Closing the RNA loop holds promise for more stable, effective RNA therapies

Engineering ocRNAs and icRNAs. Credit: Nature Biomedical Engineering (2024). DOI: 10.1038/s41551-024-01245-z

New methods to shape RNA molecules into circles could lead to more effective and long-lasting therapies, shows a study by researchers at the University of California San Diego. The advance holds promise for a range of diseases, offering a more enduring alternative to existing RNA therapies, which often suffer from short-lived effectiveness in the body.

The work is published in Nature Biomedical Engineering.

RNA molecules have emerged as powerful tools in modern medicine. They can silence genes through small interfering RNAs (siRNAs) or serve as templates for making therapeutic proteins, as seen with messenger RNAs (mRNAs). Unlike gene editing technologies, which make permanent changes to DNA, RNA therapies offer a temporary but highly targeted approach.

However, one major challenge is that RNAs do not last long in the body, which limits their effectiveness. The concept of circular RNAs (cRNAs) has gained traction as a solution to this challenge. Circular RNAs, unlike their linear counterparts, have a closed-loop structure that renders them more resistant to degradation. The problem is that existing methods for creating circular RNAs are complex and inefficient.

 

 

 

By  Liezel Labios, University of California – San Diego

Article can be accessed on: phys.org