| Popis: |
Clinical applications of hematopoietic stem cell (HSC) gene editing are limited due to their complex and expensive logistics. HSC editing is commonly performed ex vivo using electroporation and requires good manufacturing practice (GMP) facilities, similar to bone marrow transplant centers. In vivo gene editing could overcome this limitation; however, electroporation is unsuitable for systemic in vivo applications to HSCs. Here we evaluated polymer-based nanoparticles (NPs), which could also be used for in vivo administration, for the delivery of mRNA and nucleases to human granulocyte colony-stimulating factor (GCSF)-mobilized CD34(+) cells. NP-mediated ex vivo delivery showed no toxicity, and the efficiency was directly correlated with the charge of the NPs. In a side-by-side comparison with electroporation, NP-mediated gene editing allowed for a 3-fold reduction in the amount of reagents, with similar efficiency. Furthermore, we observed enhanced engraftment potential of human HSCs in the NSG mouse xenograft model using NPs. Finally, mRNA- and nuclease-loaded NPs were successfully lyophilized for storage, maintaining their transfection potential after rehydration. In conclusion, we show that polymer-based NP delivery of mRNA and nucleases has the potential to overcome current limitations of HSC gene editing. The predictable transfection efficiency, low toxicity, and ability to lyophilize NPs will greatly enhance the portability and provide a highly promising platform for HSC gene therapy. |
