Abstract
The enediynes remain among the most potent antitumoral agents to have been discovered in the past decade. Following prodrug activation, the enediynes undergo cycloaromatization reactions resulting in formation of highly reactive diradical intermediates. The diradical species engage in atomtransfer chemistry to produce neutral arene products, in the process inducing damage to key macromolecules. Several of the naturally occurring members of the enediyne family of antibiotics have entered clinical trials, and this has prompted the design of synthetic enediynes, where the enediyne 'warhead' is conjugated to a targeted delivery vehicle. This review will describe ecent efforts using chemical synthesis to identify and improve the target specificity of designed enediynes, and to establish efficient methods to achieve prodrug activation. Finally, new horizons will be examined, including the use of post-cycloaromatized enediyne templates as recognition elements for unique DNA and RNA microenvironments.
Keywords: Enediyne, prodrug, cycloaromatization, DNA, chromoprotein, protease, diradicals, bulges
Related Journals
Current Chinese Science
Anti-Cancer Agents in Medicinal Chemistry
Current Computer-Aided Drug Design
Current Bioactive Compounds
Current Medicinal Chemistry
Current Topics in Chemistry
The Natural Products Journal
Current Catalysis
Current Chinese Chemistry
Combinatorial Chemistry & High Throughput Screening
Related Books
A Journey Through Water: A Scientific Exploration of The Most Anomalous Liquid on Earth
Advances in Mathematical Chemistry and Applications
Advances in Mathematical Chemistry and Applications
Advances in Mathematical Chemistry and Applications Volume 1 (Revised Edition)
Advances in Organic Synthesis
Advances in Organic Synthesis
Advances in Organic Synthesis
Advances in Organic Synthesis
Advances in Organic Synthesis
Advances in Organic Synthesis