UMLS:C0025202 - FACTA Search

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Query: UMLS:C0025202 (melanoma)
69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Described herein are the synthesis, cytotoxic properties, and topoisomerase II inhibition assays of benzodiimidazole and dipyrroloimidazobenzimidazole structural variants of the pyrrolo[1, 2-a]benzimidazole or APBI ring system. These ring variants were designed to inhibit topoisomerase II, much as the APBIs are able to do. Since only the quinone form of the APBIs can intercalate DNA, two-electron reduction to the hydroquinone by DT-diaphorase is known to deactivate these compounds. Indeed, the APBIs possess a high inverse correlation with the cellular concentration of DT-diaphorase. Therefore one feature of the ABPI structural variants is the excessive bulk about the quinone ring, which was predicted to diminish DT-diaphorase substrate activity. Another feature is the presence of one or two alkylating centers, which would permit alkylation of DNA and/or topoisomerase II. Inhibition assays for topoisomerase II-mediated relaxation of supercoiled DNA indicate that the benzodiimidazole and dipyrroloimidazobenzimidazole quinone ring systems are catalytic inhibitors of topoisomerase II. Both quinone systems exhibit cytotoxicity perhaps due to the lack of inactivation by DT-diaphorase as well as topoisomerase II inhibition. One quinone displayed the novel feature of cytotoxicity selectively against melanoma cell lines. In conclusion, the benzodiimidazole and dipyrroloimidazobenzimidazole quinone ring systems will be subjected to future analogue development and structure-activity studies.
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PMID:Inhibitors of topoisomerase II based on the benzodiimidazole and dipyrroloimidazobenzimidazole ring systems: controlling DT-diaphorase reductive inactivation with steric bulk. 1069 89

Usambarensine is a plant alkaloid isolated from the roots of Strychnos usambarensis collected in Central Africa. This bis-indole compound displays potent antiamoebic activities and shows antigardial, antimalarial and cytotoxic effects. Usambarensine is highly toxic to B16 melanoma cells and inhibits the growth of leukemia and carcinoma cells. To date, the molecular basis for its diverse biological effects remains totally unknown. However, its capacity to inhibit nucleic acids synthesis in melanoma cells, on the one hand, and its structural analogy with DNA-binding pyridoindole plant alkaloids recently studied (cryptolepine and matadine), on the other hand, suggested that usambarensine could also bind to DNA. Consequently, we studied the strength and mode of binding to DNA of usambarensine by means of absorption, circular and linear dichroism. The results of the optical measurements indicate that the alkaloid effectively binds to DNA and behaves as a typical intercalating agent. Biochemical experiments indicated that, in contrast to cryptolepine and matadine, usambarensine does not interfere with the catalytic activity of topoisomerase II. Human HL60 leukemia cells were used to assess the cytotoxicity of the alkaloid and its effect on the cell cycle. Usambarensine treatment is associated with a loss of cells in the G1 phase accompanied with a large increase in the sub-G1 region which is characteristic of apoptotic cells. The DNA of usambarensine-treated cells was severely fragmented and the proteolytic activity of DEVD-caspases is enhanced. Usambarensine is thus characterized as DNA intercalator inducing apoptosis in leukemia cells.
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PMID:The plant alkaloid usambarensine intercalates into DNA and induces apoptosis in human HL60 leukemia cells. 1069 43

The reason why human malignant melanomas respond poorly to chemotherapy is not known. In an attempt to identify genes responsible for such resistance or sensitivity to therapeutic drugs, we studied the parental human melanoma cell line MeWo, as well as eight drug-resistant sublines of MeWo. These have low and high levels of resistance to four chemotherapeutic drugs with different modes of action: Vindesine, cisplatin, fotemustine and etoposide. Comparative genomic hybridizations with genomic DNA from these cell lines as probes revealed a number of chromosome gains and losses which occurred upon selective pressure during development of the sublines. The MeWo subline with high resistance to the topoisomerase II inhibitor, etoposide, exhibited the highest number of acquired chromosome imbalances. Interestingly, the two lines with high resistance to cisplatin and fotemustine, respectively, shared three additional imbalances, loss of 9p, loss of distal 12p and gain on distal 15q. The importance of these coincident imbalances is discussed.
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PMID:Association of genomic imbalances with resistance to therapeutic drugs in human melanoma cell lines. 1070 97

Malignant melanoma (MM) is considered to be a chemotherapy-refractory tumor. New anti-cancer drugs (e.g. etoposide) that target DNA topoisomerases (e.g. topoisomerase II-alpha (topo IIalpha)) show activity against a wide variety of solid tumors. In this study, we investigated the frequency and rate of labeling for topo IIalpha in 163 MMs (primary and metastatic) and 67 melanocytic nevi to determine whether topo IIalpha expression is elevated in MM. Primary MM exhibited significantly more frequent topo IIalpha expression compared to benign nevi (86% vs. 56%, p=0.0001). The rate of topo IIalpha labeling in dysplastic melanocytic nevi, radial growth phase MM, vertical growth phase MM and metastatic MM revealed significant differences amongst groups and a positive covariance with advancing stage (means: 0.3, 0.5, 5, and 8 '+' cells/hpf, respectively; r=0.3, all p < or = 0.02). Topo IIalpha labeling significantly correlated with increasing mitotic activity, depth of invasion and Clark's level, diminishing tumor infiltrating lymphocytes, and poor outcome (all p < or = 0.01) in primary MM. For metastatic MM, a minority (30%) exhibited marked elevation of topo IIalpha expression. These findings indicate topo IIalpha as a potential therapeutic target and marker for MM. Immunohistochemical analysis of disseminated MM may allow for correlation with clinical response and enable selection of candidates sensitive for specific chemotherapy.
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PMID:Topoisomerase II-alpha expression in melanocytic nevi and malignant melanoma. 1084 49

