Trap and ambush therapy using sequential primary and tumor escape-selective oncolytic viruses

Mason J. Webb; Timothy Kottke; Benjamin L. Kendall; Jack Swanson; Chisom Uzendu; Jason Tonne; Jill Thompson; Muriel Metko; Madelyn Moore; Mitesh Borad; Lewis Roberts; Rosa M. Diaz; Michael Olin; Antonella Borgatti; Richard Vile

doi:10.1016/j.omto.2023.05.006

Trap and ambush therapy using sequential primary and tumor escape-selective oncolytic viruses

Mason J. Webb, Timothy Kottke, Benjamin L. Kendall, Jack Swanson, Chisom Uzendu, Jason Tonne, Jill Thompson, Muriel Metko, Madelyn Moore, Mitesh Borad, Lewis Roberts, Rosa M. Diaz, Michael Olin, Antonella Borgatti, Richard Vile

Research output: Contribution to journal › Article › peer-review

Abstract

In multiple models of oncolytic virotherapy, it is common to see an early anti-tumor response followed by recurrence. We have previously shown that frontline treatment with oncolytic VSV-IFN-β induces APOBEC proteins, promoting the selection of specific mutations that allow tumor escape. Of these mutations in B16 melanoma escape (ESC) cells, a C-T point mutation in the cold shock domain-containing E1 (CSDE1) gene was present at the highest frequency, which could be used to ambush ESC cells by vaccination with the mutant CSDE1 expressed within the virus. Here, we show that the evolution of viral ESC tumor cells harboring the escape-promoting CSDE1^C-T mutation can also be exploited by a virological ambush. By sequential delivery of two oncolytic VSVs in vivo, tumors which would otherwise escape VSV-IFN-β oncolytic virotherapy could be cured. This also facilitated the priming of anti-tumor T cell responses, which could be further exploited using immune checkpoint blockade with the CD200 activation receptor ligand (CD200AR-L) peptide. Our findings here are significant in that they offer the possibility to develop oncolytic viruses as highly specific, escape-targeting viro-immunotherapeutic agents to be used in conjunction with recurrence of tumors following multiple different types of frontline cancer therapies.

Original language	English (US)
Pages (from-to)	129-142
Number of pages	14
Journal	Molecular Therapy Oncolytics
Volume	29
DOIs	https://doi.org/10.1016/j.omto.2023.05.006
State	Published - Jun 15 2023

Keywords

CD200AR-L
CSDE1
VSV
immunotherapy
melanoma
oncolytic virotherapy
tumor escape
vesicular stomatitis virus

ASJC Scopus subject areas

Molecular Medicine
Oncology
Cancer Research
Pharmacology (medical)

Access to Document

10.1016/j.omto.2023.05.006

Cite this

Webb, M. J., Kottke, T., Kendall, B. L., Swanson, J., Uzendu, C., Tonne, J., Thompson, J., Metko, M., Moore, M., Borad, M., Roberts, L., Diaz, R. M., Olin, M., Borgatti, A., & Vile, R. (2023). Trap and ambush therapy using sequential primary and tumor escape-selective oncolytic viruses. Molecular Therapy Oncolytics, 29, 129-142. https://doi.org/10.1016/j.omto.2023.05.006

@article{24d9b12f74eb4adca7fd15e299252eff,

title = "Trap and ambush therapy using sequential primary and tumor escape-selective oncolytic viruses",

abstract = "In multiple models of oncolytic virotherapy, it is common to see an early anti-tumor response followed by recurrence. We have previously shown that frontline treatment with oncolytic VSV-IFN-β induces APOBEC proteins, promoting the selection of specific mutations that allow tumor escape. Of these mutations in B16 melanoma escape (ESC) cells, a C-T point mutation in the cold shock domain-containing E1 (CSDE1) gene was present at the highest frequency, which could be used to ambush ESC cells by vaccination with the mutant CSDE1 expressed within the virus. Here, we show that the evolution of viral ESC tumor cells harboring the escape-promoting CSDE1C-T mutation can also be exploited by a virological ambush. By sequential delivery of two oncolytic VSVs in vivo, tumors which would otherwise escape VSV-IFN-β oncolytic virotherapy could be cured. This also facilitated the priming of anti-tumor T cell responses, which could be further exploited using immune checkpoint blockade with the CD200 activation receptor ligand (CD200AR-L) peptide. Our findings here are significant in that they offer the possibility to develop oncolytic viruses as highly specific, escape-targeting viro-immunotherapeutic agents to be used in conjunction with recurrence of tumors following multiple different types of frontline cancer therapies.",

