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Ferguson, Mark S.; Chard Dunmall, Louisa S.; Gangeswaran, Rathi; Marelli, Giulia; Tysome, James R.; Burns, Emily; Whitehead, Maria A.; Aksoy, Ezra; Alusi, Ghassan; Hiley, Crispin; Ahmed, Jay; Vanhaesebroeck, Bart; Lemoine, Nicholas R.; Wang, Yaohe
Molecular therapy, 05/2020, Volume: 28, Issue: 5Journal Article
Tumor-targeting oncolytic viruses such as vaccinia virus (VV) are attractive cancer therapeutic agents that act through multiple mechanisms to provoke both tumor lysis and anti-tumor immune responses. However, delivery of these agents remains restricted to intra-tumoral administration, which prevents effective targeting of inaccessible and disseminated tumor cells. In the present study we have identified transient pharmacological inhibition of the leukocyte-enriched phosphoinositide 3-kinase δ (PI3Kδ) as a novel mechanism to potentiate intravenous delivery of oncolytic VV to tumors. Pre-treatment of immunocompetent mice with the PI3Kδ-selective inhibitor IC87114 or the clinically approved idelalisib (CAL-101), prior to intravenous delivery of a tumor-tropic VV, dramatically improved viral delivery to tumors. This occurred via an inhibition of viral attachment to, but not internalization by, systemic macrophages through perturbation of signaling pathways involving RhoA/ROCK, AKT, and Rac. Pre-treatment using PI3Kδ-selective inhibitors prior to intravenous delivery of VV resulted in enhanced anti-tumor efficacy and significantly prolonged survival compared to delivery without PI3Kδ inhibition. These results indicate that effective intravenous delivery of oncolytic VV may be clinically achievable and could be useful in improving anti-tumor efficacy of oncolytic virotherapy. Display omitted Transient pharmacological inhibition of the PI3 kinase δ isoform using CAL-101 allows for improved vaccinia virus accumulation in tumor tissues after intravenous delivery by preventing macrophage uptake of the virus. This platform allows for effective anti-tumor activity after systemic administration of oncolytic vaccinia virus.
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