mAbs (Dec 2023)

IL-38 blockade induces anti-tumor immunity by abrogating tumor-mediated suppression of early immune activation

  • John P. Dowling,
  • Pavel A. Nikitin,
  • Fang Shen,
  • Halley Shukla,
  • James P. Finn,
  • Nirja Patel,
  • Cezary Swider,
  • Jamie L. Bingaman-Steele,
  • Chris Nicolescu,
  • Eden L Sikorski,
  • Evan J. Greenawalt,
  • Michael J. Morin,
  • Matthew K. Robinson,
  • Karen Lundgren,
  • Benjamin C. Harman

DOI
https://doi.org/10.1080/19420862.2023.2212673
Journal volume & issue
Vol. 15, no. 1

Abstract

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ABSTRACTImmune checkpoint inhibitors that overcome T cell suppressive mechanisms in tumors have revolutionized the treatment of cancer but are only efficacious in a small subset of patients. Targeting suppressive mechanisms acting on innate immune cells could significantly improve the incidence of clinical response by facilitating a multi-lineage response against the tumor involving both adaptive and innate immune systems. Here, we show that intra-tumoral interleukin (IL)-38 expression is a feature of a large frequency of head and neck, lung and cervical squamous cancers and correlates with reduced immune cell numbers. We generated IMM20324, an antibody that binds human and mouse IL-38 proteins and inhibits the binding of IL-38 to its putative receptors, interleukin 1 receptor accessory protein-like 1 (IL1RAPL) and IL-36R. In vivo, IMM20324 demonstrated a good safety profile, delayed tumor growth in a subset of mice in an EMT6 syngeneic model of breast cancer, and significantly inhibited tumor expansion in a B16.F10 melanoma model. Notably, IMM20324 treatment resulted in the prevention of tumor growth following re-implantation of tumor cells, indicating the induction of immunological memory. Furthermore, exposure of IMM20324 correlated with decreased tumor volume and increased levels of intra-tumoral chemokines. Together, our data suggest that IL-38 is expressed in a high frequency of cancer patients and allows tumor cells to suppress anti-tumor immunity. Blockade of IL-38 activity using IMM20324 can re-activate immunostimulatory mechanisms in the tumor microenvironment leading to immune infiltration, the generation of tumor-specific memory and abrogation of tumor growth.

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