posted on 2006-12-22, 00:00authored byChristopher J. Hayes, Benjamin P. Whittaker, Susan A. Watson, Anna M. Grabowska
We have developed an improved and reliable method for stereoselective functionalization at C4 of naturally
occurring (+)-catechin. Our method utilizes DDQ oxidation followed by trapping of the quinonemethide
intermediate with allyl alcohol. The quinonemethide intermediate can be regenerated from the allyl ether
by exposure to boron trifluoride diethyl etherate. This reactive intermediate can be trapped with a wide
range of external nucleophiles. NBS bromination, lithium halogen exchange, and alkylation gave access
to C8-allyl derivatives of (+)-catechin, and this allyl group was used in a series of cross-metathesis
experiments to prepare novel dimeric catechin-derived products. Gallate ester derivatives of the novel
C4- and C8-substituted catechins were prepared, and these materials were screened for potential anticancer
activity in a range of human cancer cell lines. From these preliminary cytotoxicity assays (MTT) we
found that C8-propyl-catechin gallate was more active (IC50 = 31 μM) than catechin gallate (CG, IC50
= 53 μM) or epicatechin gallate (ECG, IC50 = 76 μM) against the colorectal adenocarcinoma cell line
HCT116. Differential sensitivity in pancreas (Pan1), bladder (RT112), stomach (MGLVA1), liver (HepG2),
and fibroblasts (46Br.1G1) cell lines was also observed.