Inactivation of endothelial ZEB1 impedes tumor progression and sensitizes tumors to conventional therapies
Rong Fu, … , Tao Lu, Zhao-Qiu Wu
Rong Fu, … , Tao Lu, Zhao-Qiu Wu
Published February 10, 2020
Citation Information: J Clin Invest. 2020;130(3):1252-1270. https://doi.org/10.1172/JCI131507.
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Research Article Angiogenesis

Inactivation of endothelial ZEB1 impedes tumor progression and sensitizes tumors to conventional therapies

Abstract

Current antiangiogenic therapy is limited by its cytostatic property, scarce drug delivery to the tumor, and side toxicity. To address these limitations, we unveiled the role of ZEB1, a tumor endothelium–enriched zinc-finger transcription factor, during tumor progression. We discovered that the patients who had lung adenocarcinomas with high ZEB1 expression in tumor endothelium had increased prevalence of metastases and markedly reduced overall survival after the diagnosis of lung cancer. Endothelial ZEB1 deletion in tumor-bearing mice diminished tumor angiogenesis while eliciting persistent tumor vascular normalization by epigenetically repressing TGF-β signaling. This consequently led to improved blood and oxygen perfusion, enhanced chemotherapy delivery and immune effector cell infiltration, and reduced tumor growth and metastasis. Moreover, targeting vascular ZEB1 remarkably potentiated the anticancer activity of nontoxic low-dose cisplatin. Treatment with low-dose anti–programmed cell death protein 1 (anti–PD-1) antibody elicited tumor regression and markedly extended survival in ZEB1-deleted mice, conferring long-term protective anticancer immunity. Collectively, we demonstrated that inactivation of endothelial ZEB1 may offer alternative opportunities for cancer therapy with minimal side effects. Targeting endothelium-derived ZEB1 in combination with conventional chemotherapy or immune checkpoint blockade therapy may yield a potent and superior anticancer effect.

Authors

Rong Fu, Yi Li, Nan Jiang, Bo-Xue Ren, Chen-Zi Zang, Li-Juan Liu, Wen-Cong Lv, Hong-Mei Li, Stephen Weiss, Zheng-Yu Li, Tao Lu, Zhao-Qiu Wu

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Figure 2

Vascular ZEB1 expression correlates negatively with survival rates in lung cancer patients.

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Vascular ZEB1 expression correlates negatively with survival rates in lu...
(A) Representative examples of ZEB1 (red) and CD31 (brown) immunohistochemical staining of human lung cancer tissue arrays (n = 91) and matched adjacent normal samples (n = 88). Magnified areas of red boxed sections are shown in right panels. Arrowheads show ZEB1+ tumor ECs. (B) Comparison of vascular ZEB1 expression in lung cancer tissues versus matched adjacent normal tissues as described in A. (C) Comparison of vascular ZEB1 expression in lung cancer tissues with different pathological gradings as described in A. (D) Comparison of vascular ZEB1 expression in lung cancer tissues of patients with metastases versus patients without metastases as described in A. (E) Kaplan-Meier survival analysis of the relationship between overall survival rate and vascular ZEB1 expression in lung cancer patients as described in A. The cutoff value is the average vascular ZEB1 expression level of all patients. (F) Correlation plot between vascular ZEB1 expression and lung cancer patient survival time. All data are represented as mean ± SD. Differences were tested using unpaired 2-tailed Student’s t test (B and D), 1-way ANOVA with Tukey’s post hoc test (C), log-rank test (E), and 2-tailed Pearson test (F).