TY - JOUR
T1 - Systemic Delivery of mLIGHT-Armed Myxoma Virus Is Therapeutic for Later-Stage Syngeneic Murine Lung Metastatic Osteosarcoma
AU - Christie, John D.
AU - Appel, Nicole
AU - Zhang, Liqiang
AU - Lowe, Kenneth
AU - Kilbourne, Jacquelyn
AU - Daggett-Vondras, Juliane
AU - Elliott, Natalie
AU - Lucas, Alexandra R.
AU - Blattman, Joseph N.
AU - Rahman, Masmudur M.
AU - McFadden, Grant
N1 - Funding Information: Funding: This work was funded by an Arizona State University (ASU) start-up grant to G.M. and an ASU PhD Completion Fellowship to J.D.C. This work is also supported by NIH grants R01 AI080607 and R21 CA249517 to G.M. and M.M.R. Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.
PY - 2022/1/1
Y1 - 2022/1/1
N2 - Cancers that metastasize to the lungs represent a major challenge in both basic and clinical cancer research. Oncolytic viruses are newly emerging options but successful delivery and choice of appropriate therapeutic armings are two critical issues. Using an immunocompetent murine K7M2-luc lung metastases model, the efficacy of MYXV armed with murine LIGHT (TNFSF14/CD258) expressed under virus-specific early/late promoter was tested in an advanced later-stage disease K7M2-luc model. Results in this model show that mLIGHT-armed MYXV, delivered systemically using ex vivo pre-loaded PBMCs as carrier cells, reduced tumor burden and increased median survival time. In vitro, when comparing direct infection of K7M2-luc cancer cells with free MYXV vs. PBMC-loaded virus, vMyx-mLIGHT/PBMCs also demonstrated greater cytotoxic capacity against the K7M2 cancer cell targets. In vivo, systemically delivered vMyx-mLIGHT/PBMCs increased viral reporter transgene expression levels both in the periphery and in lung tumors compared to unarmed MYXV, in a tumor-and transgene-dependent fashion. We conclude that vMyx-mLIGHT, especially when delivered using PBMC carrier cells, represents a new potential therapeutic strategy for solid cancers that metastasize to the lung.
AB - Cancers that metastasize to the lungs represent a major challenge in both basic and clinical cancer research. Oncolytic viruses are newly emerging options but successful delivery and choice of appropriate therapeutic armings are two critical issues. Using an immunocompetent murine K7M2-luc lung metastases model, the efficacy of MYXV armed with murine LIGHT (TNFSF14/CD258) expressed under virus-specific early/late promoter was tested in an advanced later-stage disease K7M2-luc model. Results in this model show that mLIGHT-armed MYXV, delivered systemically using ex vivo pre-loaded PBMCs as carrier cells, reduced tumor burden and increased median survival time. In vitro, when comparing direct infection of K7M2-luc cancer cells with free MYXV vs. PBMC-loaded virus, vMyx-mLIGHT/PBMCs also demonstrated greater cytotoxic capacity against the K7M2 cancer cell targets. In vivo, systemically delivered vMyx-mLIGHT/PBMCs increased viral reporter transgene expression levels both in the periphery and in lung tumors compared to unarmed MYXV, in a tumor-and transgene-dependent fashion. We conclude that vMyx-mLIGHT, especially when delivered using PBMC carrier cells, represents a new potential therapeutic strategy for solid cancers that metastasize to the lung.
KW - Armed oncolytic virus
KW - LIGHT (TNFSF14)
KW - Oncolytic myxoma virus
KW - Oncolytic virus delivery
KW - Oncolytic virus metastatic tumors
KW - Oncolytic viruses
KW - TNF superfamily
UR - http://www.scopus.com/inward/record.url?scp=85122705846&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85122705846&partnerID=8YFLogxK
U2 - 10.3390/cancers14020337
DO - 10.3390/cancers14020337
M3 - Article
SN - 2072-6694
VL - 14
JO - Cancers
JF - Cancers
IS - 2
M1 - 337
ER -