Neutralization of IL-8 decreases tumor PMN-MDSCs and reduces mesenchymalization of claudin-low triple-negative breast cancer
Charli Dominguez, Kristen K. McCampbell, Justin M. David, Claudia Palena
Charli Dominguez, Kristen K. McCampbell, Justin M. David, Claudia Palena
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Research Article Immunology Oncology

Neutralization of IL-8 decreases tumor PMN-MDSCs and reduces mesenchymalization of claudin-low triple-negative breast cancer

Abstract

The complex signaling networks of the tumor microenvironment that facilitate tumor growth and progression toward metastatic disease are becoming a focus of potential therapeutic options. The chemokine IL-8 is overexpressed in multiple cancer types, including triple-negative breast cancer (TNBC), where it promotes the acquisition of mesenchymal features, stemness, resistance to therapies, and the recruitment of immune-suppressive cells to the tumor site. The present study explores the utility of a clinical-stage monoclonal antibody that neutralizes IL-8 (HuMax-IL8) as a potential therapeutic option for TNBC. HuMax-IL8 was shown to revert mesenchymalization in claudin-low TNBC models both in vitro and in vivo as well as to significantly decrease the recruitment of polymorphonuclear myeloid-derived suppressor cells (PMN-MDSCs) at the tumor site, an effect substantiated when used in combination with docetaxel. In addition, HuMax-IL8 enhanced the susceptibility of claudin-low breast cancer cells to immune-mediated lysis with NK and antigen-specific T cells in vitro. These results demonstrate the multifaceted way in which neutralizing this single chemokine reverts mesenchymalization, decreases recruitment of MDSCs at the tumor site, assists in immune-mediated killing, and forms the rationale for using HuMax-IL8 in combination with chemotherapy or immune-based therapies for the treatment of TNBC.

Authors

Charli Dominguez, Kristen K. McCampbell, Justin M. David, Claudia Palena

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Figure 3

Neutralization of IL-8 reduces features of mesenchymalization and stemness in vivo.

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Neutralization of IL-8 reduces features of mesenchymalization and stemne...
Representative images of MDA-MB-231 xenografts depicting the expression levels of the epithelial markers E-cadherin and ZO-1, the mesenchymal proteins fibronectin and vimentin, and the stemness marker ALDH1A1, as determined by IHC. Original magnification, ×20; scale bars: 75 μm. Slides were digitally scanned with an Aperio ScanScope scanning system (Aperio Technologies Inc.) and analyzed by using the Aperio ImageScope Viewer software. The positive pixel count algorithm was used to measure the intensity of each marker (brown signal). Weak and strong positive staining was recorded for the whole tumor section, and the percentage of weak and strong positive pixels was calculated relative to the total number of pixels in the section. T1 and T2 are two representative tumors from mice treated with control IgG; T3 and T4 correspond to two representative tumors from mice treated with HuMax-IL8. Graphs represent mean (bars) + SEM (error bars) from n = 2 representative tumors (dots) in each treatment group; differences between means were compared using 2-tailed unpaired t test for each marker; *P < 0.05; **P < 0.01; ***P < 0.001. The experiment was repeated 2 times with n = 5 tumors per group.