Ilia Toshkov

Toll-like receptor 5 agonist protects mice from dermatitis and oral mucositis caused by local radiation: implications for head-and-neck cancer radiotherapy.

PURPOSE Development of mucositis is a frequent side effect of radiotherapy of patients with head-and-neck cancer. We have recently reported that bacterial flagellin, an agonist of Toll-like receptor 5 (TLR5), can protect rodents and primates from acute radiation syndrome caused by total body irradiation. Here we analyzed the radioprotective efficacy of TLR5 agonist under conditions of local, single dose or fractionated radiation treatment. METHODS AND MATERIALS Mice received either single-dose (10, 15, 20, or 25 Gy) or fractioned irradiation (cumulative dose up to 30 Gy) of the head-and-neck area with or without subcutaneous injection of pharmacologically optimized flagellin, CBLB502, 30 min before irradiation. RESULTS CBLB502 significantly reduced the severity of dermatitis and mucositis, accelerated tissue recovery, and reduced the extent of radiation induced weight loss in mice after a single dose of 15 or 20 Gy but not 25 Gy of radiation. CBLB502 was also protective from cumulative doses of 25 and 30 Gy delivered in two (10 + 15 Gy) or three (3 × 10 Gy) fractions, respectively. While providing protection to normal epithelia, CBLB502 did not affect the radiosensitivity of syngeneic squamous carcinoma SCCVII grown orthotopically in mice. Use of CBLB502 also elicited a radiation independent growth inhibitory effect upon TLR5-expressing tumors demonstrated in the mouse xenograft model of human lung adenocarcinoma A549. CONCLUSION CBLB502 combines properties of supportive care (radiotherapy adjuvant) and anticancer agent, both mediated via activation of TLR5 signaling in the normal tissues or the tumor, respectively.

Integration of woodchuck hepatitis and N‐myc rearrangement determine size and histologic grade of hepatic tumors

Integrations of woodchuck hepatitis virus (WHV) DNA and rearrangements of the N‐myc 2 gene have been detected frequently in hepatocellular carcinoma (HCC) of Eastern woodchucks (Marmota monax) chronically infected with WHV. Fifty‐five hepatocellular neoplasms and matched nontumor hepatic tissue specimens obtained postmortem from 13 chronic WHV carriers were analyzed and the frequency of WHV DNA integrations and of N‐myc rearrangements compared in tumors of different size and histologic grade. Four small tumor nodules were classified histologically as adenomas and integrated sequences of WHV DNA were detected in two of the four tumor nodules. In one of the two nodules, there was evidence of N‐myc rearrangement. Fifty‐one neoplasms were classified as HCC. Seven were grade 1 HCCs. WHV DNA integrations were demonstrated in 43% but none had N‐myc rearrangements. Twenty grade 2 HCCs had WHV DNA integrations in 80% and in 38% N‐myc rearrangements were present. Twenty‐four grade 3 HCCs had integrations of WHV DNA in 79% and N‐myc rearrangements in 74%. In two other grade 3 HCCs, rearrangements of N‐myc were detected in the absence of WHV DNA integrations. The 12 largest tumors in the series all were grade 2 or 3 HCCs, and in 83%, both WHV DNA integrations and N‐myc rearrangements were demonstrated. In conclusion, molecular changes observed in this study suggest a progression of genetic alterations providing either a significant proliferative stimulation and/or a growth advantage in hepatocarcinogenesis of woodchucks with chronic WHV infection. (HEPATOLOGY 2004;39:1008–1016.)

Immunosuppression reactivates viral replication long after resolution of woodchuck hepatitis virus infection.

Resolution of hepatitis B virus (HBV) infection is characterized by coordinated humoral and cellular immune responses. Immunity is durable over decades, protecting the host from reinfection and potential activation of residual HBV. Woodchucks infected at birth with woodchuck hepatitis virus (WHV) cleared viremia and developed antibodies to surface antigen (anti‐WHs). Woodchucks became seronegative for anti‐WHs 3‐6 years later, but in some, WHV DNA was detected in serum, liver, and/or peripheral blood mononuclear cells (PBMCs). Those with WHV DNA had increased in vitro cellular immune responses to viral antigens, CD4 and CD8 markers, and Th1‐type cytokines, suggesting active WHV‐specific T lymphocytes. Immunosuppression for 12 weeks using cyclosporine A in such woodchucks resulted in transient reactivation of WHV replication. Serum of 1 woodchuck that became positive for WHV DNA during immunosuppression was inoculated into WHV‐susceptible woodchucks, and a productive infection was demonstrated. The results indicate that after infection durable cellular immunity to WHV is essential for the long‐term control of viral replication and is probably maintained by continuous priming from residual virus. Conclusion: These experimental observations demonstrate the potential of immunosuppression to reactivate HBV after resolution of infection. (HEPATOLOGY 2007;45:614–622.)

