Abstract

Mitomycin C is a natural antitumor antibiotic used in clinically cancer chemotherapy. The broad, long-term objective of the present application is to utilize the recently obtained, detailed information on the structural basis of the bioreductive DNA- alkylating activity of mitomycin C for designing new mitomycin analogs with improved antitumor properties. The designs aim at constructing drugs which will retain the basic reductive bifunctional alkylation mechanism of mitomycin C but will be more efficient as cross-linkers. The new mitomycin analogs will be synthesized by relatively simple chemical transformations of mitomycins A or C. They will be tested for reductive alkylation and cross-linking of DNA and for DNA sequence specificity of the modifications. In addition, the structures of the DNA adducts will be investigated. Cytotoxicity of the new agents to a variety of tumor cells will be determined and a correlation will be sought between their DNA cross-linking activity, measured by alkaline elution in EMT mouse mammary tumor cells, and their cytotoxicity. Concomitant and interactive with the design efforts, mechanistic investigations of mitomycin C will continue with respect to DNA alkylation in vitro, basis of the CpG specificity of the cross-link and the """"""""self-reducing"""""""" activity of certain mitomycin C analogs, inducible by thiols. An investigation of repair of model oligonucleotide substrates containing mitomycin adducts by a purified mammalian repair enzyme will be initiated.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA028681-19
Application #
2700339
Study Section
Bio-Organic and Natural Products Chemistry Study Section (BNP)
Program Officer
Beisler, John A
Project Start
1980-07-01
Project End
2000-04-30
Budget Start
1998-05-01
Budget End
1999-04-30
Support Year
19
Fiscal Year
1998
Total Cost
Indirect Cost

  Institution

Name
Hunter College
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
City
New York
State
NY
Country
United States
Zip Code
10065

  Publications

Paz, Manuel M; Ladwa, Sweta; Champeil, Elise et al. (2008) Mapping DNA adducts of mitomycin C and decarbamoyl mitomycin C in cell lines using liquid chromatography/ electrospray tandem mass spectrometry. Chem Res Toxicol 21:2370-8
Champeil, Elise; Paz, Manuel M; Ladwa, Sweta et al. (2008) Synthesis of an oligodeoxyribonucleotide adduct of mitomycin C by the postoligomerization method via a triamino mitosene. J Am Chem Soc 130:9556-65
Boamah, Ernest K; White, David E; Talbott, Kathryn E et al. (2007) Mitomycin-DNA adducts induce p53-dependent and p53-independent cell death pathways. ACS Chem Biol 2:399-407
Paz, Manuel M; Kumar, Gopinatha Suresh; Glover, Mark et al. (2004) Mitomycin dimers: polyfunctional cross-linkers of DNA. J Med Chem 47:3308-19
Abbas, Tarek; Olivier, Magali; Lopez, Jaqueline et al. (2002) Differential activation of p53 by the various adducts of mitomycin C. J Biol Chem 277:40513-9
Palom, Yolanda; Suresh Kumar, Gopinatha; Tang, Li-Qian et al. (2002) Relative toxicities of DNA cross-links and monoadducts: new insights from studies of decarbamoyl mitomycin C and mitomycin C. Chem Res Toxicol 15:1398-406
Paz, M M; Das, A; Palom, Y et al. (2001) Selective activation of mitomycin A by thiols to form DNA cross-links and monoadducts: biochemical basis for the modulation of mitomycin cytotoxicity by the quinone redox potential. J Med Chem 44:2834-42
Paz, M M; Tomasz, M (2001) Reductive activation of mitomycin A by thiols. Org Lett 3:2789-92
Subramaniam, G; Paz, M M; Suresh Kumar, G et al. (2001) Solution structure of a guanine-N7-linked complex of the mitomycin C metabolite 2,7-diaminomitosene and DNA. Basis of sequence selectivity. Biochemistry 40:10473-84
Paz, M M; Das, T A; Tomasz, M (1999) Mitomycin C linked to DNA minor groove binding agents: synthesis, reductive activation, DNA binding and cross-linking properties and in vitro antitumor activity. Bioorg Med Chem 7:2713-26

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