An mRNA-encoded dominant-negative inhibitor of transcription factor RUNX1 suppresses vitreoretinal disease in experimental models

癌症研究 信使核糖核酸 血管生成 离体 医学 生物 免疫学 病理 体内 生物化学 基因 生物技术
作者
Michael O’Hare,William P. Miller,Said Arévalo-Alquichire,Dhanesh Amarnani,Evhy Apryani,Paula Perez‐Corredor,Claudia Mariño,Daisy Y. Shu,Timothy E. Vanderleest,Andres F. Muriel‐Torres,H Gordon,Audrey Gunawan,B. Kaplan,Karim Barake,R.A. Bejjani,Tri H. Doan,Rose Lin,Santiago Delgado‐Tirado,Lucía González-Buendía,Elizabeth J. Rossin
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:16 (775): eadh0994-eadh0994 被引量:10
标识
DOI:10.1126/scitranslmed.adh0994
摘要

Messenger RNA (mRNA)-based therapies are a promising approach to medical treatment. Except for infectious diseases, no other disease has mRNA-based therapies available. The eye is an ideal model for mRNA therapeutic development because it requires limited dosing. Proliferative vitreoretinopathy (PVR) is a blinding condition caused by retinal detachment that now lacks available medical treatment, with surgery as the only treatment option. We previously implicated runt-related transcription factor-1 (RUNX1) as a driver of epithelial-to-mesenchymal transition (EMT) in PVR and as a critical mediator of aberrant ocular angiogenesis when up-regulated. On the basis of these findings, an mRNA was designed to express a dominant-negative inhibitor of RUNX1 (RUNX1-Trap). We show that RUNX1-Trap delivered in polymer-lipidoid complexes or lipid nanoparticles sequestered RUNX1 in the cytosol and strongly reduced proliferation in primary cell cultures established from fibrotic membranes derived from patients with PVR. We assessed the preclinical efficacy of intraocular delivery of mRNA-encoded RUNX1-Trap in a rabbit model of PVR and in a laser-induced mouse model of aberrant angiogenesis often used to study wet age-related macular degeneration. mRNA-encoded RUNX1-Trap suppressed ocular pathology, measured as pathological scores in the rabbit PVR model and leakage and lesion size in the laser-induced choroidal neovascularization mouse model. mRNA-encoded RUNX1-Trap also strongly reduced proliferation in a human ex vivo explant model of PVR. These data demonstrate the therapeutic potential of mRNA-encoded therapeutic molecules with dominant-negative properties, highlighting the potential of mRNA-based therapies beyond standard gene supplementation approaches.
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