Abstract

The goals of this program are to study the interaction of the clinically relevant antitumor antibiotics, including FR900482, FR66979 and several synthetic compounds with DNA interstrand cross-linking ability, with cellular nucleic acids and DNA-binding proteins at the molecular level. The synthesis of members of this class of antitumor drugs will continue to be developed with the objective of harnessing the synthetic methodology developed to make new, less toxic, more selective and more potent antitumor drugs. A new class of antitumor pro-drugs, that can be selectively activated by chemical or photochemical means will be synthesized and their interaction with cellular nucleic acids and DNA-binding proteins will be studied. During the coming funding cycle, we plan to address the following objectives: (1) Synthetic methodology developed during the current funding cycle will be utilized to complete an efficient asymmetric, stereocontrolled total synthesis of FR900482 (1) and FR66979 (2). (2) The synthetic methodology we have developed in the total synthesis endeavor shall be utilized to prepare mitosene progenitors based on the FR900482 structure, that can be triggered by alternative chemical and biochemical means. (3) The interaction of FK973 with DNA complexed to several DNA-binding proteins that associate with DNA in the minor groove will be examined in detail. DNA substrates will be constructed and incubated with the respective peptide binding domains (BD) of the High Mobility Group I/Y (HMG-I/Y) DNA-binding proteins in the presence of FR66979*; subsequent enzymatic digestion of the cross-linked nucleotide-drug-amino acid adduct will be examined to isolate and fully characterize the structure of the covalent cross-link. (4) DNA cross-linking studies with full-length DNA-binding proteins of the High Mobility Group I/Y (HMG-I/Y) will be conducted with several synthetic DNA substrates. (5) In collaboration with Prof. Raymond Reeves (Washington State University), we plan to examine the DNA-protein cross-linking capacity of FR66979 in vivo in neoplastically transformed cells. (6) A new class of """"""""latent"""""""" triggerable progenitors of mitosenes, pyrrolizidine alkaloids and substances related to the anthramycins will be synthesized and utilized as potential new anti-cancer drugs and probes for the macromolecular cross-links.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA051875-11
Application #
6512671
Study Section
Medicinal Chemistry Study Section (MCHA)
Program Officer
Lees, Robert G
Project Start
1992-04-01
Project End
2004-05-31
Budget Start
2002-06-01
Budget End
2003-05-31
Support Year
11
Fiscal Year
2002
Total Cost
$291,145
Indirect Cost

  Institution

Name
Colorado State University-Fort Collins
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
112617480
City
Fort Collins
State
CO
Country
United States
Zip Code
80523

  Publications

Bass, Phillip D; Gubler, Daniel A; Judd, Ted C et al. (2013) Mitomycinoid alkaloids: mechanism of action, biosynthesis, total syntheses, and synthetic approaches. Chem Rev 113:6816-63
Williams, Robert M (2011) Natural products synthesis: enabling tools to penetrate Nature's secrets of biogenesis and biomechanism. J Org Chem 76:4221-59
Williams, Robert M; Stille, J; Echavarren, A et al. (2011) Discussion Addendum for: 4-Methoxy-4'-nitrophenyl. Recent Advances in the Stille Biaryl Coupling Reaction and Applications in Complex Natural Products Synthesis. Organic Synth 88:197-201
Subramanian, Vidya; Williams, Robert M; Boger, Dale L et al. (2010) Methods to characterize the effect of DNA-modifying compounds on nucleosomal DNA. Methods Mol Biol 613:173-92
Chamberland, Stephen; Grüschow, Sabine; Sherman, David H et al. (2009) Synthesis of potential early-stage intermediates in the biosynthesis of FR900482 and mitomycin C. Org Lett 11:791-4
Gubler, Daniel A; Williams, Robert M (2009) Synthetic Studies Towards the Mitomycins: Construction of the Tetracyclic Core via a Reductive Aminocyclization Reaction. Tetrahedron Lett 50:4265-4267
Namiki, Hidenori; Chamberland, Stephen; Gubler, Daniel A et al. (2007) Synthetic and biosynthetic studies on FR900482 and mitomycin C: an efficient and stereoselective hydroxymethylation of an advanced benzazocane intermediate. Org Lett 9:5341-4
Subramanian, Vidya; Ducept, Pascal; Williams, Robert M et al. (2007) Effects of photochemically activated alkylating agents of the FR900482 family on chromatin. Chem Biol 14:553-63
Judd, Ted C; Williams, Robert M (2004) A concise total synthesis of (+)-FR900482 and (+)-FR66979. J Org Chem 69:2825-30
Williams, Robert M; Ducept, Pascal (2003) Interstrand cross-linking of DNA by FK317 and its deacetylated metabolites FR70496 and FR157471. Biochemistry 42:14696-701

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