Abstract B30: Sustained release of PARP inhibitor Talazoparib and chemotherapeutic Docetaxel from modified brachytherapy spacers for treatment of breast and prostate cancer

Abstract

Abstract Sustained localized delivery of cancer therapeutics is a safe and effective unique option for local control of tumors. Here we report a novel biodegradable implant with the capability to encapsulate different therapeutics, molecular agents, or nanoparticles for local intratumoral delivery. We have successfully demonstrated in vivo the delivery of PARP inhibitor Talazoparib to treat Brca1-mutated cancers and Docetaxel to treat localized or recurring prostate cancers. This one-time intratumoral injection provides a safe vehicle for the sustained release of PARP inhibitor Talazoparib and chemotherapeutic Docetaxel in contrast to low bioavailability and toxicity associated with oral or systemic delivery. Methods: Biodegradable implants of 1-2mm length and 0.8mm diameter were loaded with ~50μg Talazoparib for BRCA1-mutated breast cancer studies and ~500μg Docetaxel (DTX) for prostate cancer studies. The implants were characterized in vitro using SEM and HPLC, and the release kinetic studies were carried out in PBS buffer (pH 6.0) at 37°C. The IC50's were determined using an MTS assay in breast cancer cell lines derived from Brca1 Co/Co; MMTV-Cre; p53+/−mice, W0069 and W780, and human-derived prostate cancer, PC3. In vivo studies were carried out in Brca1 Co/Co; MMTV-Cre; p53+/− spontaneous tumored mice for breast cancer studies. Subcutaneous PC3 tumors were xenografted in nude mice. Prostate cancer studies were done with and without radiation. Drug-loaded implants were injected once intratumorally using an 18G brachytherapy needle. Results: The release profile of the drug from the implant in buffer showed a highly sustained release for multiple weeks at therapeutically relevant doses for both docetaxel and Talazoparib loading implants. Breast cancer cell lines W0069 and W780 were highly sensitive to Talazoparib, most likely due to Brca1 mutation. Following a one-time intratumoral implantation of Talazoparib, tumors reduced in size by an average of 50%, while untreated tumors increased ~5X in size. Talazoparib dosing appeared to be well tolerated by the mice. Docetaxel implants proved to be an effective method for prostate cancer in vivo with no significant weight loss observed. The local docetaxel spacer group showed sustained tumor inhibition compared to empty implants and an equivalent DTX dose given systemically. At 40 days 89% survival was observed for mice treated with localized DTX implants compared with 0% in all other treatment groups. Histology samples were taken from sacrificed mice and immunohistochemistry are currently underway. Conclusions: Sustained local release of therapeutically relevant doses of Talazoparib and Docetaxel were observed in vitro and in vivo. Therapeutics-loaded implants represent a novel delivery route that are well-tolerated. Sustained release of Talazoparib appears to amplify the therapeutic efficacy of PARP inhibition in BRCA1 mutated breast cancers and sustained release of Docetaxel is an effective chemotherapy option alone or in combination with radiation therapy. These results laid a strong foundation for the use of localized biodegradable implants for the treatment of breast and prostate cancer. This work was supported by the Army- W81XWH-14-1-0092, Breast Cancer Research Foundation and Northeastern University–Dana Farber Cancer Institute collaborative grant. Citation Format: Jodi Belz, Noelle Castilla Ojo, Paige Baldwin, Rajiv Kumar, Anne van de Ven, Karen Liby, Robert Cormack, Mike Makrigiorgos, Srinivas Sridhar4. Sustained release of PARP inhibitor Talazoparib and chemotherapeutic Docetaxel from modified brachytherapy spacers for treatment of breast and prostate cancer. [abstract]. In: Proceedings of the AACR Special Conference on Engineering and Physical Sciences in Oncology; 2016 Jun 25-28; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2017;77(2 Suppl):Abstract nr B30.