Fucoidan-derived carbon dots as nanopenetrants of blood-brain barrier for Parkinson’s disease treatment

褐藻糖胶 血脑屏障 帕金森病 疾病 医学 纳米技术 材料科学 化学 神经科学 病理 中枢神经系统 生物 生物化学 多糖
作者
Miaomiao Han,Bingcheng Yi,R Song,Danyang Wang,Ning Huang,Yongzheng Ma,Lihuan Zhao,Sheng-Nan Liu,Huiwen Zhang,Ruijie Xu,Jiaqi Lu,Xiaoli Shen,Qihui Zhou
出处
期刊:Journal of Colloid and Interface Science [Elsevier BV]
卷期号:680 (Pt A): 516-527 被引量:13
标识
DOI:10.1016/j.jcis.2024.10.173
摘要

Parkinson's Disease (PD) stands as a prevalent neurodegenerative disorder. However, current pharmacotherapies for PD face challenges due to inadequate penetration through the blood-brain barrier (BBB), posing limitations on their therapeutic efficacy. Considering the potential of negatively charged carbon dots (CDs) in retaining functional groups from precursor molecules and vertically crossing the BBB, this study focuses on the utilization of fucoidan (FD), a promising pharmaceutical candidate with neuroprotective effects on dopamine-active neurons, for the development of negatively charged CDs through a one-step hydrothermal method, aiming to achieve efficient BBB penetration for PD treatment. The obtained fucoidan-derived carbon dots (FDCDs) exhibit the fundamental characteristics of CDs, such as nanostructure particles with an average diameter of less than 10 nm and significant photoluminescence ability. They also retain the abundant functional groups of SO42- from FD, resulting in a negatively charged surface. In vitro cell experiments were conducted to validate the ability of FDCDs to mitigate 1-Methyl-4-phenylpyridinium ion (MPP+)-induced damage in PC12 cells via anti-inflammatory pathway, antioxidant capacity, and anti-apoptotic effect. After confirming the ability of FDCDs to traverse the BBB using 3D small animal imaging, the intravenous administration of FDCDs via tail injection was observed to successfully restore the motor function in 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced PD mice. Notably, no apparent biotoxic response was observed, highlighting the promising potential of FDCDs for effective PD therapy.
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