Viral replication in tumor cells leads to their destruction, with release of progeny virion that infect adjacent cancer cells in a process referred to as viral oncolysis. Clinical trials of oncolytic viruses have demonstrated both safety and potential efficacy of this approach. We have conducted research in the prior funding period demonstrating the utility of Herpes simplex virus 1 (HSV-1) mutants for viral oncolysis of liver tumors. We characterized regulation of HSV-1 replication at the molecular level, and used this information to 1) genetically engineer HSV-1 mutants that when introduced intravascularly into the liver replicate preferentially in liver metastases rather than normal cells;2) express therapeutic transgenes such as prodrug activation genes (e.g.cytosine deaminase);3) enhance survival of animals with diffuse liver tumors following intravascular delivery. Intratumoral conversion of 5-FC to 5-FU by the yeast cytosine deaminase transgene when added to HSV-1 oncolysis enhances efficacy. We have taken the most significant laboratory findings and moved them into clinical trials for patients with liver tumors with the assistance of the NCI RapidAccess to Intervention Development (RAID) program. We propose projects for this competing renewal application that expand on findings and observations made during the previous funding period. We propose to elucidate mechanisms of interaction between prodrug bioactivation and HSV-1 oncolysis. Positron emission tomography (PET) has been used to examine gene expression;however, we will develop PET to quantitatively assess viral replication. Presently, detection of viral replication requires sampling (biopsy) of tissues for molecular analyses. Because these techniques are invasive, cumbersome, and non-quantitative, they are not useful in human clinical trials of HSV-1 oncolysis. Accordingly there exists a strong rationale to develop minimally invasive imaging methods to quantitatively assess sites of HSV-1 replication. Successful development of quantitative imaging of viral replication will improve the quality of both preclinical and clinical studies of HSV-1 oncolysis.
In Specific Aim 1, we will define interactions between intracellular conversion of 5-FC to 5-FU via the yeast cytosine deaminase transgene, HSV-1 replication, and anti-neoplastic efficacy.
In Specific Aim 2, we will compare the dopamine receptor and thymidine kinase enzyme as reporters to quantitatively image viral replication with PET. We will co-register quantitative PET imaging of viral replication with imaging of tumor metabolic activity to simultaneously assess viral replication and anti-neoplastic response. We will also use [19F] magnetic resonance spectroscopy (MRS) to image cytosine deaminase transgene function. We are in position to directly translate observations from these experiments into clinical trials.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA076183-07
Application #
7556760
Study Section
Developmental Therapeutics Study Section (DT)
Program Officer
Welch, Anthony R
Project Start
2000-01-07
Project End
2010-12-31
Budget Start
2009-01-01
Budget End
2009-12-31
Support Year
7
Fiscal Year
2009
Total Cost
$386,281
Indirect Cost
Name
Massachusetts General Hospital
Department
Type
DUNS #
073130411
City
Boston
State
MA
Country
United States
Zip Code
02199
Fuchs, Bryan C; Hoshida, Yujin; Tanabe, Kenneth K (2015) Reply: To PMID 24677197. Hepatology 61:729-30
Kuruppu, Darshini; Brownell, Anna-Liisa; Shah, Khalid et al. (2014) Molecular imaging with bioluminescence and PET reveals viral oncolysis kinetics and tumor viability. Cancer Res 74:4111-21
Fuchs, Bryan C; Hoshida, Yujin; Fujii, Tsutomu et al. (2014) Epidermal growth factor receptor inhibition attenuates liver fibrosis and development of hepatocellular carcinoma. Hepatology 59:1577-90
Kulu, Y; Kawasaki, H; Donahue, J M et al. (2013) Concurrent chemotherapy inhibits herpes simplex virus-1 replication and oncolysis. Cancer Gene Ther 20:133-40
Yamada, S; Kuroda, T; Fuchs, B C et al. (2012) Oncolytic herpes simplex virus expressing yeast cytosine deaminase: relationship between viral replication, transgene expression, prodrug bioactivation. Cancer Gene Ther 19:160-70
Polasek, Miloslav; Fuchs, Bryan C; Uppal, Ritika et al. (2012) Molecular MR imaging of liver fibrosis: a feasibility study using rat and mouse models. J Hepatol 57:549-55
Fujii, Tsutomu; Fuchs, Bryan C; Yamada, Suguru et al. (2010) Mouse model of carbon tetrachloride induced liver fibrosis: Histopathological changes and expression of CD133 and epidermal growth factor. BMC Gastroenterol 10:79
Geevarghese, Sunil K; Geller, David A; de Haan, Hans A et al. (2010) Phase I/II study of oncolytic herpes simplex virus NV1020 in patients with extensively pretreated refractory colorectal cancer metastatic to the liver. Hum Gene Ther 21:1119-28
Kulu, Y; Dorfman, J D; Kuruppu, D et al. (2009) Comparison of intravenous versus intraperitoneal administration of oncolytic herpes simplex virus 1 for peritoneal carcinomatosis in mice. Cancer Gene Ther 16:291-7
Tanabe, Kenneth K; Lemoine, Antoinette; Finkelstein, Dianne M et al. (2008) Epidermal growth factor gene functional polymorphism and the risk of hepatocellular carcinoma in patients with cirrhosis. JAMA 299:53-60

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