TY - JOUR
T1 - Targeting hypoxia-inducible factors with 32-134D safely and effectively treats diabetic eye disease in mice
AU - Zhang, Jing
AU - Sharma, Deepti
AU - Dinabandhu, Aumreetam
AU - Sanchez, Jaron
AU - Applewhite, Brooks
AU - Jee, Kathleen
AU - Deshpande, Monika
AU - Flores-Bellver, Miguel
AU - Hu, Ming Wen
AU - Guo, Chuanyu
AU - Salman, Shaima
AU - Hwang, Yousang
AU - Anders, Nicole M.
AU - Rudek, Michelle A.
AU - Qian, Jiang
AU - Canto-Soler, M. Valeria
AU - Semenza, Gregg L.
AU - Montaner, Silvia
AU - Sodhi, Akrit
N1 - Publisher Copyright:
© 2023, Zhang et al. This is an open access article published under the terms of the Creative Commons Attribution 4.0 International License.
PY - 2023/7/3
Y1 - 2023/7/3
N2 - Many patients with diabetic eye disease respond inadequately to anti-VEGF therapies, implicating additional vasoactive mediators in its pathogenesis. We demonstrate that levels of angiogenic proteins regulated by HIF-1 and -2 remain elevated in the eyes of people with diabetes despite treatment with anti-VEGF therapy. Conversely, by inhibiting HIFs, we normalized the expression of multiple vasoactive mediators in mouse models of diabetic eye disease. Accumulation of HIFs and HIF-regulated vasoactive mediators in hyperglycemic animals was observed in the absence of tissue hypoxia, suggesting that targeting HIFs may be an effective early treatment for diabetic retinopathy. However, while the HIF inhibitor acriflavine prevented retinal vascular hyperpermeability in diabetic mice for several months following a single intraocular injection, accumulation of acriflavine in the retina resulted in retinal toxicity over time, raising concerns for its use in patients. Conversely, 32-134D, a recently developed HIF inhibitor structurally unrelated to acriflavine, was not toxic to the retina, yet effectively inhibited HIF accumulation and normalized HIF-regulated gene expression in mice and in human retinal organoids. Intraocular administration of 32-134D prevented retinal neovascularization and vascular hyperpermeability in mice. These results provide the foundation for clinical studies assessing 32-134D for the treatment of patients with diabetic eye disease.
AB - Many patients with diabetic eye disease respond inadequately to anti-VEGF therapies, implicating additional vasoactive mediators in its pathogenesis. We demonstrate that levels of angiogenic proteins regulated by HIF-1 and -2 remain elevated in the eyes of people with diabetes despite treatment with anti-VEGF therapy. Conversely, by inhibiting HIFs, we normalized the expression of multiple vasoactive mediators in mouse models of diabetic eye disease. Accumulation of HIFs and HIF-regulated vasoactive mediators in hyperglycemic animals was observed in the absence of tissue hypoxia, suggesting that targeting HIFs may be an effective early treatment for diabetic retinopathy. However, while the HIF inhibitor acriflavine prevented retinal vascular hyperpermeability in diabetic mice for several months following a single intraocular injection, accumulation of acriflavine in the retina resulted in retinal toxicity over time, raising concerns for its use in patients. Conversely, 32-134D, a recently developed HIF inhibitor structurally unrelated to acriflavine, was not toxic to the retina, yet effectively inhibited HIF accumulation and normalized HIF-regulated gene expression in mice and in human retinal organoids. Intraocular administration of 32-134D prevented retinal neovascularization and vascular hyperpermeability in mice. These results provide the foundation for clinical studies assessing 32-134D for the treatment of patients with diabetic eye disease.
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U2 - 10.1172/JCI163290
DO - 10.1172/JCI163290
M3 - Article
C2 - 37227777
AN - SCOPUS:85163057034
SN - 0021-9738
VL - 133
JO - Journal of Clinical Investigation
JF - Journal of Clinical Investigation
IS - 13
M1 - e163290
ER -