Thesis
French
ID: <
10670/1.ighzj8>
Abstract
Protein kinases represent promising targets for anti-cancer drug design. In 2003, inhibitors of two of these enzymes, CK2 and Pim-1, were identified by the screening of the Curie Institute/CNRS small-molecule library. The aim of this thesis was to synthesize derivatives of these hits with a 5-azaindole scaffold in order to optimize their biological activity. As the synthesis of such molecules was not reported in the literature, efficient and flexible procedures were developed to access to these structures. Diarylated symmetrical 5-azaindoles were thus prepared by palladium-catalyzed heteroannulation from 4-aminopyridines derivatives. The methodology was subsequently extended to silylalkynes and led to monoarylated products through domino sila-Sonogashira/5-endo cyclization. Finally, a one-pot Sonogashira coupling/aminopalladation/reductive elimination afforded unsymmetrical compounds with a total control of the regioselectivity. Using these methodologies, 70 functionalized molecules were easily prepared. Their cytotoxicity and biological activity as CK2 inhibitors were then evaluated. A structure-activity relationship study was performed, which led to the identification of two key structural elements for the CK2 inhibitory potency of 5-azaindoles.