J. Patrick McGovren

Adozelesin, a selected lead among cyclopropylpyrroloindole analogs of the DNA-binding antibiotic, CC-1065

SummaryAdozelesin (U-73975) is a potent synthetic cyclopropylpyrroloindole (CPI) analog of the cytotoxic DNA-binding antibiotic, CC-1065. In contrast to the natural product, adozelesin and related CPI analogs do not cause delayed death in non-tumored mice. Adozelesin, selected from a series of analogs for its superior in vivo antitumor activity and ease of formulation, is highly active when administered i.v. against i.p.- or s.c.-implanted murine tumors, including L1210 leukemia, B16 melanoma, M5076 sarcoma, and colon 38 carcinoma, and produces long-term survivors in mice bearing i.v.-inoculated L1210 and Lewis lung carcinoma. Modest activity is shown against the highly drug-resistant pancreas 02 carcinoma. Adozelesin is also highly effective against human tumor xenografts s.c.-implanted in athymic (nude) mice, including colon CX-1 adenocarcinoma, lung LX-1 tumor, clear cell Caki-1 carcinoma, and ovarian 2780 carcinoma. Its broad spectrum of in vivo activity compares favorably with three widely used antitumor drugs, i.e. cisplatin, cyclophosphamide, and doxorubicin. Adozelesin appears to be more effective than these drugs in the treatment of very resistant tumors such as s.c.-implanted mouse B16 melanoma, pancreatic 02 carcinoma, and human colon CX-1 and human lung LX-1 tumor xenografts. Based on its high potency and high efficacy against a broad spectrum of experimental tumors, adozelesin was chosen for clinical investigation and development.

Menogaril: a new anthracycline agent entering clinical trials

SummaryMenogaril [menogarol, 7(R)-O-methymogarol, 7-OMEN] is a new anthracycline agent which was chosen for clinical trials based on:a)broad spectrum activity against a panel of murine tumorsb)lower cardiotoxicity than doxorubicin in the chronic rabbit modelc)differences in biochemical effects from other anthracyclines suggesting a possible difference in mechanism of actiond)murine antitumor activity by oral as well as parenteral routes. Biochemical studies indicated that, in comparison to doxorubicin, menogaril is bound weakly to DNA, inhibits RNA synthesis less, and has different cell cycle phase-specific cytotoxicity. Pharmacology studies in the mouse and dog using HPLC analytical methodology have shown multiexponential clearance from plasma and metabolism of menogaril to a material which co-chromatographs with N-demethylmenogaril in addition to at least two other metabolites of unknown structure. Oral bioavailability studies in the mouse showed significant absorption of menogaril from the gastrointestinal tract followed by first-pass metabolism. In acute toxicity studies in the rat, the dog, and the monkey, dose-related myelosuppression and gastrointestinal toxicity predominated. Phase I clinical trails on menogaril are currently in progress on a variety of schedules.