An attenuated lymphocytic choriomeningitis virus vector enhances tumor control in mice partly via IFN-I
Young Rock Chung, … , Slim Fourati, Pablo Penaloza-MacMaster
Young Rock Chung, … , Slim Fourati, Pablo Penaloza-MacMaster
Published June 11, 2024
Citation Information: J Clin Invest. 2024;134(15):e178945. https://doi.org/10.1172/JCI178945.
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Research Article Immunology

An attenuated lymphocytic choriomeningitis virus vector enhances tumor control in mice partly via IFN-I

Abstract

Viral vectors are being used for the treatment of cancer. Yet, their efficacy varies among tumors and their use poses challenges in immunosuppressed patients, underscoring the need for alternatives. We report striking antitumoral effects by a nonlytic viral vector based on attenuated lymphocytic choriomeningitis virus (r3LCMV). We show in multiple tumor models that injection of tumor-bearing mice with this vector results in improved tumor control and survival. Importantly, r3LCMV improved tumor control in immunodeficient Rag1–/– mice and MyD88–/– mice, suggesting that multiple pathways contributed to the antitumoral effects. The antitumoral effects of r3LCMV were also observed when this vector was administered several weeks before tumor challenges, suggesting the induction of trained immunity. Single-cell RNA sequencing analyses, antibody blockade experiments, and knockout models revealed a critical role for host-intrinsic IFN-I in the antitumoral efficacy of r3LCMV vectors. Collectively, these data demonstrate potent antitumoral effects by r3LCMV vectors and unveil multiple mechanisms underlying their antitumoral efficacy.

Authors

Young Rock Chung, Bakare Awakoaiye, Tanushree Dangi, Nahid Irani, Slim Fourati, Pablo Penaloza-MacMaster

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Figure 6

Confirmatory mechanistic studies corroborate a role for IFN-I.

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Confirmatory mechanistic studies corroborate a role for IFN-I. (A) Cytok...
(A) Cytokine responses at day 1 after treatment. Dotted lines represent naive levels. (BD) Effect of r3LCMV vectors on B16-Ifnar1–/– melanoma. (B) Experiment outline for evaluating the role of tumor-intrinsic IFN-I. (C) Tumor control. (D) Survival. (EG) Effect of r3LCMV vectors on Ifnar1–/– mice. (E) Experiment outline for evaluating the role of host-intrinsic IFN-I. (F) Tumor control. (G) Survival. (HJ) Effect of r3LCMV vectors on B16-Ifnar1–/– melanoma in Ifnar1–/– mice. (H) Experiment outline for evaluating the combined role of tumor-intrinsic and host-intrinsic IFN-I. (I) Tumor control. (J) Survival. Data from A are pooled from 3 experiments (one experiment with n = 5 per group, another with n = 5 per group, and another with n = 5–6 per group). Data from BG are pooled from 2 experiments (one experiment with n = 8–9 per group, and another with n = 8–10 per group). Data from HJ are pooled from 2 experiments (n = 4–5 per group). Error bars represent SEM. Indicated P values were calculated by the Mann-Whitney test, or log rank test when comparing survival.