ASK1-dependent endothelial cell activation is critical in ovarian cancer growth and metastasis
Mingzhu Yin, Huanjiao Jenny Zhou, Jiqin Zhang, Caixia Lin, Hongmei Li, Xia Li, Yonghao Li, Haifeng Zhang, David G. Breckenridge, Weidong Ji, Wang Min
Mingzhu Yin, Huanjiao Jenny Zhou, Jiqin Zhang, Caixia Lin, Hongmei Li, Xia Li, Yonghao Li, Haifeng Zhang, David G. Breckenridge, Weidong Ji, Wang Min
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Research Article Oncology Therapeutics

ASK1-dependent endothelial cell activation is critical in ovarian cancer growth and metastasis

Abstract

We have recently reported that tumor-associated macrophages (TAMs) promote early transcoelomic metastasis of ovarian cancer by facilitating TAM–ovarian cancer cell spheroid formation. ASK1 is known to be important for macrophage activation and inflammation-mediated tumorigenesis. In the present study, we show that ASK1 deficiency attenuates TAM-spheroid formation and ovarian cancer progression in an orthotopic ovarian cancer model. Interestingly, ASK1 in stroma, but not in TAMs, is critical for peritoneal tumor growth of ovarian cancer. Moreover, overexpression of an ASK1 inhibitory protein (suppressor of cytokine signaling-1; SOCS1) in vascular endothelium attenuates vascular permeability, TAM infiltration, and ovarian cancer growth. Mechanistically, we show that ASK1 mediates degradation of endothelial junction protein VE-cadherin via a lysosomal pathway to promote macrophage transmigration. Importantly, a pharmacological ASK1 inhibitor prevents tumor-induced vascular leakage, macrophage infiltration, and tumor growth in two mouse models. Since transcoelomic metastasis is also associated with many other cancers, such as pancreatic and colon cancers, our study provides ASK1 as a therapeutic target for the treatment of ovarian cancer and other transcoelomic metastasis cancers.

Authors

Mingzhu Yin, Huanjiao Jenny Zhou, Jiqin Zhang, Caixia Lin, Hongmei Li, Xia Li, Yonghao Li, Haifeng Zhang, David G. Breckenridge, Weidong Ji, Wang Min

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Figure 8

ASK1 inhibitor reduces macrophage infiltration and tumor growth in the xenograft mouse models.

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ASK1 inhibitor reduces macrophage infiltration and tumor growth in the x...
An orthotopic ovarian cancer mouse model was established by peritoneal injection of human SKOV3 cells into female recipient nude mice. Mice were then either untreated (vehicle) or treated with ASK inhibitor (0.2% in chow). (A) Mouse body weights were measured at indicated time points. Representative images of mouse bodies in control and ASK1 inhibitor groups. (B) Net tumor weights were measured at day 38. (C) CD11b+F4/80+CD206+ macrophages in the peritoneal cavity were analyzed by FACS. (D) Percentage of CD11b+F4/80+CD206+ macrophages was quantified. (E) Immunoflourecent stainings of diaphragm harvested from the xenograft tumor model. Representative images show costaining of VE-cadherin and p–VE-cadherin in diaphragm. Magnification, 630×. (F) Relative VE-cadherin and p–VE-cadherin levels were quantified. All data are presented as mean ± SEM, n = 5 for each group. **P < 0.01; ***P < 0.001 (two-sided student’s t test). (G) A model for the role of ASK1 in mediating macrophage infiltration and promoting OC progression. ASK1-JNK activation in peritoneal microvessels mediates VE-cadherin degradation and increases endothelial permeability, facilitating TAM infiltration. Peritoneal TAMs in the peritoneal cavity promote ovarian cancer spheroid formation, tumor growth, and peritoneal implantation. Genetic and pharmacological inhibitions of ASK1 (by the SOCS1 transgenesis, ASK1 deficiency, and ASK1 inhibitor) block TAM infiltration and ovarian cancer growth and implantation.