Abstract
Abstract Introduction: The eastern woodchuck is an established model of human hepatitis B viral infection and spontaneously develops HCC in the context of chronic woodchuck hepatitis viral infection (WHV) at a median age of 24 months. In this translational model of angiogenesis driven HCC, we evaluated the impact of sorafenib on delaying HCC development. Methods: Woodchucks were bred and inoculated at birth with titered infectious WHV pools obtained from chronic WHV carriers. By 12 months of age, the rate of chronic WHV infection was >60%. Animals were trained to receive drug orally mixed in a liquid diet. After an initial single dose woodchuck PK study it was predicted that sorafenib given orally M-F at 2.5 mg/kg once daily or 5mg/kg daily would achieve exposure in woodchucks ∼ 2x IC50 and 5X IC50 for all targets of sorafenib. This is within the exposure achieved in humans where the starting dose achieves exposures that are ∼ 10-12X IC50. We hypothesized that for both long term tolerability and delaying of HCC development, lower doses maybe ideal. Viral titers of WHV DNA were serially assessed, PK exposure of sorafenib and serial ultrasound (USG) was done q2 weeks to assess HCC development. Six WHV+ animals of similar age per arm were randomized to Placebo (P), low or high dose sorafenib. Time to tumor development (TTD) was measured from start of therapy to first occurrence of at least one 2 cm HCC was confirmed on 2 serial USGs. Tumor volume of all tumors seen was assessed as tumor burden. Results: Median TTD was 393 days, 490 and 498 days in the P, low and high dose sorafenib groups respectively. No toxicity was seen and PK results showed exposures as predicted in the two sorafenib groups. The tumor burden adjusted for the duration of therapy was significantly lower in the low dose group than the high dose and P groups. We evaluated three possible mechansims for this delay in HCC. WHV titers decreased as tumor burden increased as viral replication halts when malignant transformation occurs. The delay in TTD was not secondary to an antiviral effect that is known in this model and in humans to delay HCC occurrence. Anti-angiogenic effect was measured on H/E following necropsy as tumor necrosis and involved 7% of the total tumor volume in low dose and 13% of total tumor volume in high dose animals and 0% in P animals. High dose sorafenib inhibited the ex-vivo mixed lymphocyte reaction of woodchuck PBMC whereas low dose sorafenib did not which mechanistically may explain the difference seen in tumor burden with low compared to high dose sorafenib. Conclusions: The delay in HCC by 100 days seen in woodchucks would translate into a 3-9 years delay in HCC occurrence in humans. The tolerability at low dose for over 2 years, lower tumor burden and differential immune effects seen at low dose vs higher dose have great translational significance in the light of the recently completed STORM trial. Support: Sorafenib: Bayer. Funding: ACS- MSRG 08-096-01-CCE Citation Format: Renuka V. Iyer, Sandra Sexton, Leslie Curtin, Gerald Fetterly, Orla Maguire, Hans Minderman, Ilia Toshkov, Bud Tennant, Alan Hutson, Donald L. Trump, Candace Johnson. Low dose sorafenib delays hepatocellular cancer (HCC) development in the woodchuck model of hepatitis B related HCC. [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 5144. doi:10.1158/1538-7445.AM2015-5144
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