Anti-tumor effect of combination therapy with intratumoral controlled-release paclitaxel (PACLIMER microspheres) and radiation.

Background: Paclitaxel is one of the few chemotherapeutics effective in patients with advanced protstate cancer. Paclitaxel has also been reported to have radiosensitizing effects in prostate cancer. Local delivery of a controlled-release paclitaxel product may allow for increase local concentrations of paclitaxel at the tumor site and, in conjunction with radiation, may enhance cell kill by its radiosensitization mechanism.

Methods: Orthotopic LNCaP tumors were injected with 40% PACLIMER Microspheres (40% loading; w:w) when tumors were 100-200 mm(3). Twenty-eight days post cell injection, mice were sacrificed, tumors weighed, and serum measured for PSA. TSU-xenografts were injected with PACLIMER Microspheres (10% and 40% loaded; w:w) or placebo microspheres when the tumors were approximately 100 mm(3). Half of xenograft tumors were irradiated with a single dose (10 Gy) of radiation. Tumor volume was followed over time.

Results: Forty percent PACLIMER Microspheres significantly reduced tumor growth in the LNCaP orthotopic model. PSA was a good indicator of response. Forty percent PACLIMER Microspheres had a significant effect on slowing TSU growth compared to placebo microspheres. Addition of a single acute dose of radiation significantly enhanced the effect of 10% PACLIMER Microspheres (P < 0.05), had minimal effect on 40% PACLIMER Microspheres, and no enhancing effect on tumors treated with placebo microspheres.

Conclusions: A controlled-release formulation of paclitaxel can be very effective in the treatment of prostate cancer. Additionally, PACLIMER Microspheres may be effectively used as a radiosensitizer in genitourinary cancers.