Twenty nine Amaryllidaceae alkaloids and their derivatives belonging to five most common groups, including lycorine-, lycorenine-, tazettine-, crinine-, and narciclasine-types, were evaluated for antiproliferative, apoptosis inducing and antiinvasive activities in vitro. The antiproliferative properties of each test compound are in agreement with those reported in the literature, while the high potency of amarbellisine is reported for the first time. It was also found that with the exception of ungeremine, amarbellisine and hippeastrine, the antiproliferative effect of the potent compounds is apoptosis-mediated. Thus, apoptosis in Jurkat cells was triggered by narciclasine, narciclasine tetraacetate, C10b-R-hydroxypancratistatin, cis-dihydronarciclasine, trans-dihydronarciclasine, lycorine, 1-O-acetyllycorine, lycorine-2-one, pseudolycorine, and haemanthamine. With the exception of narciclasine, lycorine and haemanthamine, the apoptosis inducing properties of these compounds are reported for the first time. The collagen type I invasion assay revealed potent antiinvasive properties associated with N-methyllycorine iodide, hippeastrine, clivimine, buphanamine, and narciclasine tetraacetate, all of which were tested at non-toxic concentrations. The antiinvasive activity of buphanamine is particularly promising since this alkaloid is not toxic to cells even at much higher doses. This work has resulted in identification of several novel leads for anticancer drug design.
