Induction of apoptosis by aryl-substituted diamines: role of aromatic group substituents and distance between nitrogens.

A series of aromatic substituted diamines was synthesized and characterized for their cytotoxic profiles against human breast and prostate tumor cell lines. Following a structure function analysis of the effects of changes of the benzyl substituents and the distance between amino groups the most potent analogues were analyzed biologically and were shown to induce apoptosis. These compounds do not induce the enzyme SSAT or deplete intracellular polyamine levels, mechanisms demonstrated by other cytotoxic polyamine analogues.

Synthesis of bis-spermine dimers that are potent polyamine transport inhibitors.

A series of novel spermine dimer analogues was synthesized and assessed for their ability to inhibit spermidine transport into MDA-MB-231 breast carcinoma cells. Two spermine molecules were tethered via their N(1) primary amines with naphthalenedisulfonic acid, adamantanedicarboxylic acid and a series of aliphatic dicarboxylic acids. The linked spermine analogues were potent polyamine transport inhibitors and inhibited cell growth cytostatically in combination with a polyamine synthesis inhibitor. Variation in the linker length did not alter polyamine transport inhibition. The amount of charge on the molecule may influence the molecular interaction with the transporter since the most potent spermidine transport inhibitors contained 5-6 positive charges.