Brain Homogenate of a Rat Model of Alzheimer's Disease Modifies the Secretome of 3D Cultured Periodontal Ligament Stem Cells: A Potential Neuroregenerative Therapy.

IF 1.8 4区医学 Q3 PHARMACOLOGY & PHARMACY

Iranian Journal of Pharmaceutical Research Pub Date : 2022-12-01 DOI:10.5812/ijpr-133668

Fariba Mohebichamkhorami, Zahra Niknam, Mona Khoramjouy, Elmira Heidarli, Rasoul Ghasemi, Simzar Hosseinzadeh, Seyedeh Sarvenaz Mohseni, Arman Hajikarim-Hamedani, Amirhossein Heidari, Yekta Ghane, Matin Mahmoudifard, Hakimeh Zali, Mehrdad Faizi

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引用次数: 4

Abstract

Background: Alzheimer's disease (AD) is a progressive neurodegenerative disease leading to neuronal cell death and manifested by cognitive disorders and behavioral impairment. Mesenchymal stem cells (MSCs) are one of the most promising candidates to stimulate neuroregeneration and prevent disease progression. Optimization of MSC culturing protocols is a key strategy to increase the therapeutic potential of the secretome.

Objectives: Here, we investigated the effect of brain homogenate of a rat model of AD (BH-AD) on the enhancement of protein secretion in the secretome of periodontal ligament stem cells (PDLSCs) when cultured in a 3D environment. Moreover, the effect of this modified secretome was examined on neural cells to study the impact of the conditioned medium (CM) on stimulation of regeneration or immunomodulation in AD.

Methods: PDLSCs were isolated and characterized. Then, the spheroids of PDLSCs were generated in a modified 3D culture plate. PDLSCs-derived CM was prepared in the presence of BH-AD (PDLSCs-HCM) and the absence of it (PDLSCs-CM). The viability of C6 glioma cells was assessed after exposure to different concentrations of both CMs. Then, a proteomic analysis was performed on the CMs.

Results: Differentiation into adipocytes and high expression of MSCs markers verified the precise isolation of PDLSCs. The PDLSC spheroids were formed after 7 days of 3D culturing, and their viability was confirmed. The effect of CMs on C6 glioma cell viability showed that both CMs at low concentrations (> 20 mg/mL) had no cytotoxic effect on C6 neural cells. The results showed that PDLSCs-HCM contains higher concentrations of proteins compared to PDLSCs-CM, including Src-homology 2 domain (SH2)-containing PTPs (SHP-1) and muscle glycogen phosphorylase (PYGM) proteins. SHP-1 has a role in nerve regeneration, and PYGM is involved in glycogen metabolism.

Conclusions: The modified secretome derived from 3D cultured spheroids of PDLSCs treated by BH-AD as a reservoir of regenerating neural factors can serve as a potential source for AD treatment.

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阿尔茨海默病大鼠模型脑匀浆改变3D培养牙周韧带干细胞的分泌组:一种潜在的神经再生疗法

背景:阿尔茨海默病(AD)是一种进行性神经退行性疾病，导致神经元细胞死亡，表现为认知障碍和行为障碍。间充质干细胞(MSCs)是最有希望刺激神经再生和预防疾病进展的候选者之一。优化间充质干细胞培养方案是提高分泌组治疗潜力的关键策略。目的:研究大鼠AD模型(BH-AD)脑浆液在三维培养环境下对牙周韧带干细胞(PDLSCs)分泌组蛋白分泌的影响。此外，我们还研究了这种改良的分泌组对神经细胞的影响，以研究条件培养基(CM)对阿尔茨海默病再生刺激或免疫调节的影响。方法:分离PDLSCs并进行鉴定。然后，在改良的三维培养板上生成PDLSCs的球体。pdlscs衍生的CM分别在h - ad存在(PDLSCs-HCM)和不存在(PDLSCs-CM)的情况下制备。暴露于不同浓度的两种CMs后，评估C6胶质瘤细胞的活力。然后，对CMs进行蛋白质组学分析。结果:向脂肪细胞的分化和MSCs标记物的高表达证实了PDLSCs的精确分离。3D培养7天后形成PDLSC球体，并确认其生存能力。CMs对C6神经胶质瘤细胞活力的影响表明，两种低浓度(> 20 mg/mL)的CMs对C6神经细胞无细胞毒作用。结果表明，与PDLSCs-CM相比，PDLSCs-HCM含有更高浓度的蛋白质，包括含有Src-homology 2 domain (SH2)的ptp (SHP-1)和肌糖原磷酸化酶(PYGM)蛋白。SHP-1参与神经再生，PYGM参与糖原代谢。结论:经BH-AD处理的PDLSCs三维培养球体获得的修饰分泌组可作为再生神经因子的储库，可作为AD治疗的潜在来源。

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来源期刊

Iranian Journal of Pharmaceutical Research 医学-药学

CiteScore

3.40

自引率

6.20%

发文量

审稿时长

2 months

期刊介绍： The Iranian Journal of Pharmaceutical Research (IJPR) is a peer-reviewed multi-disciplinary pharmaceutical publication, scheduled to appear quarterly and serve as a means for scientific information exchange in the international pharmaceutical forum. Specific scientific topics of interest to the journal include, but are not limited to: pharmaceutics, industrial pharmacy, pharmacognosy, toxicology, medicinal chemistry, novel analytical methods for drug characterization, computational and modeling approaches to drug design, bio-medical experience, clinical investigation, rational drug prescribing, pharmacoeconomics, biotechnology, nanotechnology, biopharmaceutics and physical pharmacy.