Both DNA- and RNA-based nanotechnologies are remarkably useful for the engineering of molecular devices in vitro and are applied in a vast collection of applications. Yet, the ability to integrate functional nucleic acid nanostructures in applications outside of the lab requires overcoming their inherent degradation sensitivity and subsequent loss of function. Viruses are minimalistic yet sophisticated supramolecular assemblies, capable of shielding their nucleic acid content in nuclease-rich environments. Inspired by this natural ability, we engineered RNA-virus-like particles (VLPs) nanocarriers (NCs). We showed that the VLPs can function as an exceptional protective shell against nuclease-mediated degradation. We then harnessed biological recognition elements and demonstrated how engineered riboswitch NCs can act as a possible disease-modifying treatment for genetic metabolic disorders. The functional riboswitch is capable of selectively and specifically binding metabolites and preventing their self-assembly process and its downstream effects. When applying the riboswitch nanocarriers to an in vivo yeast model of adenine accumulation and self-assembly, significant inhibition of the sensitivity to adenine feeding was observed. In addition, using an amyloid-specific dye, we proved the riboswitch nanocarriers' ability to reduce the level of intracellular amyloid-like metabolite cytotoxic structures. The potential of this RNA therapeutic technology does not apply only to metabolic disorders, as it can be easily fine-tuned to be applied to other conditions and diseases.
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