The overall objective of this research program involves the development of general, broadly applicable methods for the synthesis of novel heterocyclic systems. Emphasis is to be placed on the use of 1,3- dipolar cycloaddition chemistry for the construction of a variety of biologically interesting molecules. Among the reactions to be studied are dipolar cycloadditions of carbonyl ylides, azomethine ylides, thiocarbonyl ylides, and mesoionic dipoles. The project will focus on using the rhodium catalyzed reaction of alpha-diazo carbonyl compounds as a method for generating a variety of 1,3-dipoles. It is intended to use the dipolar cycloaddition reaction of a five ring cyclic carbonyl ylide dipole as the key step for the construction of the illudin/ ptaquilosin skeleton. This strategy is to provide for a rapid assembly of the basic core unit of the target molecules having most of the functionality in place. The principal investigator notes that because of their extreme toxicity and consequent low therapeutic index, it seems reasonable to him to modify the basic skeletons so as to reduce cytotoxicity without compromising antitumor activity. His intention is synthesize analogs of these compounds so as to evaluate their DNA cleaving abilities. It is noted that the synthetic analogs may be more stable and more easily available than the natural compounds. The tandem cyclization-cycloaddition chemistry to be developed will also be used for the synthesis of complex alkaloids and to provide quantities of material needed for detailed biological assay. It is reported that many alkaloids have been shown to be carcinogenic and mutagenic and their metabolites are known to react with DNA and other cellular nucleophiles. The principal investigator notes that it should be possible to construct analogs of alkaloids which may be selective enough in their administered form to reach the active sites of tumor cell growth and possess proper alkylating ability to interfere with DNA replication. It is the goal of this proposal to seek support for the preparation of such analogs, which are to be submitted to the NIH for determination of structure activity relationships in the treatment of various cancers. It is stated that the generation of biologically-active compounds by synthesis remains an important part of both health related and chemical research.
Showing the most recent 10 out of 45 publications