Cisplatinum is currently used as a front line agent in many important tumors, but its dose-limiting nephrotoxicity prevents potential efficacy. There is therefore great interest in developing new platinum agents that have less toxicity. We have synthesized new platinum analogues containing DACH as a carrier ligand and DPPE as a leaving group. Previously we showed that these new platinum complexes have much less nephrotoxicity than cisplatinum. In the present study, the efficacy of one new platinum complex was evaluated with human patient bladder tumor specimens in three-dimensional histoculture as well as with monolayer cultures of cancer cell lines. The efficacy end points used were glucose consumption and thymidine incorporation on the histocultured specimens and MTT reduction on monolayer cell cultures. Our results showed that the new platinum complex was more effective at high concentration (10(-3) M) but less effective at low concentration (10(-4) M) compared to cisplatinum on histocultured bladder tumor specimens. The compound demonstrated higher efficacy than cisplatinum on P-388, and L-1210 leukemic cell lines. The new analog demonstrated similar efficacy to cisplatinum on the MKN-45 human stomach cancer cell line. The PC-14 human lung cancer cell line, MH1C1 rat hepatoma cell line, NIH-OV3, SKOV-3 ovarian cancer cell lines were as sensitive to the new analog as to cisplatinum at high concentrations of the new platinum analogue. The cisplatinum-resistant M-14 melanoma cell line was not sensitive to either the new analog or cisplatinum. Based on these results, this novel platinum compound appears to be a valuable lead compound with high efficacy and low nephrotoxicity.