A novel synthetic DNA minor groove binder, MS-247: antitumor activity and cytotoxic mechanism.

PURPOSE: MS-247 is a novel synthetic compound possessing a DNA-binding moiety and a DNA-alkylating residue, chlorambucil. In this study, we evaluated the antitumor activity of MS-247 against murine tumor cell lines and its effects on DNA molecules in both cell-free and cellular systems. METHODS: The in vitro cytotoxic activity of MS-247 was evaluated against four murine tumor cell lines, P388, L1210, Colon26 and B16, and its in vivo antitumor activity was also tested in comparison with Adriamycin (ADM), cisplatin (CDDP) and paclitaxel. The ability of MS-247 to associate with the DNA minor groove was assessed by measuring quenching of Hoechst 33342 fluorescence. DNA-DNA interstrand crosslinks (ICL) were detected by an alkaline elution assay for cellular DNA and a band-shift assay using the plasmid pBR322. The effects of MS-247 on macromolecule synthesis (DNA, RNA and proteins) were examined by measuring incorporation of the radiolabeled precursors. RESULTS: MS-247 exhibited in vitro cytotoxicity with IC(50) values ranging 11 to 500 nM, and MS-247 given i.v. showed strong in vivo antitumor activity against i.p.-implanted L1210 leukemia cells and s.c.-implanted Colon26 carcinoma cells, and moderate activity against i.p.-implanted P388 leukemia cells but no apparent activity against s.c.-implanted B16 melanoma cells. MS-247 reversibly displaced Hoechst 33342 bound to DNA within a few minutes, and irreversibly formed ICL within 1-6 h in both the cell-free system and the cellular system. These results suggest that an association of MS-247 with the DNA minor groove occurred more quickly than ICL formation. The inhibition of DNA synthesis was more prominent than the inhibition of RNA and protein synthesis in L1210 cells exposed to MS-247, and a 6-h incubation with MS-247, which formed apparent ICL in the cellular system, strongly inhibited DNA synthesis. This result suggests that impairment of DNA replication preceded the inhibition of RNA and protein synthesis and that ICL formation greatly contributed to the inhibition of macromolecule synthesis. CONCLUSION: The results of this study suggest that MS-247 exerts its cytotoxic effect through impairment of DNA function by getting into the minor groove of DNA and subsequently forming ICL. MS-247 has potent antitumor activity with a different spectrum from the activity of clinically proven antitumor agents such as paclitaxel, ADM and CDDP against several murine tumor cell lines. This result suggests that MS-247 may be useful for the treatment of human cancers.

Potent antitumor activity of MS-247, a novel DNA minor groove binder, evaluated by an in vitro and in vivo human cancer cell line panel.

We synthesized a novel anticancer agent MS-247 (2-[[N-[1-methyl-2-[5-[N-[4-[N,N-bis(2-chloroethyl) amino] phenyl]] carbamoyl]-1H-benzimidazol-2-yl] pyrrol-4-yl] carbamoyl] ethyldimethylsulfonium di-p-toluenesulfonate) that has a netropsin-like moiety and an alkylating residue in the structure. We evaluated antitumor activity of MS-247 using a human cancer cell line panel coupled with a drug sensitivity database and subsequently using human cancer xenografts. The average MS-247 concentration required for 50% growth inhibition against a panel of 39 cell lines was 0.71 microM. The COMPARE analysis revealed that the differential growth inhibition pattern of MS-247 significantly correlated with those of camptothecin analogues and anthracyclins, indicating that MS-247 and the two drug groups might have similar modes of action. MS-247 exhibited remarkable antitumor activity against various xenografts. A single i.v. injection of MS-247 significantly inhibited the growth of all 17 xenografts tested, which included lung, colon, stomach, breast, and ovarian cancers. In many cases, MS-247 was more efficacious than cisplatin, Adriamycin, 5-fluorouracil, cyclophosphamide, VP-16, and vincristine and was almost comparable with paclitaxel and CPT-11; these are the most clinically promising drugs at present. MS-247 was noticeably more effective than paclitaxel (in HCT-15) and CPT-11 (in A549, HBC-4, and SK-OV-3). The toxicity of MS-247, indicated by body weight loss, was reversible within 10 days after administration. The MS-247 mode of action showed DNA binding activity at the site where Hoechst 33342 bound, inhibited topoisomerases I and II (as expected by the COMPARE analysis) blocked the cell cycle at the G2-M phase, and induced apoptosis. These results indicate that MS-247 is a promising new anticancer drug candidate to be developed further toward clinical trials.