Marine microorganisms are of considerable interest as a promising source of enzymes with unsuspected potentials as catalysts for chemical synthesis. We describe here an efficient method for one-pot indolizine synthesis that has been developed using lipase A and lipase B from Candida antarctica as biocatalysts. As showed by HPLC/MS analysis, the yield in indolizines was higher in the presence of the biocatalyst than in absence of enzyme. Lipase A, from Candida antarctica, showed high catalytic activity and selectivity for the cycloaddition reactions. When the reactions were performed under ultrasound irradiation, the Candida antarctica lipase catalyzed reactions yielded pure indolozines, in good yields and in very short time.
A small library of heterocycle-fused quinazolin-4-ones was prepared and evaluated as kinase inhibitors. The key step of the two-step process involves the environmental friendly thermolysis of N-ethoxycarbonyl-N'-(hetero) arylguanidines at 130 °C in water. The cyclization is fully regioselective. The most active molecules, 7-(2-hydroxyethylamino)- and 7-(3-hydroxypropylamino)-pyrazolo[4,3-f]quinazolin-9-ones, inhibit DYRK1A and CLK1 at submicromolar concentrations, indicating the potential interest of this new heterocycle in drug design.
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