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Menogaril: a new anthracycline agent entering clinical trials (1984)

McGovren, J. Patrick ; Nelson, Kenneth G. ; Lassus, Mercedes ; [et al.]

Springer

Investigational new drugs 2 (1984), S. 359-367

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ISSN: 1573-0646

Keywords: menogaril ; menogarol ; 7(R)-O-methylnogarol ; 7-OMEN ; NSC 269148 ; anthracycline antitumor agent

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Summary Menogaril [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 tumors b) lower cardiotoxicity than doxorubicin in the chronic rabbit model c) differences in biochemical effects from other anthracyclines suggesting a possible difference in mechanism of action d) 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.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00171586

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Arabinosyl-5-azacytosine: A novel nucleoside entering clinical trials (1987)

Grem, Jean L. ; Shoemaker, D. Dale ; Hoth, Daniel F. ; [et al.]

Springer

Investigational new drugs 5 (1987), S. 315-328

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ISSN: 1573-0646

Keywords: arabinosyl-5-azacytosine ; deoxycytidine kinase ; cytosine arabinoside ; 5-azacytidine

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Abstract Arabinosyl-5-azacytosine is a new compound which has been selected by the Division of Cancer Treatment, National Cancer Institute for clinical development as an antineoplastic agent based on its high degree of activity against a broad range of tumor types in preclinical studies. Therapeutic activity has been observed against murine and human leukemias, transplantable murine solid tumors, and human tumor xenografts. Arabinosyl-5-azacytosine exhibited a broader spectrum of activity against human solid tumors than cytosine arabinoside. Arabinosyl-5-azacytosine is phosphorylated to the nucleotide level by deoxycytidine kinase. Upon further anabolism to the triphosphate level, it can be incorporated into DNA. The mechanism of cytotoxicity is thought to be related to inhibition of DNA synthesis. Leukemic and solid tumor cell lines that are resistant to cytosine arabinoside due to deletion of deoxycytidine kinase activity are cross-resistant to arabinosyl-5-azacytosine. Unlike cytosine arabinoside, arabinosyl-5-azacytosine does not readily undergo deamination. Schedule dependence has been demonstrated in mice bearing L1210 leukemia, with superior activity seen with multiple doses administered on each treatment day compared to administration of larger but less frequently administered doses. From preliminary data in solid tumor models, however, antitumor activity did not appear to be superior with continuous infusion compared to that observed on a bolus schedule. Preclinial toxicology studies indicated that the bone marrow and gastrointestinal tract were the main target organs. A single large dose of arabinosyl-5-azacytosine could be tolerated by both mice and dogs. When administered as a continuous infusion, the toxicity was related to both the dose and duration of exposure, suggesting that toxicity resulted from a critical time above a threshold concentration as opposed to the total area under the concentration-time curve. Phase I clinical trials have been initiated to determine the maximum tolerated dose on a low dose continuous infusion schedule for 72 hours and also on a high dose short infusion daily times five schedule.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00169970

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