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Cure of syngeneic carcinomas with targeted IL-12 through obligate reprogramming of lymphoid and myeloid immunity
Youji Hong, Yvette Robbins, Xinping Yang, Wojciech K. Mydlarz, Anastasia Sowers, James B. Mitchell, James L. Gulley, Jeffrey Schlom, Sofia R. Gameiro, Cem Sievers, Clint T. Allen
Youji Hong, Yvette Robbins, Xinping Yang, Wojciech K. Mydlarz, Anastasia Sowers, James B. Mitchell, James L. Gulley, Jeffrey Schlom, Sofia R. Gameiro, Cem Sievers, Clint T. Allen
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Research Article Immunology Oncology

Cure of syngeneic carcinomas with targeted IL-12 through obligate reprogramming of lymphoid and myeloid immunity

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Abstract

Therapeutic IL-12 has demonstrated the ability to reduce local immune suppression in preclinical models, but clinical development has been limited by severe inflammation-related adverse events with systemic administration. Here, we show that potent immunologic tumor control of established syngeneic carcinomas can be achieved by i.t. administration of a tumor-targeted IL-12 antibody fusion protein (NHS–rmIL-12) using sufficiently low doses to avoid systemic toxicity. Single-cell transcriptomic analysis and ex vivo functional assays of NHS–rmIL-12–treated tumors revealed reinvigoration and enhanced proliferation of exhausted CD8+ T lymphocytes, induction of Th1 immunity, and a decrease in Treg number and suppressive capacity. Similarly, myeloid cells transitioned toward inflammatory phenotypes and displayed reduced suppressive capacity. Cell type–specific IL-12 receptor–KO BM chimera studies revealed that therapeutic modulation of both lymphoid and myeloid cells is required for maximum treatment effect and tumor cure. Study of single-cell data sets from human head and neck carcinomas revealed IL-12 receptor expression patterns similar to those observed in murine tumors. These results describing the diverse mechanisms underlying tumor-directed IL-12–induced antitumor immunity provide the preclinical rationale for the clinical study of i.t. NHS–IL-12.

Authors

Youji Hong, Yvette Robbins, Xinping Yang, Wojciech K. Mydlarz, Anastasia Sowers, James B. Mitchell, James L. Gulley, Jeffrey Schlom, Sofia R. Gameiro, Cem Sievers, Clint T. Allen

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Figure 3

NHS–rmIL-12 treatment results in reduced viability and enhanced immunogenicity of tumor cells.

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NHS–rmIL-12 treatment results in reduced viability and enhanced immunoge...
(A) UMAP embedding shows 44,036 single cells obtained 48 hours after the third PBS control or NHS–rmIL-12 treatment from 2 tumors per condition. Cell types were identified using clustering and marker gene expression analysis (Supplemental Figure 5). (B) Bar graph shows fraction of carcinoma cells in tumors treated with PBS control or NHS–rmIL-12 (left panel). UMAP embedding shows carcinoma cells from tumors treated with PBS control or NHS–rmIL-12 (right panel). (C) Box plot show log2-transformed fold changes in average expression of G2M- or S phase–associated genes comparing NHS–rmIL-12– and control-treated carcinoma cells. Wilcoxon signed-rank test was used to determine statistical significance. (D) Dot plot shows expression of genes upregulated (adjusted P ≤ 0.05) in NHS–rmIL-12-–treated carcinoma cells. Circle color corresponds to scaled average expression; circle size denotes fraction of cells with nonzero gene expression of corresponding gene. (E) Bar graph shows median fluorescence intensity (MFI) of cell surface PD-L1 and MHC class I (H2-Kb) on CD45–CD31–PDGFR– tumor cells measured by flow cytometry 48 hours after treatment with NHS–rmIL-12 or PBS control. P value determined by Student’s t test.

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