Hepatitis delta virus infects the cells of hepadnavirus‐induced hepatocellular carcinoma in woodchucks

Hepatitis delta virus (HDV) is a natural subviral agent of human hepatitis B virus (HBV). HDV enhances liver damage during concomitant infection with HBV. The molecular pathogenesis of HDV infection remains poorly understood. To advance our understanding of the relationship between HDV infection and liver cancer, it was determined whether HDV could infect in vivo the cells of hepadnavirus‐induced hepatocellular carcinoma (HCC). Woodchucks (Marmota monax) that were chronically infected with HBV‐related woodchuck hepatitis virus (WHV) and already developed HCCs were used as an experimental model. The locations of HCCs within the livers were determined using ultrasound imaging followed by open surgery. One week after surgery the WHV carrier woodchucks were superinfected with WHV‐enveloped HDV (wHDV). Six weeks later the animals were sacrificed and HDV replication in normal liver tissues and in center masses of HCCs was evidenced by Northern analysis, real‐time polymerase chain reaction assay, and immunohistochemistry. Based on accumulation levels of HDV RNAs and numbers of infected cells, the efficiency of wHDV infection appears to be comparable in most HCCs and normal liver tissues. Conclusion: Cells of WHV‐induced HCCs are susceptible to HDV infection in vivo, and therefore express functional putative WHV receptors and support the steps of the attachment/entry governed by the hepadnavirus envelope proteins. Because others previously hypothesized that hepadnavirus‐induced HCCs are resistant to reinfection with a hepadnavirus in vivo, our data suggest that if such a resistance exists it likely occurs via a block at the post‐entry step. The demonstrated ability of HDV to infect already formed HCCs may facilitate development of novel strategies further dissecting the mechanism of liver pathogenesis associated with HDV infection. (HEPATOLOGY 2012;56:76–85)

The Toll-Like Receptor 5 Agonist Entolimod Mitigates Lethal Acute Radiation Syndrome in Non-Human Primates

There are currently no approved medical radiation countermeasures (MRC) to reduce the lethality of high-dose total body ionizing irradiation expected in nuclear emergencies. An ideal MRC would be effective even when administered well after radiation exposure and would counteract the effects of irradiation on the hematopoietic system and gastrointestinal tract that contribute to its lethality. Entolimod is a Toll-like receptor 5 agonist with demonstrated radioprotective/mitigative activity in rodents and radioprotective activity in non-human primates. Here, we report data from several exploratory studies conducted in lethally irradiated non-human primates (rhesus macaques) treated with a single intramuscular injection of entolimod (in the absence of intensive individualized supportive care) administered in a mitigative regimen, 1–48 hours after irradiation. Following exposure to LD50-70/40 of radiation, injection of efficacious doses of entolimod administered as late as 25 hours thereafter reduced the risk of mortality 2-3-fold, providing a statistically significant (P<0.01) absolute survival advantage of 40–60% compared to vehicle treatment. Similar magnitude of survival improvement was also achieved with drug delivered 48 hours after irradiation. Improved survival was accompanied by predominantly significant (P<0.05) effects of entolimod administration on accelerated morphological recovery of hematopoietic and immune system organs, decreased severity and duration of thrombocytopenia, anemia and neutropenia, and increased clonogenic potential of the bone marrow compared to control irradiated animals. Entolimod treatment also led to reduced apoptosis and accelerated crypt regeneration in the gastrointestinal tract. Together, these data indicate that entolimod is a highly promising potential life-saving treatment for victims of radiation disasters.

Mitigation of Radiation-Induced Epithelial Damage by the TLR5 Agonist Entolimod in a Mouse Model of Fractionated Head and Neck Irradiation

Radiation treatment of head and neck cancer frequently causes severe collateral damage to normal tissues including mouth mucosa, salivary glands and skin. This toxicity limits the radiation dose that can be delivered and affects the patients quality of life. Previous studies in mice and nonhuman primates showed that entolimod, a toll-like receptor 5 (TLR5) agonist derived from bacterial flagellin, effectively reduced radiation damage to hematopoietic and gastrointestinal tissues in both total-body and local irradiation scenarios, with no protection of tumors. Here, using a mouse model, we analyzed the efficacy of entolimod administered before or after irradiation in reducing damage to normal tissues. Animals received local fractionated radiation to the head and neck area, thus modeling radiotherapy of head and neck cancer. Tissue damage was evaluated through histomorphological examination of samples collected at different time points up to four weeks, mice were exposed locally to five daily fractions of 5, 6 or 7 Gy. A semiquantitative scoring system was used to assess the severity of observed pathomorphological changes. In this model, radiation damage was most severe in the lips, tongue and skin, moderate in the upper esophagus and minor in salivary glands. The kinetics of injury appearance and recovery of normal morphology varied among tissues, with maximal damage to the tongue, esophagus and salivary glands developing at earlier times (days 8–11 postirradiation) relative to that of lip and skin mucosa (days 11–15 postirradiation). While both tested regimens of entolimod significantly reduced the extent of radiation damage and accelerated restoration of normal structure in all tissues analyzed, administration of entolimod 1 h after each irradiation was more effective than treatment 30 min before irradiation. These results support the potential clinical use of entolimod as an adjuvant for improving the therapeutic index of head and neck cancer radiotherapy by reducing the radiation toxicity in normal tissues.

