UMLS:C1140680 - FACTA Search

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Query: UMLS:C1140680 (ovarian cancer)
28,141 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Anthracyclines have been in clinical practice since the 1960s and represent one of the most commonly used classes of anticancer drugs. Doxorubicin (adriamycin) is one of the first anthracyclines in clinical use, has a broad anti-tumor spectrum, and has been used against hematopoietic malignancies such as lymphoma, myeloma and leukemia, and solid tumors such as breast cancer, ovarian cancer and sarcomas. There are two chemotherapeutic regimens containing doxorubicin that have been established as the state of the art therapy against malignant lymphomas. One is ABVD therapy for Hodgkin's lymphoma, and the other is CHOP therapy for aggressive non-Hodgkin's lymphoma (NHL). In these regimens as well as the regimen for breast cancer, doxorubicin is delivered by bolus intravenous infusion for 30 minutes to one hour. The use of continuous infusion schedules of doxorubicin for 72 to 96 hours has been reported to reduce the incidence of cardiac toxicity somewhat, providing a pharmacokinetic basis for the hypothesis that high peak concentrations are associated with an increased incidence of cardiotoxicity. VAD regimen for myeloma, and EPOCH regimen for relapsed aggressive NHL have been reported and used. However, this approach is not widespread because of concern over compromising antitumor efficacy, unpredictable toxicities, and logistical issues. Continuous infusion schedules of doxorubicin might be reevaluated for the clinical benefit especially for patients with breast cancer treated by trastuzumab and doxorubicin, because trastuzumab was reported to enhance cardiac toxicity.
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PMID:[Adriamycin (doxorubicin)]. 1168 Dec 38

A herbal complex consisting of Hoelen, Angelicae radix, Scutellariae radix and Glycyrrhizae radix suppressed cell viability and telomerase activity in hormone-refractory and chemo-resistant cancer cell lines, namely poorly differentiated uterine endometrial cancer cell line AN3 CA, adriamycin-resistant breast cancer cell line MCF7/ADR and cisplatin-resistant ovarian cancer cell line A2780. Furthermore, the herbal complex suppressed the expression of the full length of human telomerase reverse transcriptase (hTERT), which is related to telomerase activity. This indicates that the herbal complex can suppress the tumor growth of chemoendocrine resistant cancers, at least in part via suppression of telomerase activity associated with down-regulated hTERT.
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PMID:Herbal complex suppresses telomerase activity in chemo-endocrine resistant cancer cell lines. 1176 37

This study was performed in order to evaluate the toxicities, progression-free and overall survival of patients with responsive residual or recurrent ovarian cancer treated with high-dose chemotherapy. Twenty-seven patients were treated. Doxorubicin, 165 mg/m(2) over 96 h (days -12 to -8), etoposide 700 mg/m(2) every day x3 (days -6 to -4), and cyclophosphamide 4.2 g/m(2) on d -3 was followed by stem cells and granulocyte colony-stimulating factor. The median days of granulocyte count <500/microl was 14 (range 10-42) and platelets <20,000/microl was 13 (range 2-80). Median numbers of red cell and platelet transfusions were 15 (5-16) and 14 (4-103). Toxicity included mucositis requiring narcotic analgesia in all patients. Asymptomatic decreases in ejection fraction to values <50% were observed in four patients. No clinical congestive heart failure was observed. One death due to sepsis was observed. Median progression-free survival is 7.5 months (1.0-56 months); five patients remain alive, two of whom remain progression-free at 19.5 and 24.5 months post transplant. Median overall survival is 14.0 months (1-68 months). We conclude that high-dose anthracyclines may be safely administered to ovarian cancer patients. The short overall and progression-free survivals observed in our population suggest that this combination is not optimal.
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PMID:Phase II trial of high-dose intravenous doxorubicin, etoposide, and cyclophosphamide with autologous stem cell support in patients with residual or responding recurrent ovarian cancer. 1178 46

Human ovarian cancer cell lines, SKOV3 and its adriamycin-resistant substrain SKOV3/ADR and COC1 and its cisplatin-resistant substrain COC1/DDP, were subjected to acoustic exposure. The critical levels (LC), which resulted in no immediate cell killing, were determined in four cell lines, respectively. LC were the same in four cell lines. After being insonated by LC, cell proliferation and clone forming of SKOV3/ADR were suppressed but those of SKOV3 were not affected (1); cell reproduction of COC1 was triggered but that of COC1/DDP was not influenced (2); flow cytometry detected sub-G1 peaks in SKOV3/ADR and COC1/DDP (3). These findings suggested that there were differences in the responses to ultrasound exposure between chemosensitive and chemoresistant human ovarian cancer cells.
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PMID:Biological effects of ultrasound exposure on adriamycin-resistant and cisplatin-resistant human ovarian carcinoma cell lines in vitro. 1503 Jul 85