keywords = "CD200AR-L, CSDE1, VSV, immunotherapy, melanoma, oncolytic virotherapy, tumor escape, vesicular stomatitis virus",

author = "Webb, {Mason J.} and Timothy Kottke and Kendall, {Benjamin L.} and Jack Swanson and Chisom Uzendu and Jason Tonne and Jill Thompson and Muriel Metko and Madelyn Moore and Mitesh Borad and Lewis Roberts and Diaz, {Rosa M.} and Michael Olin and Antonella Borgatti and Richard Vile",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = jun,

day = "15",

doi = "10.1016/j.omto.2023.05.006",

language = "English (US)",

volume = "29",

pages = "129--142",

journal = "Molecular Therapy Oncolytics",

issn = "2372-7705",

publisher = "Nature Publishing Group",

}

TY - JOUR

T1 - Trap and ambush therapy using sequential primary and tumor escape-selective oncolytic viruses

AU - Webb, Mason J.

AU - Kottke, Timothy

AU - Kendall, Benjamin L.

AU - Swanson, Jack

AU - Uzendu, Chisom

AU - Tonne, Jason

AU - Thompson, Jill

AU - Metko, Muriel

AU - Moore, Madelyn

AU - Borad, Mitesh

AU - Roberts, Lewis

AU - Diaz, Rosa M.

AU - Olin, Michael

AU - Borgatti, Antonella

AU - Vile, Richard

PY - 2023/6/15

Y1 - 2023/6/15

N2 - In multiple models of oncolytic virotherapy, it is common to see an early anti-tumor response followed by recurrence. We have previously shown that frontline treatment with oncolytic VSV-IFN-β induces APOBEC proteins, promoting the selection of specific mutations that allow tumor escape. Of these mutations in B16 melanoma escape (ESC) cells, a C-T point mutation in the cold shock domain-containing E1 (CSDE1) gene was present at the highest frequency, which could be used to ambush ESC cells by vaccination with the mutant CSDE1 expressed within the virus. Here, we show that the evolution of viral ESC tumor cells harboring the escape-promoting CSDE1C-T mutation can also be exploited by a virological ambush. By sequential delivery of two oncolytic VSVs in vivo, tumors which would otherwise escape VSV-IFN-β oncolytic virotherapy could be cured. This also facilitated the priming of anti-tumor T cell responses, which could be further exploited using immune checkpoint blockade with the CD200 activation receptor ligand (CD200AR-L) peptide. Our findings here are significant in that they offer the possibility to develop oncolytic viruses as highly specific, escape-targeting viro-immunotherapeutic agents to be used in conjunction with recurrence of tumors following multiple different types of frontline cancer therapies.

AB - In multiple models of oncolytic virotherapy, it is common to see an early anti-tumor response followed by recurrence. We have previously shown that frontline treatment with oncolytic VSV-IFN-β induces APOBEC proteins, promoting the selection of specific mutations that allow tumor escape. Of these mutations in B16 melanoma escape (ESC) cells, a C-T point mutation in the cold shock domain-containing E1 (CSDE1) gene was present at the highest frequency, which could be used to ambush ESC cells by vaccination with the mutant CSDE1 expressed within the virus. Here, we show that the evolution of viral ESC tumor cells harboring the escape-promoting CSDE1C-T mutation can also be exploited by a virological ambush. By sequential delivery of two oncolytic VSVs in vivo, tumors which would otherwise escape VSV-IFN-β oncolytic virotherapy could be cured. This also facilitated the priming of anti-tumor T cell responses, which could be further exploited using immune checkpoint blockade with the CD200 activation receptor ligand (CD200AR-L) peptide. Our findings here are significant in that they offer the possibility to develop oncolytic viruses as highly specific, escape-targeting viro-immunotherapeutic agents to be used in conjunction with recurrence of tumors following multiple different types of frontline cancer therapies.

KW - CD200AR-L

KW - CSDE1

KW - VSV

KW - immunotherapy

KW - melanoma

KW - oncolytic virotherapy

KW - tumor escape

KW - vesicular stomatitis virus

UR - http://www.scopus.com/inward/record.url?scp=85160650550&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85160650550&partnerID=8YFLogxK

U2 - 10.1016/j.omto.2023.05.006

DO - 10.1016/j.omto.2023.05.006

M3 - Article

AN - SCOPUS:85160650550

SN - 2372-7705

VL - 29

SP - 129

EP - 142

JO - Molecular Therapy Oncolytics

JF - Molecular Therapy Oncolytics

ER -

Trap and ambush therapy using sequential primary and tumor escape-selective oncolytic viruses

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this