Angiogenesis; cancer; drug discovery; kinases; kinase inhibitor; medicinal chemistry; natural products; structure-activity rela-tionships; total synthesis; L-783277; SAR; resorcylic lactone

COST-Action CM0602 - Inhibitors of angiogenesis: design, synthesis and biological exploitation

The project involves the total synthesis of a series of new analogs of the natural product L-783277 and their biological assessment as potential angiogenesis inhibitors. L-783277 is a potent protein kinase inhibitor, which may serve as a lead structure for the development of new drug candidates for angiogenesis-directed anticancer therapy. This project will ad-dress some specific key questions on the structure-activity relationships for L-783277, which are largely unexplored so far. The results of these studies will allow a more informed assessment of the potential of L-783277 as a lead structure for angiogenesis-directed drug discovery and they could provide an extended basis for future lead optimization.

Full name of research-institution/enterprise: ETH Zürich Dep.Chemie und Angewandte Biowissenschaften Institut für Pharmazeutische Wissenschaften, HCI H 405

BE, CH, CY, CZ, DE, DK, ES, FR, GR, HR, IE, IL, IT, NO, PL, RS, SE, SI, SK, TR, UK

This project was directed at the total synthesis of a series of new analogs of the fungal natural product L-783277 and the assessment of their kinase inhibitory and anti-angiogenic activity. L-783277 is a potent protein kinase inhibitor and a potential lead structure for the development of new drug candidates for angiogenesis-directed anticancer therapy. One of the major objectives of this project has been the synthesis of the lactam analog of L-783277 as a potentially metabolically more stable alternative to the natural product. The synthesis of this analog proved to be substantially more demanding than originally anticipated; the compound could not be prepared by a simple adaptation of the route that had been followed previously in the synthesis of L-783277 and its synthesis has been successfully completed. Instead, only the corresponding C7'-C8' trans analog has been obtained. The biochemical and biological characterization of this compound is ongoing. Inspired by structural data for protein-ligand complexes with other resorcylic lactones, we have also prepared three deoxy variants of L-783277 and studied their kinase inhibitory activity. Remarkably, 5’-deoxy L-783277 retains almost the full in vitro potency and selectivity of natural L-783277, with low nM IC50 values against the most sensitive kinases. In contrast, both the 4’-deoxy and the 4’,5’-bis-deoxy analogs of L-783277 exhibit significantly reduced kinase inhibitory activity. Lastly, we have also prepared two new analogs of L-783277 which incorporate a pyrrolidine amide moiety as a (non-reactive) isostere of the enone system in the natural product. Both of these compounds were devoid of any kinase inhibitory activity.

Swiss Database: COST-DB of the State Secretariat for Education and Research Hallwylstrasse 4 CH-3003 Berne, Switzerland Tel. +41 31 322 74 82 Swiss Project-Number: C08.0052