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An allosteric peptide inhibitor of HIF-1α regulates hypoxia-induced retinal neovascularization

Ayumi Usui‐Ouchi, Edith Aguilar, Salome Murinello, Mitchell Prins, Marin L. Gantner, Peter E. Wright, Rebecca B. Berlow, Martin Friedlander

2020Proceedings of the National Academy of Sciences58 citationsDOIOpen Access PDF

Abstract

Retinal neovascularization (NV), a leading cause of vision loss, results from localized hypoxia that stabilizes the hypoxia-inducible transcription factors HIF-1α and HIF-2α, enabling the expression of angiogenic factors and genes required to maintain homeostasis under conditions of oxygen stress. HIF transcriptional activity depends on the interaction between its intrinsically disordered C-terminal domain and the transcriptional coactivators CBP/p300. Much effort is currently directed at disrupting protein-protein interactions between disease-associated transcription factors like HIF and their cellular partners. The intrinsically disordered protein CITED2, a direct product of HIF-mediated transcription, functions as a hypersensitive negative regulator that attenuates the hypoxic response by competing allosterically with HIF-1α for binding to CBP/p300. Here, we show that a peptide fragment of CITED2 is taken up by retinal cells and efficiently regulates pathological angiogenesis in murine models of ischemic retinopathy. Both vaso-obliteration (VO) and NV were significantly inhibited in an oxygen-induced retinopathy (OIR) model following intravitreal injection of the CITED2 peptide. The CITED2 peptide localized to retinal neurons and glia, resulting in decreased expression of HIF target genes. Aflibercept, a commonly used anti-VEGF therapy for retinal neovascular diseases, rescued NV but not VO in OIR. However, a combination of the CITED2 peptide and a reduced dose of aflibercept significantly decreased both NV and VO. In contrast to anti-VEGF agents, the CITED2 peptide can rescue hypoxia-induced retinal NV by modulating the hypoxic response through direct competition with HIF for CBP/p300, suggesting a dual targeting strategy for treatment of ischemic retinal diseases and other neovascular disorders.

Topics & Concepts

AngiogenesisRetinalNeovascularizationHypoxia (environmental)HIF1ARegulatorTranscription factorCancer researchVascular endothelial growth factorCell biologyVascular endothelial growth factor ABiologyChemistryVEGF receptorsBiochemistryOxygenGeneOrganic chemistryCancer, Hypoxia, and MetabolismRetinal Diseases and Treatmentsinterferon and immune responses
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