In vitro demonstration of enhanced prostate cancer toxicity: pretargeting with Bombesin bispecific complexes and targeting with polymer-drug-conjugates.

Background: Bombesin has been used to target Bombesin receptor, a growth receptor, which is over-expressed in many cancers, including prostate cancer. Polymer-anti-neoplastic-drug-conjugates (PDC) were also developed to reduce non-specific toxicity and increase tumor toxicity utilizing the enhanced permeability and retention effect, benefitting treatment of large tumors with well-established vasculature.

Purpose: If PDCs were delivered by targeted delivery to cancer cells, tumor toxicity would be enhanced and non-specific toxicity decreased.

Methods: Cardiocyte toxicity was assessed in H9c2 cardiocytes with doxorubicin (Dox) or N-terminal DTPA-modified-Doxorubicin-loaded-polyglutamic acid polymers (D-Dox-PGA). Therapeutic efficacy of targeted D-Dox-PGA after pretargeting with Bombesin-conjugated anti-DTPA-antibody Bispecific Complexes (Bom-BiSpCx) was compared to that of Dox in PC3 cells. Bom-BiSpCx was generated by thioether bond between Bombesin to Anti-DTPA antibody.

Results: D-Dox-PGA was demonstrated to have less cardiocyte toxicity (IC50 = 20 µg/ml) than free Dox (1.55 µg/ml, p < 0.001). However, after pre-targeting of human prostate cancer PC3 cells with Bom-BiSpCx and targeting with D-Dox-PGA, IC50 (13.2 µg/ml) was about two times less than that of Dox (28.5 µg/ml, p < 0.0001).

Discussion: Targeted delivery of PDCs having lower cardiocyte toxicity enabled higher efficiency cancer cell therapy.

Conclusion: This study may allow development of very efficient targeted prostate cancer pro-drug therapy.