Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The antineoplastic agent paclitaxel (TAXOL) is a potent inhibitor of tumor cell division and a useful chemotherapeutic for the treatment of refractory ovarian and breast carcinoma. Multiple immune system actions have been ascribed to paclitaxel, including the capacity to induce macrophage antitumor cytotoxic molecule production. However, T-cells are susceptible to paclitaxel's cytostatic functions, and no studies have investigated the effects of direct paclitaxel administration on lymphocyte function in the tumor-bearing host (TBH). Because paclitaxel is currently used as an antitumor chemotherapeutic agent and tumor growth alters leukocyte functions, we assessed T-cell function following chemotherapeutic-type paclitaxel treatment. Paclitaxel administration significantly compromised the proliferative capacity of both normal host and TBH lymphocytes in vitro. Although tumor growth impaired T-cell interferon-gamma (IFN-gamma) production, paclitaxel treatment did not alter IFN-gamma. We speculate that the immunostimulatory cytokine interleukin-12 (IL-12), which promoted T-cell activation and proliferation, was capable of reversing paclitaxel-mediated immunosuppression. Exogenous IL-12 fully reconstituted proliferative reactivity and enhanced IFN-gamma production by both normal host and TBH lymphocytes in vitro. Collectively, these data suggest that chemotherapeutic paclitaxel regimens impart significant but reversible inhibition of lymphocyte populations, and IL-12 may be a useful ancillary immunotherapeutic to overcome paclitaxel-induced modulation of lymphocyte activities.
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PMID:Interleukin-12 overcomes paclitaxel-mediated suppression of T-cell proliferation. 980 29

Paclitaxel, a naturally occurring antimitotic agent, has shown efficacy in the treatment of certain solid tumors, particularly metastatic breast carcinoma and drug-refractory ovarian cancers. Recent studies have demonstrated that paclitaxel, in addition to its effects on microtubules and cell cycle arrest, possesses significant cell-killing activity in solid tumor cells by the induction of apoptosis. However, the mechanism by which paclitaxel leads to cell death and its relationship with paclitaxel-induced mitotic arrest is presently unclear. In this study, we attempted to determine whether pre-arresting tumor cells at other phases of the cell cycle could affect paclitaxel-induced apoptosis. We found that 5-fluorouracil (5-FU), another antineoplastic agent that usually arrests tumor cells at the G1-S phase of the cell cycle, could significantly repress the cell-killing activity of paclitaxel in solid tumor cells, even when it was added simultaneously with paclitaxel. Further studies indicated that 5-FU actually inhibits the cytotoxic effects of paclitaxel on both mitotic arrest and apoptotic cell death, suggesting that 5-FU might interfere with paclitaxel cytotoxicity at an early stage, probably by preventing tumor cells from entering G2-M phase. Because recent clinical trials have used a combination of paclitaxel and 5-FU in the treatment of metastatic breast cancers, our results also suggest that the combination of these two drugs might not be as valuable in clinical chemotherapy.
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PMID:5-Fluorouracil interferes with paclitaxel cytotoxicity against human solid tumor cells. 981 58

