甘露糖功能化壳聚糖包覆的聚乳酸(PLGA)纳米颗粒用于脑靶向重塑释放 CBD 和 BDNF 以治疗阿尔茨海默病

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-10-08 DOI:10.1021/acschemneuro.4c0039210.1021/acschemneuro.4c00392
Arun Kumar Mahanta, Bivek Chaulagain, Riddhi Trivedi and Jagdish Singh*, 
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引用次数: 0

摘要

阿尔茨海默病(AD)是一种常见的神经退行性疾病,会导致认知能力和记忆力下降。阿尔茨海默病的特征是淀粉样蛋白-β和低磷酸化形式的 tau 蛋白沉积。研究发现,AD 大脑与神经变性、氧化应激和炎症有关。大麻二酚(CBD)具有神经保护、抗氧化和抗炎特性,并能同时减少淀粉样蛋白-β的生成和 tau 蛋白的高磷酸化。脑源性神经营养因子(BDNF)在中枢神经系统可塑性的发展和维持中发挥着至关重要的作用。AD 患者体内 BDNF 水平的下降会导致可塑性降低和神经元细胞死亡。目前针对多发性硬化症的疗法仅限于缓解症状,因此需要一种能逆转认知能力下降的治疗策略。在这种情况下,CBD 和 BDNF 的联合疗法可能是治疗 AD 的一种富有成效的策略。我们设计了甘露糖共轭壳聚糖包覆聚(d,l-乳酸-聚乙二醇酰胺(PLGA)) (CHTMAN-PLGA) 纳米粒子,用于将 CBD 和 BDNF 共同输送到大脑。壳聚糖经甘露糖修饰,可特异性靶向血脑屏障中大量存在的葡萄糖转运体-1(GLUT-1)受体,选择性地向大脑输送治疗药物。CBD包被纳米颗粒的平均流体力学直径为306 ± 8.12 nm,zeta电位为31.7 ± 1.53 mV。包覆纳米颗粒延长了CBD从PLGA基质中的释放时间。包衣纳米颗粒可持续释放 CBD 长达 22 天,包封药物的释放率为 91.68 ± 2.91%。包覆纳米颗粒具有较高的正Zeta电位(31.7 ± 1.53 mV),可包覆质粒DNA。利用 CHTMAN-PLGA-CBD/pGFP,研究了 bEND.3、原代星形胶质细胞和原代神经元的定性转染效率;利用 CHTMAN-PLGA-CBD/pBDNF,测定了递送系统的定量转染效率。体外 pBDNF 转染研究表明,在所有细胞系中,CHTMAN-PLGA-CBD/pBDNF 的 BDNF 表达量是裸 pBDNF 的 4 倍。分别在 bEND.3 细胞和红细胞中测试了所设计的纳米颗粒的细胞毒性和血液相容性,结果发现纳米颗粒无毒且血液相容性良好。因此,甘露糖共轭壳聚糖包覆的聚乳酸(PLGA)纳米颗粒可作为脑靶向递送载体,用于CBD和BDNF的联合递送,以治疗AD。
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Mannose-Functionalized Chitosan-Coated PLGA Nanoparticles for Brain-Targeted Codelivery of CBD and BDNF for the Treatment of Alzheimer’s Disease

Alzheimer’s disease (AD) is a common neurodegenerative disease causing cognitive and memory decline. AD is characterized by the deposition of amyloid-β and hypophosphorylated forms of tau protein. AD brains are found to be associated with neurodegeneration, oxidative stress, and inflammation. Cannabidiol (CBD) shows neuroprotective, antioxidant, and anti-inflammatory properties and simultaneously reduces amyloid-β production and tau hyperphosphorylation. The brain-derived neurotrophic factor (BDNF) plays a vital role in the development and maintenance of the plasticity of the central nervous system. A decline of BDNF levels in AD patients results in reduced plasticity and neuronal cell death. Current therapeutics against AD are limited to only symptomatic relief, necessitating a therapeutic strategy that reverses cognitive decline. In this scenario, combination therapy of CBD and BDNF could be a fruitful strategy for the treatment of AD. We designed mannose-conjugated chitosan-coated poly(d,l-lactide-co-glycolide (PLGA) (CHTMAN-PLGA) nanoparticles for the codelivery of CBD and BDNF to the brain. Chitosan is modified with mannose to specifically target the glucose transporter-1 (GLUT-1) receptor abundantly present in the blood–brain barrier for selectively delivering therapeutics to the brain. The CBD-encapsulated nanoparticles showed an average hydrodynamic diameter of 306 ± 8.12 nm and a zeta potential of 31.7 ± 1.53 mV. The coated nanoparticles prolonged encapsulated CBD release from the PLGA matrix. The coated nanoparticles exhibited sustained release of CBD for up to 22 days with 91.68 ± 2.91% release of the encapsulated drug. The coated nanoparticles, which had a high positive zeta potential (31.7 ± 1.53 mV), encapsulated the plasmid DNA. The qualitative transfection efficiency was investigated using CHTMAN-PLGA-CBD/pGFP in bEND.3, primary astrocytes, and primary neurons, while the quantitative transfection efficiency of the delivery system was determined using CHTMAN-PLGA-CBD/pBDNF. In vitro, the pBDNF transfection study revealed that the BDNF expression was 4-fold higher for CHTMAN-PLGA-CBD/pBDNF than for naked pBDNF in all of the cell lines. The cytotoxicity and hemocompatibility of the designed nanoparticles were tested in bEND.3 cells and red blood cells, respectively, and the nanoparticles were found to be nontoxic and hemocompatible. Hence, mannose-conjugated chitosan-coated PLGA nanoparticles could be useful as brain-targeting delivery vehicles for the codelivery of CBD and BDNF for possible AD treatment.

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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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