Preparation and evaluation of trisubstituted pyrimidines as phosphatidylinositol 3-kinase inhibitors. 3-Hydroxyphenol analogues and bioisosteric replacements.

Two classes of trisubstituted pyrimidines related to PI-103 1 have been prepared and their inhibitory activities against phosphatidylinositol 3-kinase (PI3K) p110α were determined. From those with direct 6-aryl substitution compound 11a was the most potent inhibitor with an IC50 value of 62 nM, and showed similar activity against other class 1a PI3K isoforms tested, p110ß and p110γ. When a linking chain was introduced, as in the second exemplified class, compound 15f inhibited p110α with IC50 142 nM, and showed greater selectivity towards p110α. Compounds of both classes showed promising inhibition of cellular proliferation in IGROV-1 ovarian cancer cells. Among compounds designed to replace the 3-phenolic motif with structural isosteres, analogues incorporating a 4-indazolyl group possessed enzyme and cellular activities comparable to the parent phenols.

Design and combinatorial synthesis of a library of methylenesulfonamides and related compounds as potential kinase inhibitors.

An effective parallel solid phase route to methylenesulfonamides and amides bearing a wide variety of substituents is described. The three key reaction steps were reductive amination of a haloheteroaromatic aldehyde onto a benzhydrylamine type polystyrene resin, sulfonamide or amide formation and palladium catalysed transformation of the remaining heteroaromatic halogen. A process of virtual library design and filtering, together with solution and solid phase optimizations, aided the preparation of several novel drug-like product classes in high purities and should allow access to a variety of further useful analogues.