Alternative splicing (AS) plays a pivotal role in protein diversity and mRNA maturation. Programmable control of targeted AS events is of longstanding interest in RNA biology, promising correction of dysregulated splicing in disease and discovery of AS events. This review explores four main strategies for programmable splicing manipulation: (1) inhibiting splicing signals with antisense oligonucleotides (ASOs), exemplified by therapies approved by the U.S. Food and Drug Administration, (2) applying DNA-targeting clustered regularly interspaced short palindromic repeats systems to edit splicing signals, (3) using synthetic splicing factors, including synthetic proteins and ribonucleoproteins, inspired by natural RNA-binding proteins, and (4) guiding endogenous splicing machinery with bifunctional ASOs and engineered small nuclear RNAs. While ASOs remain clinically prominent, emerging technologies aim for broad, scalable, durable, and precise splicing modulation, holding promise for transformative advancements in RNA biology and therapeutic interventions.
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