Abstract 2547: PEGPH20 enhances chemotherapy in patient-derived and traditional cell-derived xenograft NSCLC models

Abstract

Abstract Hyaluronan (HA) accumulates in the tumor microenvironment (TME) of many solid tumors, including prostate, colon, breast, stomach, ovary, pancreas and lung, and HA accumulation is associated with tumor progression and a negative clinical outcome. Accordingly, the HA degrading enzyme pegylated recombinant human hyaluronidase PH20 (PEGPH20) was developed to allow systemic therapy and enable treatment of HA-high tumors. Preclinical studies have demonstrated that PEGPH20-mediated HA removal from HA-rich xenograft tumors in mice decreases tumor interstitial fluid pressure and water content; resulting in decompression of tumor vasculature, increased tumor perfusion and enhanced chemotherapeutic (CTX) activity. As non-small cell lung cancer (NSCLC) is the most common cancer worldwide and is characterized by high levels of HA (∼30%), we aimed to evaluate PEGPH20 enhancement of anti-tumor activity of NSCLC CTXs. Specifically, using both cell derived xenograft (CDX) models, peritibial H2170/HAS3 human NSCLC xenografts, and patient derived xenograft (PDX) models, we investigated CTX tumor growth inhibition (TGI)+/- PEGPH20. Nude mice were inoculated with either H2170/HAS3 cells adjacent to the tibial periosteum or patient derived tumor fragments of human NSCLCs implanted subcutaneously, and tumor growth was monitored via ultrasonography or caliper, respectively. When tumors reached ∼400 mm3, mice were staged into four groups: (1) vehicle; (2) PEGPH20, (3) CTX(s), or (4) PEGPH20 + CTX(s). PEGPH20 alone depleted tumor HA in both CDX and PDX models. In CDX studies, PEGPH20 increased tumor perfusion, reduced hypoxia and decreased HIF-1α expression (p<0.05). A summary table of the TGI data is shown below. The average TGI for PEGPH20 plus CTX(s) was superior to all CTX(s) alone, suggesting that enzymatic depletion of TME HA increases tumor sensitivity to NSCLC CTXs, likely due to increased CTX access into the TME. PEGPH20 clinical trials in NSCLC are currently in development. Summary of TGIsGroup (n≥5/group)CDX%TGI w/ docetaxelCDX%TGI w/ nab-paclitaxel + carboplatinPDX%TGI w/ docetaxelPDX%TGI w/ gemcitabine + cisplatin(p-value vs. V)Vehicle (V)----PEGPH20 (P)28.5 (p<0.05)11.5 (p>0.05)44.4 (p<0.01)29.3 (p>0.05)CTX(s)19.8 (p>0.05)68.6 (p<0.0001)52.5 (p<0.001)38.4 (p>0.05)P + CTX56.1 (p<0.001)93.5 (p<0.0001)>100 (p<0.0001)76.6 (p<0.01) Citation Format: Jessica A. Cowell, Xiaoming Li, Ping Jiang, Susan Zimmerman, Rebecca Symons, H. Michael Shepard, Daniel C. Maneval, Curtis B. Thompson. PEGPH20 enhances chemotherapy in patient-derived and traditional cell-derived xenograft NSCLC models. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 2547. doi:10.1158/1538-7445.AM2015-2547