Mature neutrophils suppress T cell immunity in ovarian cancer microenvironment
Kelly L. Singel, Tiffany R. Emmons, ANM Nazmul H. Khan, Paul C. Mayor, Shichen Shen, Jerry T. Wong, Kayla Morrell, Kevin H. Eng, Jaron Mark, Richard B. Bankert, Junko Matsuzaki, Richard C. Koya, Anna M. Blom, Kenneth R. McLeish, Jun Qu, Sanjay Ram, Kirsten B. Moysich, Scott I. Abrams, Kunle Odunsi, Emese Zsiros, Brahm H. Segal
Kelly L. Singel, Tiffany R. Emmons, ANM Nazmul H. Khan, Paul C. Mayor, Shichen Shen, Jerry T. Wong, Kayla Morrell, Kevin H. Eng, Jaron Mark, Richard B. Bankert, Junko Matsuzaki, Richard C. Koya, Anna M. Blom, Kenneth R. McLeish, Jun Qu, Sanjay Ram, Kirsten B. Moysich, Scott I. Abrams, Kunle Odunsi, Emese Zsiros, Brahm H. Segal
View: Text | PDF
Research Article Immunology Oncology

Mature neutrophils suppress T cell immunity in ovarian cancer microenvironment

Abstract

Epithelial ovarian cancer (EOC) often presents with metastases and ascites. Granulocytic myeloid–derived suppressor cells are an immature population that impairs antitumor immunity. Since suppressive granulocytes in the ascites of patients with newly diagnosed EOC were morphologically mature, we hypothesized that PMN were rendered suppressive in the tumor microenvironment (TME). Circulating PMN from patients were not suppressive but acquired a suppressor phenotype (defined as ≥1 log10 reduction of anti-CD3/CD28–stimulated T cell proliferation) after ascites supernatant exposure. Ascites supernatants (20 of 31 supernatants) recapitulated the suppressor phenotype in PMN from healthy donors. T cell proliferation was restored with ascites removal and restimulation. PMN suppressors also inhibited T cell activation and cytokine production. PMN suppressors completely suppressed proliferation in naive, central memory, and effector memory T cells and in engineered tumor antigen–specific cytotoxic T lymphocytes, while antigen-specific cell lysis was unaffected. Inhibition of complement C3 activation and PMN effector functions, including CR3 signaling, protein synthesis, and vesicular trafficking, abrogated the PMN suppressor phenotype. Moreover, malignant effusions from patients with various metastatic cancers also induced the C3-dependent PMN suppressor phenotype. These results point to PMN impairing T cell expansion and activation in the TME and the potential for complement inhibition to abrogate this barrier to antitumor immunity.

Authors

Kelly L. Singel, Tiffany R. Emmons, ANM Nazmul H. Khan, Paul C. Mayor, Shichen Shen, Jerry T. Wong, Kayla Morrell, Kevin H. Eng, Jaron Mark, Richard B. Bankert, Junko Matsuzaki, Richard C. Koya, Anna M. Blom, Kenneth R. McLeish, Jun Qu, Sanjay Ram, Kirsten B. Moysich, Scott I. Abrams, Kunle Odunsi, Emese Zsiros, Brahm H. Segal

×

Figure 5

Ascites induces robust de novo protein synthesis in PMN, which is required for the suppressor phenotype.

Options: View larger image (or click on image) Download as PowerPoint
Ascites induces robust de novo protein synthesis in PMN, which is requir...
(A) PMN pretreated with puromycin (1 μg) for 1 hour prior to coculture abrogated the PMN suppressor phenotype, while D-actinomycin (1 μg) pretreatment had more variable effects (n = 8). (B–D) PMN were exposed to media, ASC, or proteinase K-digested ASC (PK-ASC) for 30 or 60 minutes in 5 replicates per condition per time point. PMN were washed and frozen as dry pellets for proteomics analysis. (B) Heatmap showing that the protein profiles of PMN exposed to ASC have higher Z-scores than either PMN exposed to media or PK-ASC at 30 and 60 minutes. (C) The number of changed proteins (y axis) in PMN exposed to ASC is significantly greater than in PMN exposed to PK-ASC (P = 0.02); there was no significant difference between 30 or 60 minutes. (D) Gene ontology analysis shows that ASC induced new synthesis of multiple classes of proteins in PMN. Symbols represent individual samples (n), and bars represent ± SEM. Statistical comparisons were by ANOVA with Tukey post hoc test (**P < 0.01).