Efficacy of a synthetic lytic peptide in the treatment of prostate cancer.

In the last several years, significant effort has been applied to identifying novel agents with effectiveness against prostate cancer. These studies were designed to determine the efficacy of one of these novel compounds, D2A21, in the treatment of an animal model of prostate cancer. Using the Mat-Ly-Lu(MLL) line of the Dunning R-3327 rat prostate adenocarcinoma model, the optimal dose, schedule and route of administration of D2A21 were established. A study involving the G line was used to further support these findings. In addition, hemotoxylin and eosin stained tissue samples were examined to investigate the extent of inhibition of lung metastases in animals injected with MLL cells. When D2A21 was injected intraperitoneally or subcutaneously, MLL and G cell tumor growth was inhibited 50-72% as demonstrated by both tumor volumes and weights. The optimal dosage of 0.179 mg/injection was established and it was determined to be most efficacious when administered five times per week. At this concentration, D2A21 appears to have no significant toxicity. Additionally, D2A21 increased the survival rate from only 25% to 70-75% in animals that were challenged with a large number of tumor cells. The peptide D2A21 is able to significantly inhibit tumor growth in rat models of prostate cancer. In addition, it can inhibit metastases and decrease deaths resulting from metastases in these animals.