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Target Concepts:
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Query: UMLS:C1140680 (
ovarian cancer
)
28,141
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In vivo models of acquired resistance to the platinum-based agents cisplatin (CDDP), carboplatin (CBDCA), iproplatin (CHIP) and tetraplatin have been established using a panel of six parent human ovarian carcinoma lines, two (HX/110 and
PXN
/87) being derived from previously untreated patients. Resistance has been generated to CDDP (three lines), CBDCA (one line), CHIP (three lines) and tetraplatin (one line) either by treatment in vivo or (for one line to CDDP) through exposure in vitro and subsequent transfer to mice. With the four tumours where resistance was generated using CDDP or CBDCA, a complete cross-resistance to the remaining platinum agents studied was observed. In contrast, in one of three lines with derived resistance to the platinum (IV) agent, CHIP, (
PXN
/951) a retention in sensitivity was observed with CDDP and CBDCA. Only one of the six parent tumour lines (
PXN
/100) was markedly sensitive to tetraplatin. Where resistance was generated to tetraplatin (
PXN
/100T) there was some retention of activity by CDDP. For the CDDP-resistant line established in vitro, there was a close agreement between the cross-resistance profile obtained in vitro vs that obtained in vivo. This tumour panel may be useful in the elucidation of cellular and molecular resistance mechanisms to platinum drugs operative in vivo. Moreover, as they appear to mimic the clinical observations of shared cross-resistance between CDDP, CBDCA and CHIP, they may represent valuable preclinical evaluation models for the discovery of drugs capable of conferring responses in CDDP-refractory
ovarian cancer
.
...
PMID:Acquisition of platinum drug resistance and platinum cross resistance patterns in a panel of human ovarian carcinoma xenografts. 842 80
Trimelamol (TM) was developed as a water soluble analogue of the oral chemotherapeutic agent hexamethyl-melamine (HMM), to be administered i.v., in an effort to avoid dose limiting emesis. Because of formulation difficulties due to its inherent instability the development of TM was halted. In vivo studies using a human
ovarian cancer
xenograft model
PXN
/65 showed TM to be curative in the dose range of 15-60 mg/kg i.p. daily x 5, for 4 weeks. Conversely, HMM given at the highest dose (60 mg/kg i.p., or 90 mg/kg p.o.) indicated only very modest tumour growth delays. In vitro chemosensitivity testing using primary ovarian tumour cultures showed that in 12/23 cases indicating reduced sensitivity to cisplatin or carboplatin, sensitivity to TM was increased. TM was curative in the carboplatin-resistant HX 110P human
ovarian cancer
xenograft and promising activity was seen in the MX-1 human breast cancer xenograft. In spite of enhanced stability in aqueous solution and good in vitro cytotoxicity, the TM analogues CB 7669 (triscyanomethyl) and CB 7639 (tristrifluoroethyl) showed disappointing in vivo antitumour activity which may be explained by the need for prolonged exposure. TM analogues with intermediate stability are currently under development in an effort to further the clinical development of this promising group of antitumour agents.
...
PMID:The activity of N-(hydroxymethyl) melamines in fresh human ovarian tumour cells and xenografts. 871 12
Formulation difficulties prevented the otherwise promising clinical development of the anti-tumour agent trimelamol (TM; tris-[hydroxymethyl]trimethylmelamine]). A synthetic analogue programme resulted in the identification of CB 7646 (bis N-[hydroxymethyl]trimethylmelamine) as a compound with improved stability and favourable formulation characteristics. The in vitro and in vivo activity of CB 7646 was shown to be very similar to that of TM. In addition, curative activities were shown in the
PXN
/65 human
ovarian cancer
xenograft and the MX-1 and T-61 human breast cancer xenograft models. The effectiveness of the N-(hydroxymethyl)melamines against platinum-refractory disease was noted in the phase I clinical trial of TM. In line with this finding, the present study confirmed the effective activity of both TM and CB 7646 against various forms of platinum resistance in in vitro models. Curative activity for TM and CB 7646 was seen in the HX110P human
ovarian cancer
xenograft with acquired carboplatin resistance. Animal studies indicated less neurotoxicity for CB 7646 than for TM. The pharmacokinetic profile of CB 7646 indicated a decreased plasma elimination, indicative of slower in vivo degradation than for TM. CB 7646, therefore, represents a promising candidate for clinical development, designed to supersede TM.
...
PMID:Pre-clinical development of the anti-tumour agent CB 7646, bis N-(hydroxymethyl) trimethylmelamine, a stable analogue of trimelamol. 890 78
