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CRISPR-mediated rapid arming of poxvirus vectors enables facile generation of the novel immunotherapeutic STINGPOX

Authors :
Jack T. Whelan
Ragunath Singaravelu
Fuan Wang
Adrian Pelin
Levi A. Tamming
Giuseppe Pugliese
Nikolas T. Martin
Mathieu J. F. Crupi
Julia Petryk
Bradley Austin
Xiaohong He
Ricardo Marius
Jessie Duong
Carter Jones
Emily E. F. Fekete
Nouf Alluqmani
Andrew Chen
Stephen Boulton
Michael S. Huh
Matt Y. Tang
Zaid Taha
Elena Scut
Jean-Simon Diallo
Taha Azad
Brian D. Lichty
Carolina S. Ilkow
John C. Bell
Source :
Frontiers in Immunology, Vol 13 (2023)
Publication Year :
2023
Publisher :
Frontiers Media S.A., 2023.

Abstract

Poxvirus vectors represent versatile modalities for engineering novel vaccines and cancer immunotherapies. In addition to their oncolytic capacity and immunogenic influence, they can be readily engineered to express multiple large transgenes. However, the integration of multiple payloads into poxvirus genomes by traditional recombination-based approaches can be highly inefficient, time-consuming and cumbersome. Herein, we describe a simple, cost-effective approach to rapidly generate and purify a poxvirus vector with multiple transgenes. By utilizing a simple, modular CRISPR/Cas9 assisted-recombinant vaccinia virus engineering (CARVE) system, we demonstrate generation of a recombinant vaccinia virus expressing three distinct transgenes at three different loci in less than 1 week. We apply CARVE to rapidly generate a novel immunogenic vaccinia virus vector, which expresses a bacterial diadenylate cyclase. This novel vector, STINGPOX, produces cyclic di-AMP, a STING agonist, which drives IFN signaling critical to the anti-tumor immune response. We demonstrate that STINGPOX can drive IFN signaling in primary human cancer tissue explants. Using an immunocompetent murine colon cancer model, we demonstrate that intratumoral administration of STINGPOX in combination with checkpoint inhibitor, anti-PD1, promotes survival post-tumour challenge. These data demonstrate the utility of CRISPR/Cas9 in the rapid arming of poxvirus vectors with therapeutic payloads to create novel immunotherapies.

Details

Language :
English
ISSN :
16643224
Volume :
13
Database :
Directory of Open Access Journals
Journal :
Frontiers in Immunology
Publication Type :
Academic Journal
Accession number :
edsdoj.f7cfd3f77d384dec8678da5baade9481
Document Type :
article
Full Text :
https://doi.org/10.3389/fimmu.2022.1050250