Ovarian cancer models were established in cyclophosphamide immunosuppressed mice by subrenal capsular cell fibrin clot transplantation. SKOV3 cancers were treated by adriamycin alone, or adriamycin combined with ultrasound exposure. SKOV3/ADR cancers were treated with adriamycin, as well as verapamil and insonation were administrated alone or concurrently. The results were: (1) Insonation alone could not suppress growth of tumours. (2) In SKOV3 cancers, ultrasound exposure potentiated the efficiency of adriamycin. (3) In SKOV3/ADR cancers, insonation reversed adriamycin resistance, but verapamil was not effective and no synergism existed between it and ultrasound. These findings revealed that ultrasound exposure enhanced the efficiency of adriamycin to both chemosensitive and chemoresistant ovarian cancers in vivo. Mechanisms were discussed.
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PMID:Treatment of transplanted adriamycin-resistant ovarian cancers in mice by combination of adriamycin and ultrasound exposure. 1515 57

Luteinizing hormone-releasing hormone (LHRH) and its receptor are frequently expressed in human ovarian and endometrial cancers and are part of an autocrine mechanism of growth control. We have previously shown that the LHRH analog Triptorelin induces activation of nucleus factor kappa B (NFkappaB) and reduces apoptosis induced by doxorubicin in human ovarian cancer cells EFO-21 and EFO-27. The present study was performed to investigate the anti-apoptotic effects of LHRH analogs on apoptosis induced by doxorubicin, UV-light and ligation of CD95 in human endometrial and ovarian cancer cells. We further investigated the interaction of the LHRH system with the apoptotic pathway focusing on the effector-protease caspase 3. Doxorubicin (100 nM) induced apoptosis in the LHRH-receptor-positive human endometrial cancer cell line Ishikawa and in the human ovarian cancer cell lines EFO-21 and NIH:OVCAR-3. Pretreatment for 24 h with native LHRH, the LHRH agonist Triptorelin or the LHRH antagonist Cetrorelix (100 nM) significantly reduced apoptosis induced by doxorubicin in these cells. In EFO-21 cells pretreatment with 100 nM Triptorelin also reduced UV-light-induced apoptosis from 76% to 62.7% (p<0.01). EFO-21 cells express CD95. Cross-linking of CD95 with monoclonal antibody anti-APO-1 (500 ng/ml) increased apoptosis from spontaneous rate to 10.3% to 38.3% in EFO-21 cells (p<0.001). Pre-treatment with Triptorelin did not reduce CD95-mediated apoptosis in these cells. LHRH analogs protect human endometrial and ovarian cancer cells from DNA-replication-dependent cytotoxic agent and UV-light-induced apoptosis, but not from CD95-mediated apoptosis.
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PMID:Luteinizing hormone-releasing hormone (LHRH) inhibits apoptosis induced by cytotoxic agent and UV-light but not apoptosis mediated through CD95 in human ovarian and endometrial cancer cells. 1527 47

Drug resistance, in particular multidrug resistance, is a serious problem that impedes the effectiveness of chemotherapy. Multidrug resistance results mainly from an enhanced efflux of drugs by drug pumps located on the cell membrane such as P-glycoprotein. In the study reported here we showed that EM012, a microtubule-interfering agent, is a weak substrate for P-glycoprotein and inhibited the proliferation of A2780/ADR human ovarian cancer cells, which possess multidrug resistance due to P-glycoprotein overexpression. A2780/ADR cells treated with EM012 exhibited pronounced mitotic arrest, developed large multilobed nuclei, and eventually died through the initiation of apoptosis. Intraperitoneal treatment of A2780/ADR xenograft tumors in athymic nude mice with EM012 significantly inhibited tumor progression through triggering apoptosis and conferred an apparent survival advantage. Furthermore, EM012 treatment did not cause detectable toxicity to normal tissues. These findings suggest that EM012 may serve as a novel chemotherapeutic agent for the treatment of multidrug-resistant human ovarian cancer.
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PMID:EM012, a microtubule-interfering agent, inhibits the progression of multidrug-resistant human ovarian cancer both in cultured cells and in athymic nude mice. 1569 Feb 3

