Antisense Oligonucleotide-Mediated Splice Switching: Potential Therapeutic Approach for Cancer Mitigation

Simple Summary: Splicing is an important mechanism by which precursor mRNA is modified into mature mRNA. This splicing plays a major role in the generation of different proteins required for cells. Cancer cells modulate this splicing in such a way that it facilitates uncontrolled growth and survival. Cancer is one of the leading causes of death, and the therapies that are currently available also affect normal cells. Antisense oligonucleotides (AOs) are synthetic DNA/RNA that bind specifically to target mRNA and thereby have fewer off-target effects. These AOs have the potential to modulate the splicing mechanism. In this review, we will discuss the different modes of action of AOs and their potential in targeting cancer.Splicing is an essential process wherein precursor messenger RNA (pre-mRNA) is reshaped into mature mRNA. In alternative splicing, exons of any pre-mRNA get rearranged to form mRNA variants and subsequently protein isoforms, which are distinct both by structure and function. On the other hand, aberrant splicing is the cause of many disorders, including cancer. In the past few decades, developments in the understanding of the underlying biological basis for cancer progression and therapeutic resistance have identified many oncogenes as well as carcinogenic splice variants of essential genes. These transcripts are involved in various cellular processes, such as apoptosis, cell signaling and proliferation. Strategies to inhibit these carcinogenic isoforms at the mRNA level are promising. Antisense oligonucleotides (AOs) have been developed to inhibit the production of alternatively spliced carcinogenic isoforms through splice modulation or mRNA degradation. AOs can also be used to induce splice switching, where the expression of an oncogenic protein can be inhibited by the induction of a premature stop codon. In general, AOs are modified chemically to increase their stability and binding affinity. One of the major concerns with AOs is efficient delivery. Strategies for the delivery of AOs are constantly being evolved to facilitate the entry of AOs into cells. In this review, the different chemical modifications employed and delivery strategies applied are discussed. In addition to that various AOs in clinical trials and their efficacy are discussed herein with a focus on six distinct studies that use AO-mediated exon skipping as a therapeutic strategy to combat cancer.

Automated summary

Splicing plays a crucial role in protein diversity, but aberrant splicing can contribute to cancer development. Antisense oligonucleotides (AOs) have the potential to modulate splicing mechanisms and show promise as a targeted therapy for cancer treatment. Delivery strategies for efficient AO uptake into cells are being continuously developed to enhance their therapeutic efficacy.