Tetrabutylammonium fluoride-assisted rapid N9-alkylation on purine ring: Application to combinatorial reactions in microtiter plates for the discovery of potent sulfotransferase inhibitors in situ

Tremendous efforts have been invested in the synthesis of purine libraries due to their importance in targeting various enzymes involved in different diseases and cellular processes. The synthesis of N9-alkylated purine scaffolds relied mostly on Mitsunobu conditions with a variety of alcohols or strong basic conditions with different organic halides. A more reliable and efficient way for the synthesis of N9-alkylated purine scaffolds is reported. This method uses tetrabutylammonium fluoride (TBAF) to assist such chemistry. In many cases, the reactions were completed within 10 min and gave the desired product in high yield and selectivity. Moreover, these mild reaction conditions permitted its use in combinatorial reactions in microtiter plates followed by in situ screening for the discovery of potent sulfotransferase inhibitors.

Combinatorial reactions in microtiter plates followed by screening in situ have been developed with the use of tetrabutylammonium fluoride to accelerate the N9-alkylation of purine derivatives with organic halides as demonstrated in the discovery of the most potent arylsulfotarnsferase inhibitor to date.Figure optionsDownload as PowerPoint slide