Egfl6 promotes ovarian cancer progression by enhancing the immunosuppressive functions of tumor-associated myeloid cells
Sarah Hamze Sinno, … , Ronald J. Buckanovich, Sandra Cascio
Sarah Hamze Sinno, … , Ronald J. Buckanovich, Sandra Cascio
Published September 23, 2024
Citation Information: J Clin Invest. 2024;134(21):e175147. https://doi.org/10.1172/JCI175147.
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Research Article Immunology Oncology

Egfl6 promotes ovarian cancer progression by enhancing the immunosuppressive functions of tumor-associated myeloid cells

Abstract

Tumor-associated macrophages (TAMs) and myeloid-derived suppressor cells (MDSCs) play a critical role in resistance to immunotherapy. In this study, we identified epidermal growth factor-like 6 (Egfl6) as a regulator of myeloid cell functions. Our analyses indicated that Egfl6, via binding with β3 integrins and activation of p38 and SYK signaling, acts as a chemotactic factor for myeloid cell migration and promotes their differentiation toward an immunosuppressive state. In syngeneic mouse models of ovarian cancer (OvCa), tumor expression of Egfl6 increased the intratumoral accumulation of polymorphonuclear (PMN) MDSCs and TAMs and their expression of immunosuppressive factors, including CXCL2, IL-10, and PD-L1. Consistent with this, in an immune ‘hot’ tumor model, Egfl6 expression eliminated response to anti-PD-L1 therapy, while Egfl6 neutralizing antibody decreased the accumulation of tumor-infiltrating CD206+ TAMs and PMN-MDSCs and restored the efficacy of anti-PD-L1 therapy. Supporting a role in human tumors, in human OvCa tissue samples, areas of high EGFL6 expression colocalized with myeloid cell infiltration. scRNA-Seq analyses revealed a correlation between EGFL6 and immune cell expression of immunosuppressive factors. Our data provide mechanistic insights into the oncoimmunologic functions of EGFL6 in mediating tumor immune suppression and identified EGFL6 as a potential therapeutic target to enhance immunotherapy in patients with OvCa.

Authors

Sarah Hamze Sinno, Joshua A. Imperatore, Shoumei Bai, Noémie Gomes-Jourdan, Nyasha Mafarachisi, Claudia Coronnello, Linan Zhang, Eldin Jašarević, Hatice U. Osmanbeyoglu, Ronald J. Buckanovich, Sandra Cascio

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Figure 4

Tumor expression of Egfl6 induces resistance to anti-PD-L1 immunotherapy.

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Tumor expression of Egfl6 induces resistance to anti-PD-L1 immunotherapy...
(A) 2F8c and 2F8c-Egfl6 tumor growth in mice treated with anti-PD-L1 Ab or IgG isotype control Ab (n = 8 mice per group). *P < 0.05, 2F8c + IgG versus 2F8c-Egfl6 + IgG; ***P < 0.001, 2F8c + anti-PD-L1 versus 2F8c + IgG. (B) Kaplan-Meier survival analysis for the indicated treatment groups. ***P < 0.001, 2F8c + anti-PD-L1 versus 2F8c + IgG. Survival statistics were calculated using log-rank (Mantel-Cox) analysis from Kaplan-Meier survival plots. (C) Flow cytometry quantification of intratumoral PMN-MDSCs (CD11b+Ly6G+Ly6C), M-MDSCs (CD11b+Ly6GLy6C+), CD206+ TAMs, and CD8+ T cells in the indicated tumors. (DF) qPCR analysis of mRNA expression of S100A9, IL-10, and Cxcl2 gene expression in (D) 2F8c-Egfl6 versus 2F8c, (E) anti-PD-L1–treated 2F8c versus IgG-treated 2F8c, (F) anti-PD-L1–treated 2F8c-Egfl6 versus IgG-treated 2F8c-Egfl6 tumor samples. (G) Representative images of IHC staining showing Cxcl2-expressing cells in control and a-PD-L1–treated tumor tissue sections. Graph represents the number of Cxcl2+ cells in the indicated tumors. Scale bars: 20 μm. Error bars show SEM. Experiments were performed in triplicate. Statistical significance was determined by unpaired 2-tailed t test, 1-way, or 2-way ANOVA with Tukey’s multiple comparisons test. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.001.