Some novel pyrrolo-quinoline derivatives have been synthesized as potential antineoplastic agents. They contain an angular aromatic tricyclic or tetracyclic system, to which the methanesulfon-anisidide side chain typical of amsacrine as such, or lacking the m-methoxy substituent, is connected. A methyl group can be present at position 7 of the pyrrolo-quinoline ring. The novel compounds exhibit interesting cell growth inhibitory properties when tested against the NCI panel of cell lines, in particular those obtained from solid tumors like CNS-, melanoma- and prostate-derived cells. The mechanism of cytotoxic action does not seem to be related to topoisomerase II poisoning ability. Most active proved to be compound 4a, which lacks both methyl and methoxy substituents, followed by 5a, having the methoxy group only. Biological activity is less pronounced in the tetracyclic family of derivatives 6 and 7.
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PMID:Pyrrolo-quinoline derivatives as potential antineoplastic drugs. 1089 18

S16020-2, a new olivacine derivative and a topoisomerase II inhibitor, has recently entered clinical trials. New analogues and derivatives have been synthesized from the S16020-2 compound. Preliminary data indicate that S30972-1, one of these S16020-2 derivatives, may exhibit a comparatively higher level of antitumor potency associated with an improved therapeutic index than does S16020-2. The antitumor activities of S16020-2 and S30972-1 were therefore characterized both in vitro and in vivo, with Adriamycin and etoposide chosen as reference compounds. The in vitro data show that S30972-1 is a topoisomerase II inhibitor, mediating its activity through an ATP-dependent mechanism such as S16020-2. The two olivacine derivatives exhibited similar activities in vitro at the levels of the global growth of six human cancer cell lines, of the induction of apoptosis, and of the G2 cell cycle phase arrest. The in vivo antitumor activity characterization included the use of two murine leukemia types (P388-LEU and L1210-LEU), two murine lymphoma-like models (P388-LYM and L1210-LYM), two mammary adenocarcinomas (MXT-HI and MXT-HS), and one melanoma (B16). The data show that S30972-1 is actually more efficient in vivo than S16020-2, a feature that may relate to the fact that S30972-1 is less toxic than S16020-2. The S30972-1 compound exhibited in vivo a level of antitumor activity that was also actually higher than that exhibited by Adriamycin and similar to that exhibited by etoposide.
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PMID:In vitro and in vivo pharmacological characterizations of the antitumor properties of two new olivacine derivatives, S16020-2 and S30972-1. 1099 72

Topoisomerases I and II unravel DNA during transcription, DNA replication and DNA repair. Inhibitors of both enzymes are important anticancer drugs, but only now are combined inhibitors becoming available for clinical use. In this study we have used an ATP-based chemosensitivity assay to determine the activity of XR5000 and possible combinations against ovarian cancer, a tumor sensitive to current topoisomerase inhibitors, and melanoma, an insensitive tumor. A further six tumors of other types were also tested. The results from 20 ovarian cancer and 18 melanoma biopsies show remarkably little difference between the tumor types in terms of IC50, IC90 or two summary indices of chemosensitivity based on all of the concentrations tested. XR5000 on its own shows a steep concentration-response curve in most tumors, only achieving high reduction (above 95%) of ATP levels at 2440 ng/ml (6 microM). The results were often similar to the combination of etoposide and topotecan, particularly at the higher concentrations tested. The combinations with greatest activity in ovarian cancer were with paclitaxel or cisplatin, while melanoma showed greatest improvement with paclitaxel or treosulfan. The results are encouraging for the clinical introduction of this agent, and suggest that it will be effective in combination with currently available drugs for both ovarian cancer and melanoma.
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PMID:Ex vivo activity of XR5000 against solid tumors. 1100 88

