Vitreous humor-mimetic liposomes enable effective gene delivery to the eye via intravitreal injection

초록

Inherited retinal disorders such as Norrie disease lack effective therapies, largely owing to the challenges of delivering genes to retinal tissues via intravitreal injection. The efficacy of gene delivery is constrained by physical impediments, including the inner limiting membrane and the viscoelastic characteristics of the vitreous humor. In this study, we present the development of vitreous humor-mimetic liposomes (VMLs), which have been shown to facilitate efficient retinal gene delivery by enhancing biocompatibility and tissue absorption. The VMLs were engineered by reproducing the lipidomic composition of the native vitreous, as identified through liquid chromatography-mass spectrometry analysis. The subretinal injection of VMLs was conducted to assess the efficiency of gene expression delivery by VMLs. Notably, VML #3 demonstrated a 1.3-fold enhanced GFP transfection compared to conventional nanoparticle, Lipofectamine 2000. Following intravitreal administration, VML #3 facilitated efficient delivery of pGFP-NDP (Norrie disease protein) plasmids and restored retinal vascularization in both Ndp-hemizygous and oxygen-induced retinopathy mouse models. The findings demonstrate the potential of tissue-inspired nanocarriers as effective platforms for enhancing intraocular delivery, suggesting a clinically applicable strategy for the treatment of inherited retinal diseases, including Norrie disease.

키워드