Design of a Biocompatible Hydroxyapatite-Based Nanovehicle for Efficient Delivery of Small Interference Ribonucleic Acid into Mouse Embryonic Stem Cells.
2021
The small interference RNA (siRNA)-assisted RNA interference approach in stem cells for differentiating into cell-specific lineages is gaining importance for its therapeutic potential. An effective gene delivery platform is crucial to achieve this goal. In this context, self-fluorescent, cell-penetrating peptide (CPP)-functionalized hydroxyapatite nanoparticles (R8HNPs) were synthesized by a modified sol gel technique. R8HNPs were crystalline, displayed characteristic bands, and exhibited broad emission spectra from 350 to 750 nm corresponding to green and red fluorescence. The biocompatible R8HNPs displayed robust binding with siRNA and excellent uptake in R1 ESCs. This was attributed to functionalization with CPP. Moreover, the R8HNP-complexed siRNA exhibited excellent serum and room temperature stability. The NPs protected the siRNA from sonication, pH, and temperature-induced stress and efficiently delivered siRNA to trigger 80% silencing of a pluripotency marker gene, Oct4, in R1 ESCs at 48 h. The transient downregulation was also observed at the protein level. Our findings demonstrate R8HNPs as a promising delivery agent for siRNA therapeutics with the potential for lineage-specific differentiation and future applications in regenerative medicine.
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