Mammalian S-adenosylmethionine decarboxylase (AdoMetDC) catalyses a regulatory important step in the biosynthesis of polyamines and is a potential target for therapeutic agents against various parasitic diseases and proliferative disorders. In the present study we examined the effects of a newly synthesized AdoMetDC inhibitor, 4-amidinoindan-1-one 2ƀ-amidinohydrazone (CGP 48664), on polyamine metabolism in the mouse leukaemia cell line L1210. Treatment of the cells with 2 ƁM CGP 48664 led to a depletion of cellular spermidine and spermine. The putrescine content, in contrast, was markedly increased. Cells seeded in the presence of the inhibitor showed a significant decrease in growth rate, which was fully reversed by the addition of 2 ƁM spermidine or 1 ƁM spermine. The syntheses of ornithine decarboxylase and AdoMetDC were greatly increased in cells treated with CGP 48664. These increases were not correlated with similar changes in the mRNA levels, indicating the involvement of a translational mechanism. CGP 48664 was demonstrated to be a very poor competitor of spermidine uptake in the L1210 cells. L1210 cells deficient in polyamine transport were as sensitive to the antiproliferative effect of the inhibitor as were the parental cells, indicating that CGP 48664 did not enter the cells by the polyamine transport system. In addition to inhibiting AdoMetDC, CGP 48664 stabilized the enzyme against degradation. In the present study we also demonstrated that aminoguanidine (AMG), which is frequently used in cellular systems to inhibit any action of serum polyamine oxidase, apparently inhibits AdoMetDC by an irreversible mechanism that markedly stabilizes the enzyme against proteolytic degradation. CGP 48664 and the parental compound methylglyoxal bis(guanylhydrazone), which is also a potent inhibitor of AdoMetDC, contain one or two AMG-like moieties; the importance of these residues in the inhibition of AdoMetDC is discussed.