Overcoming lung cancer immunotherapy resistance by combining nontoxic variants of IL-12 and IL-2
Brendan L. Horton, … , K. Christopher Garcia, Stefani Spranger
Brendan L. Horton, … , K. Christopher Garcia, Stefani Spranger
Published September 5, 2023
Citation Information: JCI Insight. 2023;8(19):e172728. https://doi.org/10.1172/jci.insight.172728.
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Research Article Immunology

Overcoming lung cancer immunotherapy resistance by combining nontoxic variants of IL-12 and IL-2

Abstract

Engineered cytokine–based approaches for immunotherapy of cancer are poised to enter the clinic, with IL-12 being at the forefront. However, little is known about potential mechanisms of resistance to cytokine therapies. We found that orthotopic murine lung tumors were resistant to systemically delivered IL-12 fused to murine serum albumin (MSA, IL12-MSA) because of low IL-12 receptor (IL-12R) expression on tumor-reactive CD8+ T cells. IL2-MSA increased binding of IL12-MSA by tumor-reactive CD8+ T cells, and combined administration of IL12-MSA and IL2-MSA led to enhanced tumor-reactive CD8+ T cell effector differentiation, decreased numbers of tumor-infiltrating CD4+ regulatory T cells, and increased survival of lung tumor–bearing mice. Predictably, the combination of IL-2 and IL-12 at therapeutic doses led to significant dose-limiting toxicity. Administering IL-12 and IL-2 analogs with preferential binding to cells expressing Il12rb1 and CD25, respectively, led to a significant extension of survival in mice with lung tumors while abrogating dose-limiting toxicity. These findings suggest that IL-12 and IL-2 represent a rational approach to combination cytokine therapy whose dose-limiting toxicity can be overcome with engineered cytokine variants.

Authors

Brendan L. Horton, Alicia D. D’Souza, Maria Zagorulya, Chloe V. McCreery, Gita C. Abhiraman, Lora Picton, Allison Sheen, Yash Agarwal, Noor Momin, K. Dane Wittrup, Forest M. White, K. Christopher Garcia, Stefani Spranger

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Figure 5

Combined administration of IL-12 and IL-2 variants extends survival of KP lung tumor–bearing mice without toxicity.

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Combined administration of IL-12 and IL-2 variants extends survival of K...
(AD) Mice were inoculated with KP.SIY lung tumors and treated with IL2-MSA or IL2-REH-MSA in vivo on day 6, and then T cells from TdLNs, spleen, and lungs were analyzed on day 7. (A) Binding of IL12-MSA-AF647 by SIY-reactive CD8+ T cells. (B) Binding of IL12-MSA-AF647 by bystander, SIY-nonreactive CD8+ T cells. (C) The percentage of CD4+ T cells that are FoxP3+ Tregs. (D) Binding of IL12-MSA-AF647 by CD4+FoxP3+ Tregs. (AD) n = 6. Combined data from 2 independent experiments. One-way ANOVA. (E and F) Mice were inoculated with KP lung tumors and treated with either IL12-MSA and IL2-MSA or IL2-REH-MSA and IL12-3XA-MSA on days 7 and 14 of tumor growth. (E) Weight loss of KP lung tumor–bearing mice treated with either IL12-MSA and IL2-MSA or IL12-3XA-MSA and IL2-REH-MSA on day 7. Weight loss was measured from day 7 to day 14 of tumor growth. (F) Survival of KP lung tumor–bearing mice treated with either IL12-MSA and IL2-MSA or IL2-REH-MSA and IL12-3XA-MSA. (E and F) Control n = 15, IL12-MSA + IL2-MSA n = 15, IL2-REH-MSA + IL12-3XA-MSA 54 n = 5, IL2-REH-MSA + IL12-3XA-MSA 30 n = 5, IL2-REH-MSA + IL12-3XA-MSA 15 n = 10, combined data from 3 independent experiments. (E) Two-way ANOVA. (F) Log-rank test (Mantel-Cox). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.