The effect of paclitaxel on the adhesive and motility properties of human ovarian carcinoma cell lines was investigated. Paclitaxel significantly inhibited the motility of OVCAR 5, SK-OV-3, and HOC-1OTC ovarian carcinoma cell lines (IC50 = 2.1 x 10(-8), 2 x 10(-9), and 1.9 x 10(-8) m, respectively) but did not affect the adhesion of these cells to the subendothelial matrix. The association between inhibition of motility and cytotoxic activity was investigated using an A2780 subclone (1A9) and three paclitaxel-resistant variants (designated 1A9/PTX22, 1A9/PTX10, and 1A9/PTX18). Although paclitaxel did not significantly affect the adhesion to subendothelial matrix of the sublines, it completely inhibited their migration. Inhibition of migration was similar in 1A9 cells and the resistant sublines, with an IC50 of 1 x 10(-8) for 1A9 cells and 5.4 x 10(-9), 1.1 x 10(-8), and 5.2 x 10(-9) m for 1A9/PTX22, 1A9/PTX10, and 1A9/PTX18, respectively. Paclitaxel inhibited motility induced by soluble attractant (chemotaxis) and immobilized attractant (haptotaxis). Inhibition of cell motility occurred in the absence of an antiproliferative effect, because higher concentrations of paclitaxel were required to inhibit tumor cell proliferation (IC50 = 1.9 x 10(-7) and 4.6 x 10(-6), 1 x 10(-5), and 3.1 x 10(-6) m for 1A9 and 1A9/PTX22, 1A9/PTX10, and 1A9/PTX18, respectively). These data show that paclitaxel is a potent inhibitor of ovarian carcinoma cell motility and that this activity is independent of its cytotoxic activity.
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PMID:Paclitaxel (Taxol(R)) inhibits motility of paclitaxel-resistant human ovarian carcinoma cells. 981 23

Endothelial cell migration is a critical event during angiogenesis, and inhibitors of cell motility can affect the angiogenic process. Paclitaxel (Taxol(R)), a microtubule-stabilizing antineoplastic cytotoxic drug, inhibits motility and invasiveness of several cell types. The aim of this study was to investigate the effect of paclitaxel on endothelial cell functions and on angiogenesis. In vivo, paclitaxel (20-28 mg/kg i.v.) significantly inhibited the angiogenic response induced by tumor cell supernatant embedded in a pellet of reconstituted basement membrane (Matrigel) injected s.c. into C57BL/6N mice. In vitro, paclitaxel inhibited endothelial cell proliferation, motility, invasiveness, and cord formation on Matrigel in a dose-dependent manner. The antiangiogenic activity of paclitaxel was not linked to its cytotoxicity, since inhibition of endothelial cell chemotaxis and invasiveness occurred at drug concentrations which did not affect endothelial cell proliferation. Another cytotoxic drug, cisplatin, that inhibited endothelial cell proliferation in vitro, did not affect angiogenesis in vivo. These data indicate that paclitaxel has a strong antiangiogenic activity, a property that might contribute to its antineoplastic activity in vivo.
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PMID:The microtubule-affecting drug paclitaxel has antiangiogenic activity. 981 39

The antineoplastic agent paclitaxel (Taxol) mimics bacterial lipopolysaccharide (LPS) in normal host macrophages (Mphis), enhancing antitumor cytotoxicity in vitro. Because paclitaxel is used as an antitumor chemotherapeutic agent and tumor growth alters Mphi phenotype and function, we assessed effector molecule production and cytotoxic activity by normal host and tumor-bearing host (TBH) Mphis following paclitaxel administration. Paclitaxel treatment, duplicating human chemotherapeutic regimens, primed normal host splenic Mphis for enhanced production of the cytotoxic mediator nitric oxide (NO); in contrast, paclitaxel's NO-inducing activity was significantly suppressed in TBHs. In contrast to NO regulation, Mphi capacity for tumor necrosis factor-alpha (TNF-alpha) production in both normal hosts and TBHs was enhanced by paclitaxel administration. Although tumor growth modulated paclitaxel-induced Mphi NO production, paclitaxel administration enhanced both normal host and TBH Mphi cytotoxic antitumor activity. Blocking NO with a competitive inhibitor abrogated Mphi cytotoxicity, suggesting paclitaxel-induced TBH Mphi NO production, although suboptimal, remains sufficient to mediate antitumor activity. These data demonstrate that paclitaxel's in vivo immune activities are differentially regulated during tumor burden and suggest that paclitaxel's immunotherapeutic functions may contribute to its success as an anticancer agent.
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PMID:Tumor growth modulates macrophage nitric oxide production following paclitaxel administration. 983 58

