Antibody-dependent cellular cytotoxicity (ADCC) is one of the most powerful mechanisms for Natural Killer (NK) cells to kill cancer cells or virus-infected cells. A novel chimeric protein (NA-Fc) was created, which when expressed in cells, positions an IgG Fc domain on the plasma membrane, mimicking the orientation of IgG bound to the cell surface. This NA-Fc chimera was tested with PM21-NK cells, produced through a previously developed particle-based method which yields superior NK cells for immunotherapeutic applications. Real time viability assays revealed higher PM21-NK killing of both ovarian and lung cancer cells expressing NA-Fc, which correlated with increased release of TNF-α and IFN-γ cytokines from NK cells and was dependent on CD16-Fc interactions. Lentivirus delivery of NA-Fc to target cells increased the rate of PM21-NK cell killing of A549 and H1299 lung, SKOV3 ovarian and A375 melanoma cancer cells. This NA-Fc-directed killing was extended to virus infected cells, where delivery of NA-Fc to lung cells that were persistently infected with Parainfluenza virus resulted in increased killing by PM21-NK cells. In contrast to its effect on PM21-NK cells, the NA-Fc molecule did not enhance complement mediated lysis of lung cancer cells. Our study lays the foundation for application of the novel NA-Fc chimera that could be delivered specifically to tumors during oncolytic virotherapy to mark target cells for ADCC by co-treatment with adoptive NK cells. This strategy would potentially eliminate the need to search for unique cancer specific antigens for development of new antibody therapeutics.
Studies with neuroblastoma have shown that the presence of aberrant DNA epigenetic modifications mediated by DNA methyltransferases correlates with poor prognosis, making these enzymes a target for therapeutics based on synthetic epigenetic modulators such as DNA methyltransferase inhibitors (DNMTi). Here, we have used a neuroblastoma cell line model to test the hypothesis that treatment with a DNMTi would enhance cell killing when used in combination with oncolytic Parainfluenza virus 5 (P/V virus), a cytoplasmic-replicating RNA virus. Pretreatment of SK-N-AS cells with the DNMTi 5-azacytidine substantially enhanced P/V virus-mediated cell death in a dose- and multiplicity of infection-dependent manner. Infection with the virus alone and the combination treatment with 5-azacytidine and P/V virus infection led to the activation of caspases-8, -9, and -3/7. Inhibition of caspases using a pan-caspase inhibitor minimally affected cell killing by P/V virus alone, but by contrast, largely reduced cell death mediated by 5-azacytidine treatment alone or in combination with P/V virus infection. 5-Azacytidine pretreatment dampened P/V virus gene expression and growth within the SK-N-AS cell population, which correlated with enhanced expression of important antiviral genes such as interferon-β and OAS2. Taken together, our data support the role of combination treatment using 5-azacytidine and an oncolytic P/V virus for neuroblastoma therapy.
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