Pharmacological HIF2α inhibition improves VHL disease–associated phenotypes in zebrafish model
Ana Martins Metelo, … , Randall T. Peterson, Othon Iliopoulos
Ana Martins Metelo, … , Randall T. Peterson, Othon Iliopoulos
Published April 13, 2015
Citation Information: J Clin Invest. 2015;125(5):1987-1997. https://doi.org/10.1172/JCI73665.
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Research Article Oncology

Pharmacological HIF2α inhibition improves VHL disease–associated phenotypes in zebrafish model

Abstract

Patients with a germline mutation in von Hippel-Lindau (VHL) develop renal cell cancers and hypervascular tumors of the brain, adrenal glands, and pancreas as well as erythrocytosis. These phenotypes are driven by aberrant expression of HIF2α, which induces expression of genes involved in cell proliferation, angiogenesis, and red blood cell production. Currently, there are no effective treatments available for VHL disease. Here, using an animal model of VHL, we report a marked improvement of VHL-associated phenotypes following treatment with HIF2α inhibitors. Inactivation of vhl in zebrafish led to constitutive activation of HIF2α orthologs and modeled several aspects of the human disease, including erythrocytosis, pathologic angiogenesis in the brain and retina, and aberrant kidney and liver proliferation. Treatment of vhl–/– mutant embryos with HIF2α-specific inhibitors downregulated Hif target gene expression in a dose-dependent manner, improved abnormal hematopoiesis, and substantially suppressed erythrocytosis and angiogenic sprouting. Moreover, pharmacologic inhibition of HIF2α reversed the compromised cardiac contractility of vhl–/– embryos and partially rescued early lethality. This study demonstrates that small-molecule targeting of HIF2α improves VHL-related phenotypes in a vertebrate animal model and supports further exploration of this strategy for treating VHL disease.

Authors

Ana Martins Metelo, Haley R. Noonan, Xiang Li, Youngnam Jin, Rania Baker, Lee Kamentsky, Yiyun Zhang, Ellen van Rooijen, Jordan Shin, Anne E. Carpenter, Jing-Ruey Yeh, Randall T. Peterson, Othon Iliopoulos

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Figure 2

Small-molecule compound 76 suppresses DMOG-induced erythropoiesis and angiogenesis in WT zebrafish embryos.

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Small-molecule compound 76 suppresses DMOG-induced erythropoiesis and an...
(A) O-dianisidine staining of 7-dpf embryos challenged with DMOG and treated with compound 76 at 10 nM or vehicle-only control. (B) Analysis of the images by a computerized pixel-quantification algorithm. (C) Computerized quantification of total intensity for WT embryos treated with HIF2α inhibitor compound 76. (D) Computerized quantification of total intensity for WT embryos treated with HIF2α inhibitor compound 77. (E) Computerized quantification of total intensity for WT embryos treated with an inactive form of compound 76. (F) Computerized quantification of total intensity for WT embryos treated with PX-478 (HIF1α inhibitor). The computerized quantification of each group was based on the analysis of at least 10 embryos. All experiments were performed in biological triplicate. Data represent mean ± SEM. **P < 0.01, paired, 2-tailed t test.