Eyedrop-based macromolecular ophthalmic drug delivery for ocular fundus disease treatment.
Jingjing ShenHuiqin GaoLinfu ChenYutong JiangShu LiYu ChaoNanhui LiuYufei WangTing WeiYan LiuJipeng LiMuchao ChenJiafei ZhuJuan LiangXiaoyu ZhouXiaofeng ZhangPing GuQian ChenZhuang LiuPublished in: Science advances (2023)
Therapeutic antibodies are extensively used to treat fundus diseases by intravitreal injection, as eyedrop formulation has been rather challenging due to the presence of ocular barriers. Here, an innovative penetrating carrier was developed for antibody delivery in eyedrop formulations. We found that fluorocarbon-modified chitosan (FCS) would self-assemble with proteins to form nanocomplexes, which could effectively pass across the complicated ocular structure to reach the posterior eye segments in both mice and rabbits. In a choroidal melanoma-bearing mouse model, eyedrops containing FCS/anti-PDL1 could induce stronger antitumor immune responses than those triggered by intravenous injection of anti-PDL1. Moreover, in choroidal neovascularization-bearing mouse and rabbit models, FCS/anti-VEGFA eyedrops effectively inhibited vascular proliferation, achieving comparable therapeutic responses to those observed with intravitreal injection of anti-VEGFA. Our work presents an effective delivery carrier to treat fundus diseases using eyedrop of therapeutic proteins, which may enable at-home treatment of many eye diseases with great patient compliance.
Keyphrases
- diabetic retinopathy
- drug delivery
- optical coherence tomography
- vascular endothelial growth factor
- mouse model
- age related macular degeneration
- immune response
- optic nerve
- multidrug resistant
- signaling pathway
- type diabetes
- dendritic cells
- metabolic syndrome
- adipose tissue
- skeletal muscle
- drug release
- wound healing
- wild type