Lamellarin-inspired potent topoisomerase I inhibitors with the unprecedented benzo[g][1]benzopyrano[4,3-b]indol-6(13H)-one scaffold.

A new class of topoisomerase I inhibitors containing the unprecedented benzo[g][1]benzopyrano[4,3-b]indol-6(13H)-one (abbreviated as BBPI) ring system have been developed based on structure-activity relationship studies of the cytotoxic marine alkaloid lamellarin D. The pentacyclic BBPI scaffold was constructed from N-tert-butoxycarbonylpyrrole by sequential and regioselective functionalization of the pyrrole core using directed lithiation, conventional electrophilic substitution, and palladium-catalyzed cross-coupling reactions. Further N-alkylation of the scaffold followed by selective deprotection of the O-isopropyl group produced a range of N-substituted BBPI derivatives. The BBPIs thus prepared exhibited potent topoisomerase I inhibitory activity in DNA relaxation assays. The activities of BBPIs were higher than those of lamellarin D and camptothecin; they showed potent and selective antiproliferative activity in the panel of 39 human cancer cell lines established by Japanese Foundation for Cancer Research. COMPARE analyses indicated that the inhibition patterns of the BBPIs correlated well with those of the known topoisomerase I inhibitors such as SN-38 and TAS-103. The water-soluble valine ester derivative exhibited antitumor activity in vivo against murine colon carcinoma colon 26. The activity was comparable to that of the approved anticancer agent irinotecan.

Synthesis, resolution, and biological evaluation of atropisomeric (aR)- and (aS)-16-methyllamellarins N: unique effects of the axial chirality on the selectivity of protein kinases inhibition.

The total synthesis of the optically active (aR)- and (aS)-16-methyllamellarins N (3a and 3b) was achieved via resolution on HPLC chiral stationary phase. The kinase inhibitory activities of both enantiomers were evaluated on eight protein kinases relevant to cancer and neurodegenerative diseases (CDK1/cyclin B, CDK2/cyclin A, CDK5/p25, GSK-3α/ß, PIM1, DYRK1A, CLK3, and CK1). Isomer (aR)-3b exhibited potent but nonselective inhibition on all protein kinases except CK1, while (aS)-3a selectively inhibited only GSK-3α/ß, PIM1, and DYRK1A. The different inhibition profiles of (aS)-3a and (aR)-3b were elucidated by docking simulation studies. Although parental lamellarin N (2) inhibited the action of topoisomerase I, both (aS)-3a and (aR)-3b showed no inhibition of this enzyme. The phenotypic cytotoxic activities of 2, (aS)-3a, and (aR)-3b on three cancer cell lines (HeLa, SH-SY5Y, and IMR32) changed according to their topoisomerase I and protein kinase inhibitory activities.