Complete tumor resection reverses neutrophilia-associated suppression of systemic anti-tumor immunity

Oral Oncol. 2024 Mar:150:106705. doi: 10.1016/j.oraloncology.2024.106705. Epub 2024 Jan 26.

Abstract

Objectives: Tumor infiltrating neutrophils suppress T cell function, but whether neutrophils in circulation contribute to systemic immunosuppression is unclear. We aimed to study whether peripheral neutrophils that accumulate with tumor progression contribute to systemic immunosuppression, and if observed suppression of systemic anti-tumor immunity could be reversed with complete surgical tumor removal.

Materials and methods: Syngeneic murine oral cancers were established in immunocompetent mice. Proteomic and functional immune assays were used to study plasma cytokine concentration, peripheral immune frequencies, and systemic anti-tumor immunity with and without complete primary tumor resection.

Results: Ly6G+ neutrophilic cells, but not other myeloid cell types, accumulated in the periphery of mice with progressing tumors. This accumulation positively associated with plasma G-CSF concentration. Circulating neutrophils were functionally immunosuppressive. Complete surgical tumor removal reversed the observed neutrophilia, with neutrophil frequencies returning to baseline in 21 days. Multiple independent functional assays revealed enhanced systemic anti-tumor immunity in mice following tumor resection compared to tumor-bearing mice, and the observed enhanced systemic immunity could be reproduced with selective neutrophil depletion.

Conclusions: Complete primary tumor resection can reverse neutrophilia that develops during tumor progression and result in enhanced systemic anti-tumor immunity. Primary tumor removal relieves neutrophil-driven systemic immunosuppression and may itself contribute to the clinical benefit observed with neoadjuvant immunotherapy.

Keywords: Immunosuppression; Neoadjuvant immunotherapy; Neutrophils; Systemic anti-tumor immunity; Tumor resection.

MeSH terms

  • Animals
  • Cell Line, Tumor
  • Immune Tolerance
  • Immunosuppression Therapy*
  • Immunotherapy
  • Mice
  • Proteomics*
  • Tumor Microenvironment