Évora Artemizia, Garcia Gonçalo, Rubi Ana, De Vitis Eleonora, Matos Ana Teresa, Vaz Ana Rita, Gervaso Francesca, Gigli Giuseppe, Polini Alessandro, Brites Dora
Neuroinflammation, Signaling and Neuroregeneration, Research Institute for Medicines (iMed.ULisboa), Faculty of Pharmacy, Universidade de Lisboa, Lisbon, Portugal.
Department of Pharmaceutical Sciences and Medicines, Faculty of Pharmacy, Universidade de Lisboa, Lisbon, Portugal.
Front Pharmacol. 2025 Mar 12;16:1474012. doi: 10.3389/fphar.2025.1474012. eCollection 2025.
Alzheimer's disease (AD), a complex neurodegenerative disease associated with ageing, is the leading cause of dementia. Few people with early AD are eligible for the novel Food and Drug Administration (FDA)-approved drug treatments. Accordingly, new tools and early diagnosis markers are required to predict subtypes, individual stages, and the most suitable personalized treatment. We previously demonstrated that the regulation of microRNA (miR)-124 is crucial for proper neuronal function and microglia reshaping in human AD cell models.
The aim of this study was to develop an efficient miR-124-3p-loaded exosome strategy and validate its therapeutic potential in using a multi-compartment microfluidic device of neuron-glia that recapitulates age-AD pathological features.
Using cortical microglia from mouse pups, separated from glial mixed cultures and maintained for 2 days (stressed microglia), we tested the effects of SH-SY5Y-derived exosomes loaded with miR-124-3p mimic either by their direct transfection with Exo-Fect™ (ET124) or by their isolation from the secretome of miR-124 transfected cells (CT124). ET124 revealed better delivery effciency and higher potent effects in improving the stressed microglia status than CT124. Tricultures of human SH-SY5Y neuroblastoma cells (SH-) were established in the presence of the human microglia cell line (HMC3) and immortalized human astrocytes (IM-HA) in tricompartmentalized microfluidic devices. Replacement of SH- cells with those transfected with APP695 (SH-) in the tricultures and addition of low doses of hydrogen peroxide were used to simulate late-onset AD. The system mimicked AD-associated neurodegeneration and neuroinflammation processes. Notably, ET124 exhibited neuroprotective properties across the three cell types in the AD model by preventing neuronal apoptosis and neurite deficits, redirecting microglial profiles towards a steady state, and attenuating the inflammatory and miRNA fingerprints associated with astrocyte reactivity.
To the best of our knowledge, this is the first study supporting the neuro- and immunoprotective properties of miR-124-engineered exosomes in a microfluidic triculture platform, recapitulating age-related susceptibility to AD. Our system offers potential to develop personalized medicines in AD patient subtypes.
阿尔茨海默病(AD)是一种与衰老相关的复杂神经退行性疾病,是痴呆症的主要病因。很少有早期AD患者符合美国食品药品监督管理局(FDA)批准的新型药物治疗条件。因此,需要新的工具和早期诊断标志物来预测亚型、个体阶段以及最合适的个性化治疗方案。我们之前证明,在人类AD细胞模型中,微小RNA(miR)-124的调控对于正常神经元功能和小胶质细胞重塑至关重要。
本研究的目的是开发一种高效的负载miR-124-3p的外泌体策略,并在模拟年龄相关性AD病理特征的神经元-胶质细胞多隔室微流控装置中验证其治疗潜力。
从小鼠幼崽的皮质小胶质细胞中分离出胶质混合培养物,并培养2天(应激小胶质细胞),我们测试了负载miR-124-3p模拟物的SH-SY5Y来源外泌体的作用,这些外泌体通过用Exo-Fect™(ET124)直接转染或从miR-124转染细胞的分泌组中分离(CT124)。与CT124相比,ET124在改善应激小胶质细胞状态方面显示出更好的递送效率和更强的效果。在三室微流控装置中,在人小胶质细胞系(HMC3)和永生化人星形胶质细胞(IM-HA)存在的情况下,建立了人SH-SY5Y神经母细胞瘤细胞(SH-)的三培养体系。在三培养体系中用转染了APP695的细胞(SH-)替代SH-细胞,并添加低剂量过氧化氢来模拟晚发性AD。该系统模拟了与AD相关的神经退行性变和神经炎症过程。值得注意的是,ET124通过预防神经元凋亡和神经突缺陷、使小胶质细胞形态重定向至稳态以及减轻与星形胶质细胞反应性相关的炎症和微小RNA指纹,在AD模型的三种细胞类型中均表现出神经保护特性。
据我们所知,这是第一项支持miR-124工程化外泌体在微流控三培养平台中具有神经和免疫保护特性的研究,该平台模拟了与年龄相关的AD易感性。我们的系统为开发针对AD患者亚型的个性化药物提供了潜力。
