C. Fizames scite author profile

The preparation of 3-(2-chlorethyl)-4-oxo-3H-imidazo[5,1-d]-1,2,3,5- tetrazine-8-carboxylic acid, a key derivative of mitozolomide in our exploration of the structure-activity relationships of this class of antitumor agents, is described. The facile conversion to the 8-carbonyl chloride gave a derivative that reacted preferentially with nucleophiles at the 8-position rather than at the reactive 4-oxo group, allowing the preparation of a wide range of ester, thioester, amide (including an amide derived from an amino acid), hydroxamic acid, hydrazide and sulfoximide, azide and diazoacetyl derivatives. The in vivo activity is presented of a range of these compounds against TLX5 lymphoma and L1210 leukemia cell lines.

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ChemInform Abstract: Girolline, a New Antitumoral Compound Extracted from the Sponge, Pseudaxinyssa cantharella n. sp. (Axinellidae)

Ahond¹,

Zurita²,

Colin³

et al. 1988

ChemInform

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Antitumor activity and mechanism of action of the marine compound girodazole

et al. 1991

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Girodazole, a new marine compound has been isolated from the sponge Pseudaxinyssa cantharella. Girodazole is active in vivo on several murine grafted tumors including leukemias (P388, L1210, i.p./i.p.) and solid tumors (MA 16/C mammary adenocarcinoma, M5076 histiocytosarcoma, s.c./i.v.). In addition, girodazole has identical cytotoxic properties in vitro on P388 and P388/DOX cells and retains antitumor activity in vivo on P388/DOX. Girodazole has a unique chemical structure different from those of known anticancer agents and of new compounds undergoing clinical trials. Biochemical studies indicate that girodazole inhibits protein synthesis during the elongation/termination steps. Toxicological studies have been done in mice and in dogs and did not reveal any major toxic effect which could preclude administration in patients. Girodazole is now undergoing phase I clinical studies.

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Antitumor imidazotetrazines. 14. Synthesis and antitumor activity of 6- and 8-substituted imidazo[5,1-d]-1,2,3,5-tetrazinones and 8-substituted pyrazolo[5,1-d]-1,2,3,5-tetrazinones

Lunt¹,

Newton²,

Smith³

et al. 1987

J. Med. Chem.

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The systematic variation of the potent antitumor agent mitozolomide (1) is extended to cover alteration of substituents at positions 6 and 8 and to change the imidazo[5,1-d]-1,2,3,5-tetrazinone (1) skeleton to the isomeric pyrazolo-[5,1-d]-1,2,3,5-tetrazinone (17) skeleton. The series of eight 6-alkyl and 6-aralkyl derivatives of 1 showed optimal antitumor activity when the group was small or linear, but activity diminished as size and branching of this substituent increased. This may reflect altered transport characteristics, or failure of the enlarged derivatives to fit a binding site, or possibly a reduced tendency for the derivatives having bulky groups at position 6 to hydrolytically generate the putatively active triazenes (21). Testing of 14 derivatives of 1 differently substituted at position 8 revealed a complex structure-activity relationship, with good antitumor activity obtained for carbamoyl and sulfamoyl groups bearing small substituents. The 8-methylsulfonyl compound had noteworthy activity, but the 8-cyano, 8-nitro, and 8-phenyl derivatives were devoid of useful antitumor activity in these tests. From the limited number of pyrazolotetrazinones (17) reported here, it is suggested that the same conclusions as regards activity also hold true for this ring system.

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Domain-Structured N,N-Derivatized Hydrazines as Inhibitors of Ribonucleoside Diphosphate Reductase: Redox-Cycling Considerations

et al. 1999

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Eight analogues of 1-[5-halogenosalicylidene]-2-[2'-pyridinoyl]hydrazine and -[2'-pyridyl]hydrazine, four of 1-[pyridoxylidene]-2-[2'-pyridinoyl]hydrazine, seven of 1-[pyridoxylidene]-2-[2'-pyridyl]hydrazine, and one each of 1, 2-bis[pyridoxylidene]diaminoethane and bis[pyridoxylidenehydrazino]phthalazine were synthesized. Their solutions in DMF were assayed for activity against the metalloenzyme ribonucleoside diphosphate reductase (RdR), prepared from a subcutaneously growing murine tumor (sarcoma 180) implanted in B6D2F3 male mice. The 14C-labeled CDP reductase was assayed by the modified method of Takeda and Weber, in which [14C]cytidine was separated from deoxycytidine by thin-layer chromatography (TLC) on cellulose foil. Distribution of radioactivity was assessed with an automatic TLC linear analyzer. Of the 31 compounds tested, 13 were essentially inactive, 7 were highly active against RdR, and the remaining 20 were slightly more active than hydroxyurea (used as a reference compound). The mechanism of inhibition is discussed in terms of three alternative pathways, initiated by sequestration of iron embedded in the R1 subunit of the metalloenzyme to form a C-centered chelate radical (via redox cycling). Alternatively, the latter could either reduce the tyrosyl radical or intercept radicals generated in the reduction process.

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C. Fizames

Antitumor imidazotetrazines. 20. Preparation of the 8-acid derivative of mitozolomide and its utility in the preparation of active antitumor agents

ChemInform Abstract: Girolline, a New Antitumoral Compound Extracted from the Sponge, Pseudaxinyssa cantharella n. sp. (Axinellidae)

Antitumor activity and mechanism of action of the marine compound girodazole

Antitumor imidazotetrazines. 14. Synthesis and antitumor activity of 6- and 8-substituted imidazo[5,1-d]-1,2,3,5-tetrazinones and 8-substituted pyrazolo[5,1-d]-1,2,3,5-tetrazinones

Domain-Structured N,N-Derivatized Hydrazines as Inhibitors of Ribonucleoside Diphosphate Reductase: Redox-Cycling Considerations

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