多功能脂质体通过调节内在神经元兴奋性治疗阿尔茨海默病。

Modulation of the intrinsic neuronal excitability by multifunctional liposomes tailored for the treatment of Alzheimer's disease.

机构信息

School of Medicine and Surgery, University of Milano-Bicocca, Monza, Italy,

Department of Biosciences, The PaceLab and Interuniversity Center of Molecular Medicine and Applied Biophysics (CIMMBA), University of Milan, Milano, Italy.

出版信息

Int J Nanomedicine. 2018 Jul 11;13:4059-4071. doi: 10.2147/IJN.S161563. eCollection 2018.

DOI:10.2147/IJN.S161563

PMID:30034232

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6047604/

Abstract

PURPOSE

Nanotechnologies turned out to be promising in the development of diagnostic and therapeutic approaches toward neurodegenerative disorders. However, only a very scant number of nanodevices until now proved to be effective on preclinical animal models. Although specific tests in vivo are available to assess the potential toxicity of these nanodevices on cognitive functions, those to evaluate their biosafety in vitro on neurons are still to be improved.

MATERIALS AND METHODS

We utilized the patch-clamp technique on primary cultures of cortical neural cells isolated from neonatal rats, aiming to evaluate their electrical properties after the incubation with liposomes (mApoE-PA-LIPs), previously proved able to cross the blood-brain barrier and to be effective on mouse models of Alzheimer's disease (AD), both in the absence and in the presence of β-amyloid peptide oligomers.

RESULTS

Data show a high degree of biocompatibility, evaluated by lactate dehydrogenase (LDH) release and MTT assay, and the lack of cellular internalization. After the incubation with mApoE-PA-LIPs, neuronal membranes show an increase in the input resistance (from 724.14±76 MΩ in untreated population to 886.06±86 MΩ in the treated one), a reduction in the rheobase current (from 29.6±3 to 24.2±3 pA in untreated and treated, respectively), and an increase of the firing frequency, consistent with an ultimate increase in intrinsic excitability. Data obtained after co-incubation of mApoE-PA-LIPs with β-amyloid peptide oligomers suggest a retention of liposome efficacy.

CONCLUSION

These data suggest the ability of liposomes to modulate neuronal electrical properties and are compatible with the previously demonstrated amelioration of cognitive functions induced by treatment of AD mice with liposomes. We conclude that this electrophysiological approach could represent a useful tool for nanomedicine to evaluate the effect of nanoparticles on intrinsic neuronal excitability.

摘要

目的

纳米技术在开发针对神经退行性疾病的诊断和治疗方法方面显示出了巨大的潜力。然而，到目前为止，只有极少数的纳米器件在临床前动物模型中被证明是有效的。尽管现在已经有了特定的体内测试来评估这些纳米器件对认知功能的潜在毒性，但仍需要改进体外评估它们对神经元的生物安全性的测试。

材料和方法

我们利用细胞贴附式膜片钳技术，对从新生大鼠分离的皮质神经元原代培养物进行检测，目的是评估它们在与脂质体孵育后的电生理特性。这些脂质体（mApoE-PA-LIPs）先前已被证明能够穿过血脑屏障，并在阿尔茨海默病（AD）的小鼠模型中发挥作用，无论是在β-淀粉样肽寡聚物存在的情况下还是不存在的情况下。

结果

数据显示出高度的生物相容性，通过乳酸脱氢酶（LDH）释放和 MTT 检测评估，并且不存在细胞内化。在与 mApoE-PA-LIPs 孵育后，神经元膜的输入电阻增加（未经处理的群体为 724.14±76 MΩ，处理后的群体为 886.06±86 MΩ），基础电流减小（未经处理的群体为 29.6±3 pA，处理后的群体为 24.2±3 pA），并且放电频率增加，这与内在兴奋性的最终增加一致。在与β-淀粉样肽寡聚物共孵育后获得的数据表明，脂质体的功效得以保留。

结论

这些数据表明脂质体能够调节神经元的电生理特性，并且与先前用脂质体治疗 AD 小鼠时观察到的认知功能改善一致。我们得出结论，这种电生理学方法可能成为评估纳米颗粒对内在神经元兴奋性影响的有用工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/701d/6047604/e51bc485dc00/ijn-13-4059Fig1.jpg

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多功能脂质体通过调节内在神经元兴奋性治疗阿尔茨海默病。

Modulation of the intrinsic neuronal excitability by multifunctional liposomes tailored for the treatment of Alzheimer's disease.

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料和方法

结果

结论

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