Expression of matrix metalloproteinases and their inhibitors in the woodchuck model of hepatocellular carcinoma

Matrix metalloproteinases (MMPs) play a central role in tumor invasion and metastasis. Increased expression of MMPs occurs during development of hepatocellular carcinoma (HCC) in humans following infection with hepatitis B virus (HBV). Woodchucks are used as an animal model for hepadnavirus‐induced HCC. All woodchucks infected chronically with woodchuck hepatitis virus (WHV), a virus that is closely related to HBV, develop HCC. In the present study MMPs and related molecules were investigated in woodchucks to better understand the mechanisms of extracellular matrix remodeling in HCC. Three groups of samples were studied: liver and HCC tissues from animals infected with WHV and age‐ and gender‐matched normal liver from animals not infected with WHV. New partial gene sequences for woodchuck MMP‐2, MMP‐7, and MMP‐9 as well as their inhibitors NGAL, TIMP‐1, and TIMP‐2 were identified and used for determination of expression levels in liver and HCC by qRT‐PCR. Compared to liver of WHV‐naïve woodchucks, high levels of MMP‐1, MMP‐2, MMP‐7, NGAL, and TIMP‐1 were detected in liver of animals infected with WHV. However, no differences were found for TIMP‐2. MMP‐9 expression was higher in HCC than in liver of animals not infected with WHV. Immunohistochemical staining demonstrated that MMP‐9 immunoreactivity was most intense in HCC, correlating with the progression of liver disease. Upregulation of MMP‐9 in HCC was confirmed by Western blotting and zymography analysis. Furthermore, the activity of woodchuck MMPs was suppressed by BiPS, a common inhibitor of mammalian MMPs. These results suggest the use of MMP inhibitors as a potential HCC treatment strategy that could be explored in woodchucks. J. Med. Virol. 85:1127–1138, 2013.

Physiological frailty index (PFI): quantitative in-life estimate of individual biological age in mice

The development of healthspan-extending pharmaceuticals requires quantitative estimation of age-related progressive physiological decline. In humans, individual health status can be quantitatively assessed by means of a frailty index (FI), a parameter which reflects the scale of accumulation of age-related deficits. However, adaptation of this methodology to animal models is a challenging task since it includes multiple subjective parameters. Here we report a development of a quantitative non-invasive procedure to estimate biological age of an individual animal by creating physiological frailty index (PFI). We demonstrated the dynamics of PFI increase during chronological aging of male and female NIH Swiss mice. We also demonstrated acceleration of growth of PFI in animals placed on a high fat diet, reflecting aging acceleration by obesity and provide a tool for its quantitative assessment. Additionally, we showed that PFI could reveal anti-aging effect of mTOR inhibitor rapatar (bioavailable formulation of rapamycin) prior to registration of its effects on longevity. PFI revealed substantial sex-related differences in normal chronological aging and in the efficacy of detrimental (high fat diet) or beneficial (rapatar) aging modulatory factors. Together, these data introduce PFI as a reliable, non-invasive, quantitative tool suitable for testing potential anti-aging pharmaceuticals in pre-clinical studies.

Abstract 4946: Developing anti-angiogenic therapies for human hepatocellular cancer (HCC)- studies of suntinib in the woodchuck model of hepatitis B related HCC

Introduction: Better animal models that recapitulate the liver milieu of human HCC are needed. 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). The translational relevance of this model for developing anti-angiogenic therapies was evaluated using sunitinib (S), a potent oral, anti-angiogenic agent. 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%. Carriers were followed by USG, upon developing HCC, 12 animals were randomized 1:1 to S or placebo (P) given once orally daily for 30 days. From a single treatment S PK study at 4 dose levels, n=3/group, simulations showed 12mg/kg daily was expected to be optimal for achieving steady state serum concentrations between 50- 100 ng/ml in woodchucks. Tumor size and blood flow were assessed using dynamic contrast enhanced magnetic resonance imaging (DCE-MRI) before treatment and on day 28 using standardized protocols. At study completion or when animals were humanely euthanized, tumors and any other small nodules were fixed overnight in 10% buffered formalin. After standard processing and embedding in paraffin, 4 μm sections were prepared, deparaffinized, stained with hematoxylin-eosin (HE 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 4946. doi:10.1158/1538-7445.AM2014-4946

Abstract 5144: Low dose sorafenib delays hepatocellular cancer (HCC) development in the woodchuck model of hepatitis B related HCC

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