LNCaP tumors were treated by either administration of paclitaxel, thalidomide or by orchiectomy in order to determine their relationship with markers pertaining to the process of tumor growth, apoptosis or angiogenesis. Forty rats bearing LNCaP tumors were divided into 4 groups of 10 and treated by either paclitaxel (20 mg/kg x 5 days); thalidomide (200 mg/kg x 5 days/week x 5 weeks); or orchiectomy. After 6 weeks serum samples were removed for PSA determination and the animals sacrificed for evaluation of: A) tumor volume; B) tissue bcl-2, cyclin D, PSA and factor VIII immunohistochemically graded (0-5 scale) for marker expression; and C) serum PSA. Comparisons were made to untreated LNCaP tumors. Statistically significant differences were determined using the nonparametric Mann-Whitney test. Paclitaxel produced significant differences in volume (p < 0.001), expression of bcl-2 (p < 0.043), cyclin D (p < 0.023), tissue PSA (p < 0.001) and serum PSA (p < 0.019) levels. Thalidomide altered expression of bcl-2 (p < 0.011) and tissue PSA (p < 0.002). Orchiectomy altered volume (p < 0.002) and bcl-2 expression (p < 0.001). All three therapies have been suggested for prostate cancer and each produced alterations in accepted markers for treatment response (either reduced volume or serum PSA). Paclitaxel significantly influenced the most markers. Of interest was that all treatments, especially thalidomide, a known antiangiogenesis agent, reduced factor VIII, although not significantly. Evidently each treatment evokes different pathways of activity.
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PMID:Paclitaxel is more effective than thalidomide in inhibiting LNCaP tumor growth in a prostate cancer model. 1002 26

The established antitumor efficacy of paclitaxel against a variety of human tumors has led to pre-clinical and clinical studies to develop the paclitaxel-based combination regimens. We examined in vivo the antitumor activity and toxicity of the combination of paclitaxel and each of 8 antitumor agents, currently in clinical use, against M-109 murine lung carcinoma implanted subcutaneously into male CDF1 mice. Paclitaxel given intravenously at 24 mg/kg/day on a schedule of consecutive daily injections for 5 days (d1-5) induced reproducibly, in 6 experiments, a significant (37-82%) increase in the survival time of tumor-bearing mice over saline-treated control mice. Cisplatin at 4 and 2 mg/kg/day given intravenously on the same treatment schedule showed no significant antitumor activity when given alone; however, the combination of paclitaxel at 24 mg/kg/day (d1-5) followed by cisplatin at a dose of 2 mg/kg/day (d6-10) induced a significant (P < 0.05) prolongation of the survival time of tumor-bearing mice compared with the group given paclitaxel alone. On the other hand, treatment with these drugs on the reverse sequence caused toxic deaths of all mice. Such sequence-dependent toxic death of mice was also observed with the combination of paclitaxel and carboplatin, etoposide or methotrexate. The combination of paclitaxel and adriamycin, cyclophosphamide, ranimustine or vinblastine (VLB) showed a sequence-independent antitumor activity and a more-than-additive therapeutic effect was observed with the combination of paclitaxel and either VLB or ranimustine. Although the drug administration schedules used here may not be directly applicable to the clinic, knowledge of the nature of the sequence-dependency in paclitaxel-based combination chemotherapy should be useful in the design of clinical trials.
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PMID:Schedule-dependent and -independent antitumor activity of paclitaxel-based combination chemotherapy against M-109 murine lung carcinoma in vivo. 1008 96

