Selective photodetection and photodynamic therapy of prostate cancer through targeting of proteolytic activity - Abstract

Frequent side effects of radical treatment modalities and the availability of novel diagnostics have raised the interest in focal therapies for localized prostate cancer.

To improve the selectivity and therapeutic efficacy of such therapies, we developed a minimally invasive procedure, based on a novel polymeric photosensitizer prodrug sensitive to urokinase-like plasminogen activator (uPA). The compound is inactive in its prodrug form and accumulates passively at the tumor site by the enhanced permeability and retention effect. There, the prodrug is selectively converted to its photoactive form by uPA which is over-expressed by prostate cancer cells. Irradiation of the activated photosensitizer exerts a tumor-selective phototoxic effect. The prodrug alone (8 ┬ÁM) showed no toxic effect on PC-3 cells, but upon irradiation the cell viability was reduced by 90%. In vivo, after systemic administration of the prodrug, PC-3 xenografts became selectively fluorescent. This is indicative of the prodrug accumulation in the tumor and selective local enzymatic activation. Qualitative analysis of the activated compound confirmed that the enzymatic cleavage occurred selectively in the tumor, with only trace amounts in the neighboring skin or muscle. Subsequent photodynamic therapy studies demonstrated complete tumor eradication of animals treated with light (150 J/cm2 at 665 nm) 16 hours after the injection of the prodrug (7.5 mg/kg). These promising results evidence the excellent selectivity of our prodrug with the potential to be used for both, imaging and therapy of localized prostate cancer.

Written by:
Zuluaga MF, Sekkat N, Gabriel D, van den Bergh H, Lange N.   Are you the author?
School of Pharmaceutical Sciences, University of Geneva.

Reference: Mol Cancer Ther. 2012 Dec 27. Epub ahead of print.
doi: 10.1158/1535-7163.MCT-12-0780

PubMed Abstract
PMID: 23270928 Prostate Cancer Section