G2-M phase arrest in these cell lines. To address the mechanism of the antiproliferative effect of monensin, we examined the effect of this drug on cell cycle-related proteins in NCI-H929 cells. Monensin decreased the levels of CDK2, CDK6, cdc2, cyclin A, cyclin B1, cyclin D1 and cyclin E proteins but did not alter CDK4 protein. While p21 was increased by monensin, p27 was not. In addition, monensin markedly enhanced the binding of p21 with CDK6 and cdc2. Furthermore, the activities of CDK2- and CDK6-associated kinases were reduced in association with hypophosphorylation of Rb protein. The activity of cdc2-associated kinase was decreased, which was accompanied by reduction of cdc25C phosphatase. Also, monensin induced apoptosis in myeloma cells, as evidenced by annexin V binding assay and flow cytometric detection of sub-G1 DNA content. This apoptotic process was associated with down-regulation of Bcl-2, loss of mitochondria transmembrane potential (Deltapsim) and an increase of caspase-3 activity. In addition, monensin caused the up-regulation of ERK and p38 kinase activities. Taken together, these results have demonstrated for the first time that monensin potently inhibited the proliferation of human myeloma cell lines, especially NCI-H929 cells, via cell cycle arrest in association with p21 and apoptosis.
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PMID:Monensin-mediated growth inhibition in NCI-H929 myeloma cells via cell cycle arrest and apoptosis. 1279 94

The clinically relevant polyamine analogue N(1),N(11)-diethylnorspermine (DENSPM) inhibits cell growth by down-regulating polyamine biosynthesis, up-regulating polyamine catabolism at the level of spermidine/spermine N(1)-acetyltransferase (SSAT), and depleting intracellular polyamine pools. Among human melanoma cell lines, the analogue causes rapid apoptosis in SK-MEL-28 cells and a sharp G(1) arrest in MALME-3M cells. This study reveals that DENSPM potently activates the mitogen-activated protein kinase (MAPK) pathways in melanoma cells and investigates the role of this response in determining cellular outcomes. Onset of apoptosis was preceded by an intense phosphorylation of the MAPKs, including extracellular signal-regulated kinase 1/2, c-Jun NH(2)-terminal kinase, and p38 in both SK-MEL-28 and MALME-3M cells. A panel of DENSPM analogues differing only in their ability to induce SSAT was used to show that MAPK activation was causally linked to induction of SSAT activity and related oxidative events. The latter was confirmed with the polyamine oxidase inhibitor MDL-75275 and the antioxidant N-acetyl-L-cysteine, which when used in combination with DENSPM, decreased MAPK activation and as previously shown, reduced apoptosis. The MAP/extracellular signal-regulated kinase-1 inhibitor PD 98059 reduced activation of all three kinases but failed to alter apoptosis in DENSPM-treated SK-MEL-28 cells. By contrast, the inhibitor prevented p21(waf1/cip1) induction and enhanced apoptosis in MALME-3M cells as indicated by accelerated caspase-3 activation and positive annexin V staining. The generality of this effect was demonstrated in DENSPM-treated A375 and LOX human melanoma cells. Taken together, the importance of the MAPK pathways in determining the biological response to DENSPM treatment is dependent on the genetic environment of the cell.
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PMID:The role of mitogen-activated protein kinase activation in determining cellular outcomes in polyamine analogue-treated human melanoma cells. 1283 50

We demonstrated that enhancement of X-ray-induced apoptosis/rapid cell death by wortmannin accompanied by increased activation of JNK/SAPK in human leukemia MOLT-4 cells. Rapid cell death/apoptosis was determined either by the dye exclusion test or by the appearance of Annexin V-positive cells and cleaved PARP fragments. Enhancement was observed only at higher concentrations of wortmannin, i.e. 1 microM or more. At these high concentrations, both DNA-PK and ATM were inhibited. X-ray-induced phosphorylation of Ser 15 of p53/TP53, accumulation of both p53/TP53 and p21/WAF1/CDKN1A, and phosphorylation of XRCC4 were all suppressed. The enhancement of apoptosis/rapid cell death by wortmannin was prevented by addition of caspase inhibitors, Z-VAD-FMK or Ac-DEVD-CHO, or by transfection and overexpression of mouse Bcl2, which is known as an anti-apoptosis protein. The requirement for a high concentration of wortmannin, i.e. 1 microM or more, indicates that inhibition of both DNA-PK and ATM was necessary for the enhanced apoptosis/rapid cell death. Phosphorylation of AKT/PKB was completely suppressed at a much lower concentration, i.e. 0.1 microM wortmannin, where no enhancement of X-ray-induced apoptosis/rapid cell death was observed. On the other hand, X-ray-induced phosphorylation of JNK and its kinase activity as well as apoptosis/rapid cell death were all significantly enhanced only at high concentrations of wortmannin, i.e. 1 microM or more. Furthermore, the extent of enhancement of both JNK phosphorylation and of apoptosis/rapid cell death by wortmannin was less in Rh1a cells, which are ceramide- and radiation-resistant variant cells compared to the parental MOLT-4 cells. Therefore, activation of the JNK pathway was considered important for the enhancement of X-ray-induced apoptosis/rapid cell death of MOLT-4 cells by wortmannin, because of the requirement for a higher concentration of wortmannin than that required for inhibition of AKT phosphorylation. The suppression of the AKT-dependent pathway by wortmannin may have some underlying role in activating the JNK pathway toward the enhancement of cell death in the current system.
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PMID:Wortmannin-enhanced X-ray-induced apoptosis of human T-cell leukemia MOLT-4 cells possibly through the JNK/SAPK pathway. 1296 28

