A phase II clinical trial of 6-mercaptopurine (6MP) and methotrexate in patients with BRCA defective tumours: a study protocol

Salmon sperm DNA, treated with the antitumor agent cis-diamminedichloroplatinum(II) (cis-DDP), was enzymatically degraded to (oligo)nucleotides. Four Pt-containing products were identified by 1H NMR after preparative chromatography on a diethylaminoethyl-Sephacel column at pH 8.8. In all identified adducts, comprising approximately 90% of the total Pt in the DNA, Pt was linked to the N7 atoms of the nucleobases guanine and adenine. The two major adducts were cis-Pt(NH3)2d(pGpG) and cis-Pt-(NH3)2d(pApG), both derived from intrastrand cross-links of cis-DDP on neighboring nucleobases. Only the d(pApG) but not the d(pGpA) adduct could be detected. Two minor adducts were Pt(NH3)3dGMP, resulting from monofunctionally bound cis-DDP to guanine, and cis-Pt(NH3)2d(GMP)2, originating from interstrand cross-links on two guanines as well as from intrastrand cross-links on two guanines separated by one or more bases. For analytical purposes we developed an improved method to determine cis-DDP adducts. Routinely, 40-micrograms samples of enzymatically degraded cis-DDP-treated DNA are now analyzed by separation of the mononucleotides and Pt-containing (oligo)nucleotides on the anion-exchange column Mono Q (FPLC) at pH 8.8 (completed within 14 min) and subsequent determination of the Pt content in the collected fractions by atomic absorption spectroscopy. The method was used to optimize the digestion conditions for cis-DDP-treated DNA. In kinetic studies on the formation of the various adducts, a clear preference of the Pt compound to react with guanines occurring in the base sequence d(pGpG) was established.

In a typical two-stage design for a phase II cancer clinical trial for efficacy screening of cytotoxic agents, a fixed number of patients are initially enrolled and treated. The trial may be terminated for lack of efficacy if the observed number of tumour responses after the first stage is too small, thus avoiding treatment of patient with inefficacious regimen. Otherwise, an additional fixed number of patients are enrolled and treated to accumulate additional information on efficacy as well as safety. The minimax and the so-called 'optimal' designs by Simon have been widely used, and other designs have largely been ignored in the past for such two-stage cancer clinical trials. Recently Jung et al. proposed a graphical method to search for compromise designs with features more favourable than either the minimax or the optimal design. In this paper, we develop a family of two-stage designs that are admissible according to a Bayesian decision-theoretic criterion based on an ethically justifiable loss function. We show that the admissible designs include as special cases the Simon's minimax and the optimal designs as well as the compromise designs introduced by Jung et al. We also present a Java program to search for admissible designs that are compromises between the minimax and the optimal designs. Copyright 2004 John Wiley & Sons, Ltd.

Mutations in the MSH2 gene predispose to a number of tumourigenic conditions, including hereditary non-polyposis colon cancer (HNPCC). MSH2 encodes a protein in the mismatch repair (MMR) pathway which is involved in the removal of mispairs originating during replication or from damaged DNA. To identify new therapeutic strategies for the treatment of cancer arising from MMR deficiency, we screened a small molecule library encompassing previously utilized drugs and drug-like molecules to identify agents selectively lethal to cells lacking functional MSH2. This approach identified the drug methotrexate as being highly selective for cells with MSH2 deficiency. Methotrexate treatment caused the accumulation of potentially lethal 8-hydroxy-2'-deoxyguanosine (8-OHdG) oxidative DNA lesions in both MSH2 deficient and proficient cells. In MSH2 proficient cells, these lesions were rapidly cleared, while in MSH2 deficient cells 8-OHdG lesions persisted, potentially explaining the selectivity of methotrexate. Short interfering (si)RNA mediated silencing of the target of methotrexate, dihydrofolate reductase (DHFR), was also selective for MSH2 deficiency and also caused an accumulation of 8-OHdG. This suggested that the ability of methotrexate to modulate folate synthesis via inhibition of DHFR, may explain MSH2 selectivity. Consistent with this hypothesis, addition of folic acid to culture media substantially rescued the lethal phenotype caused by methotrexate. While methotrexate has been used for many years as a cancer therapy, our observations suggest that this drug may have particular utility for the treatment of a subset of patients with tumours characterized by MSH2 mutations.