Characterization of the Role of Necroptosis for Oncolytic Vaccinia Efficacy

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Description
Since the molecular biology revolution in the 1980s, ease of gene editing had led to the resurgence of Oncolytic Virotherapy. Countless viruses have been engineered yet only three are approved for clinical use worldwide, with only one being approved by

Since the molecular biology revolution in the 1980s, ease of gene editing had led to the resurgence of Oncolytic Virotherapy. Countless viruses have been engineered yet only three are approved for clinical use worldwide, with only one being approved by the U.S Food and Drug Administration (FDA). Vaccinia virus (VACV) has a large genome, contains many immune evasion genes and has been thoroughly studied, making it a popular candidate for an oncolytic platform. VACV mutants with deletions in the E3 immune evasion protein have been shown to have oncolytic efficacy but the mechanism of tumor selectivity has not been fully elucidated. These mutants have been shown to be regulated by the necroptosis pathway, a pathway that has been shown to be deficient in certain cancers. Using a pan-cancer screening method that combines dye exclusion assays, western blot analysis, and viral growth curve, the role of necroptosis in regulating VACV replication and oncolytic efficacy in cancer was further characterized. Results demonstrate a preliminary correlation between necroptosis, viral replication, and oncolytic efficacy. This correlation is clearest in breast cancer and melanomas yet may apply to other cancer subgroups. This data was also used to guide the development of a receptor-interacting protein kinase 3 (RIP3) matched pair mouse model in the E0771 mouse breast cancer line which can be used to further study the role of necroptosis and oncolytic efficacy in vivo. Understanding the contribution necroptosis plays in oncolytic efficacy can guide to design enhance the design of clinical trials to test VACV E3L mutants and may lead to better efficacy in humans and an improvement in clinical oncology.
Date Created
2020
Agent

Characterization of Necroptosis in Breast Cancer and Melanoma for Oncolytic Vaccinia Potential

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Description
With the advent of precision medicine, oncologists aim to target tumors that do not respond well to conventional treatment. One such therapy is oncolytic virotherapy, a treatment reliant on viral replication for tumor specific killing. Downregulation of the proteins RIP3

With the advent of precision medicine, oncologists aim to target tumors that do not respond well to conventional treatment. One such therapy is oncolytic virotherapy, a treatment reliant on viral replication for tumor specific killing. Downregulation of the proteins RIP3 kinase, DAI or MLKL can result in a nonfunctional programmed necroptotic cell death pathway, common amongst breast cancer and melanoma. Vaccinia virus (VACV) mutants with a nonfunctional E3 protein are able to selectively replicate in necroptosis deficient cells but not in necroptosis competent cells, making them potential candidates for oncolytic virotherapy. In order to establish the efficacy and selectivity of this treatment, an accurate tumor model is required. Eight established breast adenocarcinomas and two established melanomas were selected as potential candidates, both human and murine. A pan screening method for necroptosis was established utilizing western blot analysis for expression of aforementioned proteins following various induction methods such as IFN α or VACV infection. In addition, live cell imaging after treatment with tumor necrosis factor (TNFα) and the pan-caspase inhibitor zVAD-fmk was used as a method to visualize necroptosis pathway functionality. Based on these results, cell lines will be selected and modified to create a breast cancer model with cells that are syngeneic, differing only in expression of either RIP3. VACV can be tested for tumor volume reduction in these models to ask if RIP3 expression affects efficacy of mutant VACV as an oncolytic virus.
Date Created
2019-05
Agent