Human ovarian cancer cell lines, SKOV3 and its adriamycin-resistant substrain SKOV3/ADR and COC1 and its cisplatin-resistant substrain COC1/DDP, were exposed to nonlethal ultrasound. Ultrastructures in sham-insonated and insonated cells were inspected by transmission electron microscopy, and cytochrome C in cytosol was determined by enzyme-linked immunosorbent assay. Ultrasound exposure led to no significant changes in SKOV3/ADR cells, but tumid mitochondria occurred in SKOV3 cells. Mitochondria changes were also detected in some exposed COC1 and COC1/DDP cells. Apoptotic bodies could be detected in either control or insonated COC1/DDP cells. A few exposed COC1/DDP cells became reticular. Cytochrome C in cytosol in exposed SKOV3/ADR cells was increased but that in exposed COC1/DDP cells was decreased. These findings revealed that the bioeffect of ultrasound on chemosensitive cells was not identical to that of chemoresistant ones, and ultrasound was a potential approach for treatment of drug-resistant ovarian cancers.
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PMID:Ultrastructure alterations in adriamycin-resistant and cisplatin-resistant human ovarian cancer cell lines exposed to nonlethal ultrasound. 1588 70

L-Asparaginase (l-ASP), a bacterial enzyme used since the 1970s to treat acute lymphoblastic leukemia, selectively starves cells that cannot synthesize sufficient asparagine for their own needs. Molecular profiling of the NCI-60 cancer cell lines using five different microarray platforms showed strong negative correlations of asparagine synthetase (ASNS) expression and DNA copy number with sensitivity to l-ASP in the leukemia and ovarian cancer cell subsets. To assess whether the ovarian relationship is causal, we used RNA interference to silence ASNS in three ovarian lines and observed 4- to 5-fold potentiation of sensitivity to l-ASP with two of the lines. For OVCAR-8, the line that expresses the least ASNS, the potentiation was >500-fold. Significantly, that potentiation was >700-fold in the multidrug-resistant derivative OVCAR-8/ADR, showing that the causal relationship between ASNS expression and l-ASP activity survives development of classical multidrug resistance. Tissue microarrays confirmed low ASNS expression in a subset of clinical ovarian cancers as well as other tumor types. Overall, this pharmacogenomic/pharmacoproteomic study suggests the use of l-ASP for treatment of a subset of ovarian cancers (and perhaps other tumor types), with ASNS as a biomarker for patient selection.
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PMID:Asparagine synthetase as a causal, predictive biomarker for L-asparaginase activity in ovarian cancer cells. 1708 36

In the present study we have explored the sensitivity of ovarian cancer cells to TRAIL and proteasome inhibitors. Particularly, we have explored the capacity of proteasome inhibitors to bypass TRAIL resistance of ovarian cancer cells. For these studies we have used the A2780 ovarian cancer cell line and its chemoresistant derivatives A2780/DDP and A2780/ADR, providing evidence that: (i) the three cell lines are either scarcely sensitive (A2780 and A2780/ADR) or moderately sensitive (A2780/DDP) to the cytotoxic effects of TRAIL; (ii) the elevated c-FLIP expression observed in ovarian cancer cells is a major determinant of TRAIL resistance of these cells; (iii) proteasome inhibitors (PS-341 or MG132) are able to exert a significant pro-apoptotic effect and to greatly enhance the sensitivity of both chemosensitive and chemoresistant A2780 cells to TRAIL; (iv) proteasome inhibitors damage mitochondria through stabilization of BH3-only proteins, Bax and caspase activation and significantly enhance TRAIL-R2 expression; (v) TRAIL-R2, but not TRAIL-R1, mediates the apoptotic effects of TRAIL on ovarian cancer cells. Importantly, studies on primary ovarian cancer cells have shown that these cells are completely resistant to TRAIL and proteasome inhibitors markedly enhance the sensitivity of these cells to TRAIL. Given the high susceptibility of ovarian cancer cells to proteasome inhibitors, our results further support the experimental use of these compounds in the treatment of ovarian cancer.
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PMID:Proteasome inhibitors sensitize ovarian cancer cells to TRAIL induced apoptosis. 1725 98

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