Dithiocarbamates can form lipid soluble complexes with lead and are known to markedly increase tissue uptake of lead and potentiate toxic effects of lead in rats. Cellular effects of the interactions between lead and diethyldithiocarbamate were studied in primary cultures of rat hepatocytes. The cells were incubated with lead acetate (PbAc) or lead-diethyldithiocarbamate complex (Pb(DTC)2), labelled with 203Pb. The lipid soluble Pb(DTC)2 was rapidly taken up in the cells and after 30 min incubation the cellular levels of lead were approximately 40 times higher in cells incubated with Pb(DTC)2 than in cells incubated with a similar concentration of PbAc. The maximal cellular uptake of lead was reached after 4 h incubation with Pb(DTC)2, while incubation with PbAc caused a slow continuously increasing uptake of lead during the 20 h incubation. The enzyme delta-aminolevulinic acid dehydratase (ALAD) was inhibited to a much higher extent by Pb(DTC)2 compared to PbAc after incubations with similar concentrations of lead. Maximal inhibition of ALAD activity was reached at a cellular concentration of 0.5-1 nmol Pb/mg protein, irrespective of which form of lead was used in the incubation. Pb(DTC)2 was shown to inhibit ALAD activity also in vitro when incubated with purified ALAD enzyme. The rapid and high intracellular uptake and cellular response of Pb(DTC)2, shown in the present study, may explain the drastic effects of dithiocarbamates on lead distribution and toxicity previously shown in vivo.