Brain targeted delivery of rapamycin using transferrin decorated nanostructured lipid carriers.

IF 2.2 4区 工程技术 Q3 PHARMACOLOGY & PHARMACY
Bioimpacts Pub Date : 2022-01-01 DOI:10.34172/bi.2021.23389
Fatemeh Khonsari, Mostafa Heydari, Rassoul Dinarvand, Mohammad Sharifzadeh, Fatemeh Atyabi
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引用次数: 5

Abstract

Introduction: Recent studies showed that rapamycin, as a mammalian target of rapamycin (mTOR) inhibitor, could have beneficial therapeutic effects for the central nervous system (CNS) related diseases. However, the immunosuppressive effect of rapamycin as an adverse effect, the low water solubility, and the rapid in vivo degradation along with the blood-brain barrier-related challenges restricted the clinical use of this drug for brain diseases. To overcome these drawbacks, a transferrin (Tf) decorated nanostructured lipid carrier (NLC) containing rapamycin was designed and developed. Methods: Rapamycin-loaded cationic and bare NLCs were prepared using solvent diffusion and sonication method and well characterized. The optimum cationic NLCs were physically decorated with Tf. For in vitro study, the MTT assay and intracellular uptake of nanoparticles on U-87 MG glioblastoma cells were assessed. The animal biodistribution of nanoparticles was evaluated by fluorescent optical imaging. Finally, the in vivo effect of NLCs on the immune system was also studied. Results: Spherical NLCs with small particle sizes ranging from 120 to 150 nm and high entrapment efficiency of more than 90%, showed ≥80% cell viability. More importantly, Tf-decorated NLCs in comparison with bare NLCs, showed a significantly higher cellular uptake (97% vs 60%) after 2 hours incubation and further an appropriate brain accumulation with lower uptake in untargeted tissue in mice. Surprisingly, rapamycin-loaded NLCs exhibited no immunosuppressive effect. Conclusion: Our findings proposed that the designed Tf-decorated NLCs could be considered as a safe and efficient carrier for targeted brain delivery of rapamycin which may have an important value in the clinic for the treatment of neurological disorders.

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利用转铁蛋白修饰的纳米结构脂质载体对雷帕霉素的脑靶向递送。
近年来的研究表明,雷帕霉素作为雷帕霉素(mTOR)抑制剂的靶动物,对中枢神经系统(CNS)相关疾病具有良好的治疗效果。然而,雷帕霉素的免疫抑制作用、低水溶性、体内快速降解以及与血脑屏障相关的挑战,限制了该药在脑部疾病的临床应用。为了克服这些缺点,设计并开发了一种含有雷帕霉素的转铁蛋白修饰的纳米结构脂质载体。方法:采用溶剂扩散法和超声法制备了负载雷帕霉素的阳离子型和裸型NLCs,并对其进行了表征。最佳阳离子NLCs经Tf物理修饰。在体外研究中,我们评估了MTT测定和纳米颗粒对U-87 MG胶质母细胞瘤细胞的细胞内摄取。采用荧光光学成像技术评价纳米颗粒在动物体内的生物分布。最后,研究了NLCs在体内对免疫系统的影响。结果:球形NLCs粒径为120 ~ 150 nm,包封率大于90%,细胞存活率≥80%。更重要的是,在孵育2小时后,tnf修饰的NLCs与未修饰的NLCs相比,显示出明显更高的细胞摄取(97% vs 60%),并且在小鼠的非靶向组织中有适当的脑积累,摄取更低。令人惊讶的是,负载雷帕霉素的NLCs没有表现出免疫抑制作用。结论:我们的研究结果表明,设计的tf修饰的NLCs可以被认为是一种安全有效的靶向脑递送雷帕霉素的载体,在临床治疗神经系统疾病方面可能具有重要价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Bioimpacts
Bioimpacts Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
4.80
自引率
7.70%
发文量
36
审稿时长
5 weeks
期刊介绍: BioImpacts (BI) is a peer-reviewed multidisciplinary international journal, covering original research articles, reviews, commentaries, hypotheses, methodologies, and visions/reflections dealing with all aspects of biological and biomedical researches at molecular, cellular, functional and translational dimensions.
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