Amifostine is used as a cytoprotective agent in cancer treatments. Amifostine protects from apoptosis in some models and has been used as hematopoiesis stimulator in myeloid malignancies. As the apoptosis induced by many antitumoral agents is mediated by p53, we studied the effect of amifostine on p53-mediated apoptosis. We used human myeloid leukemia K562 and NB4 cells expressing the temperature-conditional p53-Val(135) mutant. Both cell lines undergo apoptosis at 32 degrees C due to the presence of p53 in wild-type conformation. We found that amifostine dramatically reduced apoptosis by p53 in both cell lines, as assessed by cell morphology, annexin V binding, fraction of sub-G(1) cells, and DNA laddering. To explore the mechanism responsible for this apoptosis protection, we tested the effect of amifostine on p53 transcriptional activity. We found that amifostine reduced p53-mediated transactivation of target promoters in NB4 and K562. Macroarray analysis confirmed that several p53 target genes as p21(Waf1), mdm2, gadd45, pig8, and pig3 were down-regulated at the mRNA level by amifostine in NB4 and K562. Also, c-myc was up-regulated by amifostine in K562 in the presence of p53, consistently with the impairment of p53-mediated apoptosis exerted by c-Myc in these cells. We conclude that amifostine impairs p53-dependent apoptosis of myeloid leukemia cells by reducing the activation of apoptosis-related genes. Our results open the possibility that amifostine could reduce the effectiveness of antitumoral treatments when it is dependent on active p53.
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PMID:Amifostine impairs p53-mediated apoptosis of human myeloid leukemia cells. 1455 8

We have synthesized a histone deacetylase inhibitor, NVP-LAQ824, a cinnamic hydroxamic acid, that inhibited in vitro enzymatic activities and transcriptionally activated the p21 promoter in reporter gene assays. NVP-LAQ824 selectively inhibited growth of cancer cell lines at submicromolar levels after 48-72 h of exposure, whereas higher concentrations and longer exposure times were required to retard the growth of normal dermal human fibroblasts. Flow cytometry studies revealed that both tumor and normal cells arrested in the G(2)-M phase of the cell cycle after compound treatment. However, an increased sub-G(1) population at 48 h (reminiscent of apoptotic cells) was observed only in the cancer cell line. Annexin V staining data supported our hypothesis that NVP-LAQ824 induced apoptosis in tumor and transformed cells but not in normal cells. Western blotting experiments showed an increased histone H3 and H4 acetylation level in NVP-LAQ824-treated cancer cells, suggesting that the likely in vivo target of NVP-LAQ824 was histone deacetylase(s). Finally, NVP-LAQ824 exhibited antitumor effects in a xenograft animal model. Together, our data indicated that the activity of NVP-LAQ824 was consistent with its intended mechanism of action. This novel histone deacetylase inhibitor is currently in clinical trials as an anticancer agent.
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PMID:Selective growth inhibition of tumor cells by a novel histone deacetylase inhibitor, NVP-LAQ824. 1474 86

We have developed a cinnamic hydroxamic class of histone deacetylase inhibitors of which a prototype was designated as NVP-LAQ824. NVP-LAQ824, inhibits histone deacetylase enzymatic activities in vitro and transcriptionally activated the p21 promoter in reporter gene assays. When tested on a variety of solid tumour cell lines, NVP-LAQ824 exhibited selective anti-proliferative effects, inducing cell growth inhibition in some, while inducing cell death in others. To induce cell death, a minimum of 16 h exposure to NVP-LAQ824 is required. Flow cytometry studies revealed that both tumour cell lines and normal diploid fibroblasts arrested in the G2/M phase of the cell cycle after compound treatment. However, an increased sub-G1 population at 48 h (reminiscent of apoptotic cells) was only observed in the cancer cell lines. Annexin V staining data confirmed that NVP-LAQ824 induced apoptosis in tumour cells, but not in normal cells. To relate HDAC inhibition to the anti-proliferative effects of NVP-LAQ824, expression of HDAC 1 was inhibited using antisense and this was sufficient to activate p21 expression, hypophosphorylate Rb and inhibit cell growth. Furthermore, tumour cells treated with NVP-LAQ824 caused acetylation of HSP90 and degradation of its cargo oncoproteins. Finally, NVP-LAQ824 exhibited antitumour effects in a xenograft animal model. To determine if NVP-LAQ824 inhibited histone deacetylases in vivo, tumours treated with the drug were immunoblotted with an antibody specific for acetylated histones H3 and H4 and the results indicated increased histone H3 and 114 acetylation levels in NVP-LAQ824 treated cancer cells. Together, our data indicated that the activity of NVP-LAQ824 was consistent with its intended mechanism of action. This novel HDAC inhibitor is currently in clinical trials as an anticancer agent.
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PMID:Molecular and cellular basis for the anti-proliferative effects of the HDAC inhibitor LAQ824. 1517 Dec 59


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