Rao Shama, Madhu Leelavathi N, Babu Roshni Sara, Nagarajan Advaidhaa, Upadhya Raghavendra, Narvekar Esha, Shetty Ashok K
bioRxiv. 2024 Jul 16:2024.07.11.603159. doi: 10.1101/2024.07.11.603159.
One of the hallmarks of Alzheimer's disease (AD) is the buildup of amyloid beta-42 (Aβ-42) in the brain, which leads to various adverse effects. Therefore, therapeutic interventions proficient in reducing Aβ-42-induced toxicity in AD are of great interest. One promising approach is to use extracellular vesicles from human induced pluripotent stem cell-derived neural stem cells (hiPSC-NSC-EVs) because they carry multiple therapeutic miRNAs and proteins capable of protecting neurons against Aβ-42-induced pathological changes. Therefore, this study investigated the proficiency of hiPSC-NSC-EVs to protect human neurons derived from two distinct hiPSC lines from Aβ-42o-induced neurodegeneration.
We isolated hiPSC-NSC-EVs using chromatographic methods and characterized their size, ultrastructure, expression of EV-specific markers and proficiency in getting incorporated into mature human neurons. Next, mature human neurons differentiated from two different hiPSC lines were exposed to 1 µM Aβ-42 oligomers (Aβ-42o) alone or with varying concentrations of hiPSC-NSC-EVs. The protective effects of hiPSC-NSC-EVs against Aβ-42o-induced neurodegeneration, increased oxidative stress, mitochondrial dysfunction, impaired autophagy, and tau phosphorylation were ascertained using multiple measures and one-way ANOVA with Newman-Keuls multiple comparisons post hoc tests.
Significant neurodegeneration was observed when human neurons were exposed to Aβ-42o alone. Notably, neurodegeneration was associated with elevated levels of oxidative stress markers malondialdehyde (MDA) and protein carbonyls (PCs), increased expression of proapoptotic Bax and Bad genes and proteins, reduced expression of the antiapoptotic gene and protein Bcl-2, increased expression of genes encoding mitochondrial complex proteins, decreased expression of autophagy-related proteins Beclin-1 and microtubule-associated protein 1 light chain 3B, and increased phosphorylation of tau. However, the addition of an optimal dose of hiPSC-NSC-EVs (6 x 10 EVs) to human neuronal cultures exposed to Aβ-42o significantly reduced the extent of neurodegeneration, along with diminished levels of MDA and PCs, normalized expressions of Bax, Bad, and Bcl-2, and genes linked to mitochondrial complex proteins, and reduced tau phosphorylation.
The findings demonstrate that an optimal dose of hiPSC-NSC-EVs could significantly decrease the degeneration of human neurons induced by Aβ-42o. The results also support further research into the effectiveness of hiPSC-NSC-EVs in AD, particularly their proficiency in preserving neurons and slowing disease progression.
阿尔茨海默病(AD)的一个标志性特征是大脑中β淀粉样蛋白42(Aβ-42)的积累,这会导致各种不良影响。因此,能够有效降低AD中Aβ-42诱导毒性的治疗干预措施备受关注。一种有前景的方法是使用人诱导多能干细胞衍生的神经干细胞胞外囊泡(hiPSC-NSC-EVs),因为它们携带多种具有治疗作用的微小RNA和蛋白质,能够保护神经元免受Aβ-42诱导的病理变化影响。因此,本研究调查了hiPSC-NSC-EVs保护源自两种不同hiPSC系的人神经元免受Aβ-42寡聚体(Aβ-42o)诱导的神经退行性变的能力。
我们使用色谱方法分离hiPSC-NSC-EVs,并对其大小、超微结构、EV特异性标志物的表达以及融入成熟人神经元的能力进行了表征。接下来,将源自两种不同hiPSC系分化得到的成熟人神经元单独暴露于1 μM Aβ-42寡聚体(Aβ-42o)或与不同浓度的hiPSC-NSC-EVs共同暴露。使用多种测量方法以及单因素方差分析和Newman-Keuls事后多重比较检验,确定hiPSC-NSC-EVs对Aβ-42o诱导的神经退行性变、氧化应激增加、线粒体功能障碍、自噬受损和tau蛋白磷酸化的保护作用。
当人神经元单独暴露于Aβ-42o时,观察到明显的神经退行性变。值得注意的是,神经退行性变与氧化应激标志物丙二醛(MDA)和蛋白质羰基(PCs)水平升高、促凋亡Bax和Bad基因及蛋白表达增加、抗凋亡基因和蛋白Bcl-2表达降低、线粒体复合体蛋白编码基因表达增加、自噬相关蛋白Beclin-1和微管相关蛋白1轻链3B表达降低以及tau蛋白磷酸化增加有关。然而,向暴露于Aβ-42o的人神经元培养物中添加最佳剂量的hiPSC-NSC-EVs(6×10个胞外囊泡)可显著降低神经退行性变的程度,同时降低MDA和PCs水平,使Bax、Bad和Bcl-2以及与线粒体复合体蛋白相关的基因表达正常化,并减少tau蛋白磷酸化。
研究结果表明,最佳剂量的hiPSC-NSC-EVs可显著减少Aβ-42o诱导的人神经元退化。这些结果也支持进一步研究hiPSC-NSC-EVs在AD中的有效性,特别是它们在保护神经元和减缓疾病进展方面的能力。