Paclitaxel is a promising drug for the treatment of breast and ovarian cancer. It also may play a role in mobilization of peripheral blood stem cells (PBSC), as an alternative to cyclophosphamide (Cy). We investigated the PBSC-mobilizing potential of paclitaxel compared to Cy in a murine model. C57B1/6 mice were primed with intraperitoneal injections of Cy (200 mg/kg) or paclitaxel (60 mg/kg) and were sacrificed 4, 6, 8, or 10 days later. Spleens were harvested and processed to obtain low-density mononuclear cells that were used as PBSC. The number of hematopoietic progenitors (CFU-C) on day 4 was significantly higher in the paclitaxel group when compared to mice receiving Cy (72.0 +/- 1.8 vs 9.8 +/- 2.8, p < 0.001). By day 6, CFU-C became significantly higher in the Cy-treated group compared to the paclitaxel-treated group (195.6 +/- 31.9 vs 95.8 +/- 20.7, p < 0.05) and this trend was maintained. However, the total number of CFU-C recovered per spleen was greater in the paclitaxel-treated group (1.27 x 10(5) +/- 0.53 x 10(5) vs 1.06 x 10(5) +/- 0.36 x 10(5), NS). In contrast to paclitaxel, mobilization with Cy was associated with marked perturbation in the proportion of lymphoid cell subsets in the PBSC population along with functional impairment of lymphocytes. After 24 hours of in vitro IL-2 activation, the cytotoxic effector cell function of the Cy-mobilized PBSC population was lower than that of paclitaxel-mobilized cells when tested against three tumor cell lines (B16, melanoma; C1498, AML; and Yak-1, lymphoma). These results indicate that paclitaxel is an efficient mobilizer of PBSC, leading to early (day 4 to 6) mobilization of PBSC when compared to Cy (day 6 to 8). In addition, paclitaxel was associated with less perturbation of phenotypic and functional characteristics of cells contained within the mobilized PBSC population.
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PMID:Paclitaxel vs cyclophosphamide in peripheral blood stem cell mobilization: comparative studies in a murine model. 1008 19

Paclitaxel is an anticancer agent with low aqueous solubility. More extensive clinical use of this drug is somewhat delayed due to lack of appropriate delivery vehicles. An attempt was made to adopt an o/w emulsion as the drug carrier which incorporated paclitaxel in the triacylglycerol stabilized by a mixed-emulsifier system. A suitable formulation was found in this study: 0.75 mg/ml paclitaxel, 10% (w/v) oil blend, 4% (w/v) EPC, 3% (w/v) Tween 80 in 2.25% (w/v) glycerol solution. The formulated emulsion has very good stability when stored at 4 degrees C, and the paclitaxel containment efficiency can be maintained above 95% and the mean emulsion diameter around 150 nm for at least 3 months. Paclitaxel-emulsion displayed cytotoxicity against HeLa cells with IC50 at 30 nM. The average life span of ascitic-tumor-bearing mice was prolonged significantly by the treatment of paclitaxel-emulsion (P<0.05). The formulated emulsion is a promising carrier for paclitaxel and other lipophilic drugs.
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PMID:Development of nonionic surfactant/phospholipid o/w emulsion as a paclitaxel delivery system. 1009 52

Treatment of choroidal melanoma by chemotherapy is usually unsuccessful, with response rates of less than 1% reported for dacarbazine (DTIC)-containing regimens which show 20% or more response rates in skin melanoma. Recently, we reported the activity of several cytotoxic agents against primary choroidal melanoma in an ATP-based tumour chemosensitivity assay (ATP-TCA). In this study, we have used the same method to examine the sensitivity of choroidal melanoma to combinations suggested by our earlier study. Tumour material from 36 enucleated eyes was tested against a battery of single agents and combinations which showed some activity in the previous study. The combination of treosulfan with gemcitabine or cytosine arabinoside showed consistent activity in 70% and 86% of cases, respectively. Paclitaxel was also active, particularly in combination with treosulfan (47%) or mitoxantrone (33%). Addition of paclitaxel to the combination of treosulfan + cytosine analogue added little increased sensitivity. For treosulfan + cytosine arabinoside, further sequence and timing experiments showed that simultaneous administration gave the greatest suppression, with minor loss of inhibition if the cytosine analogue was given 24 h after the treosulfan. Administration of cytosine analogue 24 h before treosulfan produced considerably less inhibition at any concentration. While we have so far been unable to study metastatic tumour from choroidal melanoma patients, the combination of treosulfan with gemcitabine or cytosine arabinoside shows activity ex vivo against primary tumour tissue. Clinical trials are in progress.
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PMID:Combination chemotherapy for choroidal melanoma: ex vivo sensitivity to treosulfan with gemcitabine or cytosine arabinoside. 1018 95


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