Targeted RNA Degradation by RIBOTACs: A Novel Therapeutic Avenue for Ophthalmic Diseases

Ophthalmic diseases, including inherited retinal dystrophies, age-related macular degeneration (AMD), and glaucomatous neuropathies, are often driven by the expression of pathogenic proteins or dysfunctional non-coding RNAs that are currently considered ‘undruggable’ with conventional small-molecule therapeutics. The emerging strategy of Ribonuclease-Targeting Chimeras (RIBOTACs) offers a revolutionary approach to address this therapeutic gap. RIBOTACs are heterobifunctional small molecules designed to bind a specific target RNA with one moiety and recruit a latent endogenous ribonuclease, such as RNase L, with the other, thereby catalyzing the RNA’s degradation. This targeted degradation can potentially halt the production of mutant proteins, eliminate toxic gain-of-function RNAs, or modulate key regulatory pathways involved in angiogenesis, inflammation, and apoptosis—core processes in many blinding diseases. This review explores the immense potential of applying RIBOTAC technology to ophthalmology, discussing prospective targets such as mutant alleles in retinitis pigmentosa, VEGF transcripts in neovascular AMD, and inflammatory mediators in uveitis. We will also address the unique challenges and opportunities for RIBOTAC development in the eye, including delivery strategies to overcome ocular barriers, the need for high specificity to avoid off-target RNA degradation, and the optimization of pharmacokinetic properties for intraocular administration. With continued innovation, RIBOTACs are poised to evolve into a robust therapeutic platform, expanding the druggable genome and enabling precise, durable treatments for a range of currently intractable ophthalmic conditions.