Choroidal melanoma has a high mortality rate and responds poorly to existing chemotherapy, but unexpected ex vivo sensitivity of a subset of these tumours to topoisomerase II inhibitors has been noted. Since chemoresistance may be mediated by the molecular phenotype of tumours, immunohistochemistry has been used to study the expression of both isoforms of topoisomerase II (alpha and beta) in 29 choroidal melanomas for which chemosensitivity assay data for doxorubicin or mitoxantrone are also available. Of these, eight tumours were topoisomerase II beta-positive and 11 were topoisomerase II alpha-positive. Recent studies showing genetic abnormality (often monosomy of chromosome 3) in choroidal melanoma suggest that loss of immunostaining could be due to genomic loss rather than down-regulation of topoisomerase II beta in these tumours. There was no convincing excess of anthracycline resistance in the topoisomerase II beta-negative group. Addition of topoisomerase II alpha, MDR1 (11/17 positive), LRP (16/28 positive), and MRP (5/29 positive) data in multivariate analysis did not reliably predict sensitivity or resistance. Vincristine chemosensitivity showed no relation to MDR1, LRP or MRP in 18 tumours tested. While it is possible that some tumours which do express topoisomerase II beta may respond to anthracyclines, the molecular basis of resistance or sensitivity to anthracyclines or vincristine in uveal melanoma is complex and remains incompletely understood.
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PMID:Relationship between expression of topoisomerase II isoforms and chemosensitivity in choroidal melanoma. 1100 93

The lignan family of natural products includes compounds with important antineoplastic and antiviral properties such as podophyllotoxin and two of their semisynthetic derivatives, etoposide and teniposide. The latter are included in a wide variety of cancer chemotherapy protocols. Due to these biological activities, lignans, and especially cyclolignans, have been the objective of numerous studies focused to prepare better and safer anticancer drugs. The mechanism by which podophyllotoxin blocks cell division is related to its inhibition of microtubule assembly in the mitotic apparatus. However, etoposide and teniposide were shown not to be inhibitors of microtubule assembly which suggested that their antitumor properties were due to another mechanism of action, via their interaction with DNA and inhibition of DNA topoisomerase II. Other podophyllotoxin derivatives has also been reported which retained or even improved the cytotoxic activity, but these were weak inhibitors of topoisomerase II in vitro; the data revealed that such analogs exhibit a different, as yet unknown, mechanism of action. The main deficiency of these compounds is their cytotoxicity for normal cells and hence side effects derived from their lack of selectivity against tumoral cells. In this regard it is necessary to investigate and prepare new more potent and less toxic analogs, that is, with better therapeutic indices. It is well accepted from structure-activity studies in this field that the trans-lactones are more potent as antineoplastics than the cis-lactones. Not only the configuration of the D ring is an important factor for high cytotoxic activity, but also a quasi-axial arrangement of the E ring is necessary. On this basis, studies on lignans have been addressed to modify the lactone moiety and prepare analogs with heteroatoms at different positions of the cyclolignan skeleton. Our group has been working during the last few years on chemical transformations of podophyllotoxin and analogs and we have prepared a large number of cyclolignan derivatives some of which display potent antiviral, immunosuppressive and cytotoxic activities. We have reported several new cytotoxic agents with nitrogen atoms at C-7 or C-9 or at both C-7 and C-9: imine derivatives, oxime derivatives, pyrazoline-, pyrazo- and isoxazoline-fused cyclolignans. At present, we are preparing mainly new compounds by modifications of the A and E cyclolignan-rings. They are being tested on cultures of different tumoral cell lines (P-388 murine leukemia, A-549 human lung carcinoma, HT-29 human colon carcinoma and MEL-28 human melanoma) and some of them have shown an interesting and selective cytotoxicity.
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PMID:Antitumor properties of podophyllotoxin and related compounds. 1110 64

KILLER/DR5 is a death-domain-containing proapoptotic receptor that binds to the cytotoxic ligand TRAIL. It was originally reported that induction of KILLER/DR5 mRNA following DNA damage was p53-dependent, but some drugs that induce apoptosis can upregulate KILLER/DR5 mRNA expression in cell lines with mutated p53. We further extend those findings by classifying the capability of various apoptosis-inducing drugs to increase the expression of KILLER/DR5 mRNA in a p53-independent manner. beta-Lapachone, a topoisomerase inhibitor, increased KILLER/DR5 mRNA in colon cancer cell lines with wild-type p53 but not with mutant p53. In contrast, betulinic acid, a novel chemotherapeutic compound, induced apoptosis and KILLER/DR5 mRNA in melanoma and glioblastoma cells through a p53-independent mechanism. The synthetic glucocorticoid dexamethasone elevated KILLER/DR5 mRNA in glioblastoma, ovarian cancer, and colon cancer cell lines with mutant p53 undergoing apoptosis, and this induction was inhibited by the transcriptional inhibitor actinomycin D. Although another glucocorticoid, prednisolone, also induced apoptosis, it did not increase KILLER/DR5 mRNA. Finally, the cytokine interferon-gamma (IFN-gamma) induced apoptosis and KILLER/DR5 in cell lines with mutant p53, and the induction of KILLER/DR5 mRNA by IFN-gamma was delayed in cells lacking wild-type STAT1, a transcription factor implicated in IFN-gamma signaling. Similarly, the induction of KILLER/DR5 mRNA by the cytokine TNF-alpha was also delayed in cell lines with mutated STAT1. These findings suggest that KILLER/DR5 may play a role in p53-independent apoptosis induced by specific drugs and warrants further investigation as a novel target for chemotherapy of tumors lacking wild-type p53.
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PMID:p53-independent upregulation of KILLER/DR5 TRAIL receptor expression by glucocorticoids and interferon-gamma. 1113 40

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