A neutrophil elastase-generated mature form of IL-33 is a potent regulator of endothelial cell activation and proliferative retinopathy

Abstract

Human interleukin-33 (IL-33) is a 270 amino acid protein that belongs to the IL-1 cytokine family and plays an important role in various inflammatory disorders. Neutrophil proteases (Cathepsin G and Elastase) and mast cell proteases (tryptase and chymase) regulate the activity of IL-33 by processing full-length IL-33 into its mature form. There is little evidence on the role of these mature forms of IL-33 in retinal endothelial cell signaling and pathological retinal angiogenesis. Here, we cloned, expressed, and purified the various mature forms of human IL-33 and then evaluated the effects of IL-3395-270, IL-3399-270, IL-33109-270, and IL-33112-270 on angiogenesis in human retinal microvascular endothelial cells (HRMVECs). We observed that IL-3395-270, IL-3399-270, IL-33109-270, and IL-33112-270 significantly induced HRMVEC migration, tube formation and sprouting angiogenesis. However, only IL-3399-270 could induce HRMVEC proliferation. We used a murine model of oxygen-induced retinopathy (OIR) to assess the role of these mature forms of IL-33 in pathological retinal neovascularization. Our 3′-mRNA sequencing and signaling studies indicated that IL-3399-270 and IL-33109-270 were more potent at inducing endothelial cell activation and angiogenesis than the other mature forms. We found that genetic deletion of IL-33 significantly reduced OIR-induced retinal neovascularization in the mouse retina and that intraperitoneal administration of mature forms of IL-33, mainly IL-3399–270 and IL-33109–270, significantly restored ischemia-induced angiogenic sprouting and tuft formation in the hypoxic retinas of IL-33–/– mice. Thus, our study results suggest that blockade or inhibition of IL-33 cleavage by neutrophil proteases could help mitigate pathological angiogenesis in proliferative retinopathies. Interleukin-33 plays a role in many diseases and biological processes. This study investigates how various IL-33 mature forms affects blood vessel creation in the eye, especially in eye diseases. The researchers used genetic and drug-related methods to study the effects of IL-33 on blood vessel formation in the eye, focusing on how it regulates cellular signaling. The research used both in vitro and in vivo methods to understand IL-33’s role in abnormal blood vessel growth, specifically in oxygen-induced eye disease, a model for diseases like premature retinopathy and some aspects of diabetic retinopathy. The research concludes that IL-33, especially its enzyme-processed forms, plays a key role in the development of proliferative retinopathies by promoting abnormal blood vessel growth in the eye. This new understanding of IL-33’s function could lead to new treatments for proliferative retinopathies. This summary was initially drafted using artificial intelligence, then revised and fact-checked by the author.