Cytoplasmic delivery of small interfering RNA by photoresponsive non-cationic liposomes

概要

正電荷をもたないリポソームと光増感剤の組み合わせで、siRNAを細胞内に送達する方法を開発しました。大学院生と頑張った約5年間の研究の成果です。

収録
Journal of Drug Delivery Science and Technology

Small interfering RNA (siRNA) can specifically suppress gene expression by cleaving mRNA in the cytoplasm, termed RNA interference (RNAi). Although a nanoparticle-based siRNA delivery system has been approved for clinical use, the efficiency of cytoplasmic delivery of siRNA is still low. Recently, our group has established a highly efficient siRNA encapsulation method using non-cationic liposomes (LPs), which are more biocompatible than conventional cationic LPs. While non-cationic LPs containing siRNA were taken up by cells in vitro, the cytoplasmic release of siRNA and subsequent phenomena involving RNAi were not observed. It was considered that cytoplasmic delivery of siRNA, and siRNA release from LPs, should occur sequentially. We utilized amphiphilic photosensitizer Al (III) phthalocyanine chloride disulfonic acid (AlPcS2a), which can generate singlet oxygen under exposure to red light. When SK-HEP-1 cells expressing luciferase were treated with non-cationic LPs containing both siRNA and AlPcS2a, RNAi could be observed upon red light exposure, suggesting that singlet oxygen efficiently disrupts the membranous structures of endo/lysosomes and LPs. Thus, the combined use of AlPcS2a and red light is effective for utilizing non-cationic LPs for cytoplasmic delivery of siRNA.

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