Design, synthesis, and biological evaluation of (E)-styrylbenzylsulfones as novel anticancer agents.

Cell cycle progression is regulated by cyclins and cyclin-dependent kinases, which are formed at specific stages of the cell cycle and regulate the G1/S and G2/M phase transitions, employing a series of "checkpoints" governed by phosphorylation of their substrates. Tumor development is associated with the loss of these checkpoint controls, and this provides an approach for the development of therapeutic agents that can specifically target tumor cells. Here, we describe the synthesis and SAR of a novel group of cytotoxic molecules that selectively induce growth arrest of normal cells in the G1 phase while inducing a mitotic arrest of tumor cells resulting in selective killing of tumor cell populations with little or no effect on normal cell viability.

Differences in binding of (99m)Tc-disintegrins to integrin alphavbeta3 on tumor and vascular cells.

Unlabelled: Disintegrins, which contain an Arg-Gly-Asp sequence in their binding domains are antagonists of integrins such as alphavbeta3. The purpose of this study was to compare a range of disintegrins with different integrin selectivities for their binding behavior in vitro to vascular endothelial cells bearing alphavbeta3 and to cultured tumor cells which express alphavbeta3.

Methods: Five disintegrins (bitistatin, kistrin, flavoridin, VLO4 and echistatin) and a cyclic pentapeptide, c[RGDyK], were radiolabeled with (99m)Tc and tested for binding to cells in vitro.