Schedule dependence of buthionine sulfoximine in reversing resistance to cisplatin.

We have found that the potentiation of antiproliferative effects by buthionine sulfoximine (BSO) of cell growth inhibition induced by cisplatin are highly schedule dependent in resistant BE colon carcinoma cells. Maintenance of low GSH levels during the 12-h interval after cisplatin (cis-DDP) treatment is critical. A schedule of BSO exposure that results in low GSH levels for 12 h after cisplatin exposure is associated with a marked increase in DNA interstrand cross-link formation as analyzed by alkaline elution. These findings are consistent with a central role of GSH in interfering with the conversion of cis-DDP DNA monoadducts to DNA interstrand cross-links and may prove relevant to the design of clinical trials of BSO with cisplatin.

Potentiation of ara-C induced cytotoxicity by hydroxyurea in LoVo colon carcinoma cells.

The present study was undertaken to determine whether cytotoxicity by 1-beta-D-arabinofuranosylcytosine (ara-C) in LoVo colon carcinoma cells, which are resistant to high concentrations of ara-C, would be enhanced by concurrent exposure to hydroxyurea (HU). Since mechanisms underlying the effects of HU on ara-C induced cytotoxicity are unclear, we also evaluated the effect of HU on the incorporation of ara-C into DNA, as well as potential consequences of misincorporation. Our results demonstrate that HU synergistically enhances cytotoxicity by ara-C in these cells. This effect was not present when HU was combined with aphidicolin, an agent that resembles ara-C in competing with dCTP for binding to polymerase alpha but that is not incorporated into DNA. Further, cells exposed to HU and ara-C incorporated up to 5-fold as much ara-C into DNA as cells solely treated with ara-C. While the extent of inhibition of DNA synthesis was comparable with cells exposed to HU and aphidicolin as those treated with HU and ara-C, recovery of DNA synthesis was delayed more significantly by the latter combination. These findings suggest that HU synergistically potentiates ara-C induced cytotoxicity by enhancing incorporation of ara-C in LoVo cell DNA.