Jeffrey Holford scite author profile

Summary A novel sterically hindered platinum complex, AMD473 [cis-amminedichloro(2-methylpyridine) platinum AMD473 also showed significantly (P < 0.05) reduced cross-resistance to cisplatin in a panel of three cell lines with known acquired platinum drug resistance mechanisms (mean RF for AMD473 was 1.9, for cisplatin 9.1). Cellular accumulation of AMD473 was not reduced in two HOC cell lines (A2780cisR and 41 McisR), in which reduced cisplatin accumulation is a major mechanism of acquired cisplatin resistance. AMD473 naked-DNA binding was significantly less affected (P < 0.05) than that of cisplatin by the presence of 5 mm glutathione. Also, AMD473 almost completely circumvented acquired cisplatin resistance in a cell line (A2780cisR) with fivefold elevated intracellular glutathione levels compared with the parent A2780 cell line when measured by clonogenic assay (RF 4.5 for AMD473 vs RF 18 for cisplatin). AMD473 also showed a lower increase in IC 5 than cisplatin in an A2780 cell line model with artificially elevated glutathione levels. AMD473 DNA binding was slower than that of cisplatin on both naked and cellular DNA. AMD473 also formed DNA interstrand cross-links (ICLs) at a slower rate than cisplatin (peak ICL formation was at 5 h for cisplatin vs 2 14 h for AMD473) after equitoxic doses were exposed to HOC cells for 2 h. AMD473 ICLs in the CH1 HOC cell line were slowly formed and showed no visible signs of being repaired 24 h after removal of drug. This was paralleled by a slower, longer lasting induction of p53 protein by equitoxic doses of AMD473 in HOC cell lines with wild-type p53. This new class of sterically hindered platinum compound, selected for clinical trial in 1997, may therefore elicit improved clinical response in intrinsically and acquired cisplatin-resistant tumours in the clinic.

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Mechanisms of drug resistance to the platinum complex ZD0473 in ovarian cancer cell lines

Holford¹,

Beale²,

Boxall³

et al. 2000

European Journal of Cancer

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ras mutation and platinum resistance in human ovarian carcinomas in vitro

1998

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A panel of 16 human ovarian carcinoma cell lines comprising cisplatin naive as well as those with acquired cisplatin resistance was studied to determine if there was a relationship between ras status and cisplatin sensitivity. From the ras expression studies alongside data produced by direct DNA sequencing, there was very little to suggest that ras overexpression or mutation plays a role in the cisplatin sensitivity of the panel of human ovarian carcinoma cell lines tested. A weak correlation (r 2 ‫؍‬ 0.53) was found between total Ras protein levels and resistance to cisplatin. No relationship was found between Kirsten-Ras protein levels and cisplatin sensitivity (r 2 ‫؍‬ 0.0). Only one ras mutation (codon 13, Kirsten exon 1, glycine 8 aspartate in the HX62 cell line) was observed in the cisplatin naive cell lines from the panel which comprised both cisplatin sensitive and resistant models. Of interest, however, was that the HX62 cell line was the most resistant to cisplatin. No ras mutations were found in those cell lines which had repeatedly been exposed, and acquired resistance, to cisplatin. The A2780 and CH1 human ovarian carcinoma cell lines were transfected with activated, mutant Harvey-ras and, as a result, were shown to display elevated MAP kinase phosphorylation in low serum concentration growth medium. No changes in cisplatin sensitivity were found following transfection with activated Harvey-ras in these 2 human ovarian carcinoma tumor cell models which, importantly, differed greatly in their expression of Bcl-2. Therefore, when conducted under similar conditions to previously published studies, very little evidence was found to support Harvey-ras activation as a factor which can either sensitize or confer resistance to cisplatin in human ovarian carcinoma cell lines. Int.

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ras mutation and platinum resistance in human ovarian carcinomasin vitro

1998

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Jeffrey Holford

In vitro circumvention of cisplatin resistance by the novel sterically hindered platinum complex AMD473

Mechanisms of drug resistance to the platinum complex ZD0473 in ovarian cancer cell lines

ras mutation and platinum resistance in human ovarian carcinomas in vitro

ras mutation and platinum resistance in human ovarian carcinomasin vitro

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