Anthrapyrazoles, a new class of intercalating agents with high-level, broad spectrum activity against murine tumors.

A series of 5-[(aminoalkyl)amino]-substituted anthra[1,9-cd] pyrazol-6(2H)ones (anthrapyrazoles) were synthesized. These compounds, which differ from the anthracenediones in that an additional pyrazole ring has been fused to the anthracene system in place of one carbonyl group, were evaluated in vivo for their anticancer activity in eight different mouse tumor systems. Compounds were selected for testing primarily on the basis of their high levels of activity P388 leukemia and occasionally for structural considerations. Sixty-seven % of the 21 analogues studied were curative in the National Cancer Institute P388 screen. Many of the compounds tested were highly active against each of the tumors of the National Cancer Institute panel. Thus 82, 73, 45, and 80% of the compounds tested were curative for L1210 leukemia, B16 melanoma, M5076 sarcoma, and the MX-1 mammary xenograft, respectively. Several of the compounds studied were curative against every tumor of the above panel. Because of the high activity of the anthrapyrazole series as a class in the National Cancer Institute tumor panel, additional testing was necessary to allow selection of clinical candidates. Twenty-one anthrapyrazoles were tested against mammary adenocarcinoma 16C, colon adenocarcinoma 11a, and the Ridgway osteogenic sarcoma. Four compounds, PD 113,309 (Cl-937), PD 113,785 (Cl-941), PD 111,815 (Cl-942), and PD 115,593, were judged superior to the rest on the basis of the expanded panel testing. The preclinical data to date suggest that these anthrapyrazoles are similar to doxorubicin in both degree and spectrum of activity. Each of these anthrapyrazoles were significantly more active than were the other synthetic intercalating agents, the anthracenediones mitoxantrone and ametantrone, against the tumors of the expanded panel. On the basis of their high level of broad spectrum activity in preclinical systems, ease of formulation, possible lack of cross-resistance with doxorubicin, and potential lack of cardiotoxicity, Cl-937, Cl-941, and Cl-942 have been selected for further preclinical evaluation and possible clinical development.

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