Endothelial HIF-2α regulates murine pathological angiogenesis and revascularization processes
Nicolas Skuli, … , Brian Keith, M. Celeste Simon
Nicolas Skuli, … , Brian Keith, M. Celeste Simon
Published March 19, 2012
Citation Information: J Clin Invest. 2012;122(4):1427-1443. https://doi.org/10.1172/JCI57322.
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Research Article Vascular biology

Endothelial HIF-2α regulates murine pathological angiogenesis and revascularization processes

Abstract

Localized tissue hypoxia is a consequence of vascular compromise or rapid cellular proliferation and is a potent inducer of compensatory angiogenesis. The oxygen-responsive transcriptional regulator hypoxia-inducible factor 2α (HIF-2α) is highly expressed in vascular ECs and, along with HIF-1α, activates expression of target genes whose products modulate vascular functions and angiogenesis. However, the mechanisms by which HIF-2α regulates EC function and tissue perfusion under physiological and pathological conditions are poorly understood. Using mice in which Hif2a was specifically deleted in ECs, we demonstrate here that HIF-2α expression is required for angiogenic responses during hindlimb ischemia and for the growth of autochthonous skin tumors. EC-specific Hif2a deletion resulted in increased vessel formation in both models; however, these vessels failed to undergo proper arteriogenesis, resulting in poor perfusion. Analysis of cultured HIF-2α–deficient ECs revealed cell-autonomous increases in migration, invasion, and morphogenetic activity, which correlated with HIF-2α–dependent expression of specific angiogenic factors, including delta-like ligand 4 (Dll4), a Notch ligand, and angiopoietin 2. By stimulating Dll4 signaling in cultured ECs or restoring Dll4 expression in ischemic muscle tissue, we rescued most of the HIF-2α–dependent EC phenotypes in vitro and in vivo, emphasizing the critical role of Dll4/Notch signaling as a downstream target of HIF-2α in ECs. These results indicate that HIF-1α and HIF-2α fulfill complementary, but largely nonoverlapping, essential functions in pathophysiological angiogenesis.

Authors

Nicolas Skuli, Amar J. Majmundar, Bryan L. Krock, Rickson C. Mesquita, Lijoy K. Mathew, Zachary L. Quinn, Anja Runge, Liping Liu, Meeri N. Kim, Jiaming Liang, Steven Schenkel, Arjun G. Yodh, Brian Keith, M. Celeste Simon

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Figure 8

Dll4, alone or in combination with Ang2, is sufficient to reverse endothelial HIF-2α deletion phenotypes in a hindlimb ischemia model.

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Dll4, alone or in combination with Ang2, is sufficient to reverse endoth...
Blood flow, arteriogenesis, and angiogenesis were assessed for control and KO mice after FAL and intramuscular injection of an empty viral vector or of viral vectors expressing Dll4 or Dll4 vector in combination with intravenous Ang2 (Dll4/Ang2). (A and B) Representative images obtained by LD at day 14 (A) showed full flow restoration for KO mice injected with viral vector expressing Dll4 or Dll4 plus Ang2. (B) Quantitative LD analysis showing the left limb/right limb ratio after occlusion. (C) Representative H&E-stained sections of adductor muscle from ligated limb in control and KO mice. (D) Histomorphometric analysis of collateral lumen showing rescue in collateral diameter by Dll4 expression and the combination of Dll4 and Ang2. (E) H&E-stained sections of adductor muscle for ligated limb in control and KO mice injected as indicated. Dashed outlines denote damaged or injured areas within muscle. (F) Percent injured area per section for ligated limb in control and KO mice. (GI) Rhodamine-lectin staining (G) showed decreased vessel density (H) and increased vascular area (I) in adductor muscle of KO mice injected with Dll4 alone or in combination with Ang2. Arrows indicate capillaries. Scale bars: 20 μm (C and G); 80 μm (E). Original magnification, x200 (C); x100 (E); ×400 (G). n = 20 per group. *P < 0.05; **P < 0.01.