Efficacy of DR5-targeted immunoliposomes in pancreatic cancer models primed with SMO inhibitors

Background: Pancreatic cancer (PaCA) is a deadly disease with 5-year survival of 6%. Poor prognosis is attributed to low tumor microvessel density, poor perfusion, and amplified stroma, constituting a drug delivery barrier. Tumor priming using NVP-LDE225, an inhibitor of sonic hedgehog (sHH) signaling, can compromise the stromal drug delivery barrier by mediating stromal thinning, and discharge of tumor interstitial pressure (IFP) and decompression of tumor vasculature, resulting in increased perfusion and deposition of drug-containing nanoparticles into tumors. However, convective fluid efflux may increase as interstitial tumor pressure declines during priming, increasing drug washout. We hypothesize that a targeting nanoparticle delivery system will increase drug retention during priming, thereby increasing efficacy. Approach: Patient-derived xenograft (PDX) PaCA tumors possessing varied stromal architecture and degrees of desmoplasia were implanted s.c. in SCID mice. They ranged from low- to high desmoplasia and varied in microvessel density. The sHH inhibitor (sHHI) NVP-LDE225 was administered p.o. for 10 days, and fluorescent 80nm sterically-stabilized liposomes (SSL) were administered at intervals to probe tumor vascular perfusion/permeability. Efficacy was investigated with SSL liposomes containing doxorubicin (SSL-DXR), optionally coupled covalently with Death Receptor 5 monoclonal antibody AMG655 (SSL-DXR-DR5), which binds the pro-apoptotic DR5 receptor and initiates the extrinsic apoptotic pathway. Results: Quantitative fluorescence microscopy showed that sHH inhibitor treatment mediated a temporal window of enhanced permeability/perfusion and deposition of SSL that varied with the amount of desmoplasia in PDX models, which are otherwise highly impermeant to SSL. Quantitative IFP measurements using the “wick and needle” technique showed reduction of IFP paralleled establishment of the priming window. In the absence of sHH inhibitor priming, SSL-DXR (2 mg/kg), SSL-DXR-DR5 (2 mg/kg of DXR), and free DR5 (dose-matched to SSL-DXR-DR5 protein) were administered to evaluate the effect of tumor priming on therapeutic efficacy. Any DR5-containing treatment was curative for MiaPaCA-2 tumors (high DR5 expression). The response of Panc-1 tumors (low DR5 expression) was greatest with SSL-DXR-DR5. Tumor responses with the PDX model #12424, (high DR5 expression) were greater in sHHI-treated animals compared to controls. SSL-DXR + free DR5 mediated a transient inhibition of tumor progression, whereas a durable inhibition of tumor progression was observed with SSL-DXR-DR5 immunoliposomes. Conclusions: Efficacy of SSL-DXR-DR5 immunoliposomes was superior to other treatments in two cell line-based tumors, and tumor response varied with DR5 receptor density. Efficacy in low permeability/perfusion PDX tumors was greatest following tumor priming by sHH inhibitors. Citation Format: Darren Chan, Charlene Minx, Jun Wang, Arindam Sen, Michael Johnston, Wen Wee Ma, Christopher J. Scott, Robert M. Straubinger. Efficacy of DR5-targeted immunoliposomes in pancreatic cancer models primed with SMO inhibitors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 3704.