纳米载体
鼻腔给药
金属有机骨架
药物输送
二甲双胍
医学
药理学
材料科学
化学
纳米技术
内科学
有机化学
胰岛素
吸附
作者
Muzhaozi Yuan,Zongsu Han,Yogish Somayaji,Nguyen Nguyen,Hanwen Hu,Leelavathi N. Madhu,Sahithi Attaluri,Maheedhar Kodali,Yihao Yang,Yu‐Chuan Hsu,Avik Ahuja,Rahul Srinivasan,Jean‐Philippe Pellois,Hong‐Cai Zhou,Ashok K. Shetty,Ya Wang
标识
DOI:10.1007/s42114-025-01227-y
摘要
Dosage tolerance is one of the translational challenges of using metformin (Met) in brain therapeutics. This paper presents metal-organic framework (MOF)-74-Mg nanocarriers (NCs) for intranasal (IN) delivery of brain-specific agents with a prolonged release time. We confirmed their excellent biocompatibility (5 mg/mL) and intrinsic fluorescence properties (370/500 nm excitation/emission peak) in Neuro-2A cells. This NC exhibited a high Met loading rate (10% wt/wt) and a sustained and prolonged release pattern of Met (90% release in 16 h) in Dulbecco's Modified Eagle Medium. We observed an optimal brain accumulation of Met-MOF (9% of the injected dosage) 8 h after IN injection. This percentage is at least 82 times higher than oral administration. Confocal imaging demonstrated significantly higher uptake of Met-MOF, 45 min after IN injection, by 79-85% neurons and 93-97% microglia than astrocytes and oligodendrocytes across 5xFAD mouse brain regions, including hippocampus and striatum. These results suggest MOF-74-Mg is a potential NC for high brain Met accumulation, real-time imaging, and prolonged and sustained release of Met and other neurotherapeutic agents that are challenging to deliver using traditional carriers and administration routes.
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