Geun-Hyoung Ha, Je Young Yeon, Ki Hoon Kim, Du Man Lee, Hye Yun Chae, Hyun Nam, Kyunghoon Lee, Dong Oh Kim, Chung Kwon Kim, Kyeung Min Joo
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This study aimed to characterize WJ-MSCs in terms of stem cell markers, differentiation, cell proliferation, and paracrine factors by comparing naive and Th.WJ-MSCs. We demonstrated that compared with naive MSCs, Th.MSCs significantly enhanced the neuroprotective effects in vitro. Moreover, we identified differentially expressed proteins in the conditioned media of naive and Th.WJ-MSCs by liquid chromatography-tandem mass spectrometry analysis. Secretome analysis of the conditioned medium of WJ-MSCs revealed that such neuroprotective effects were mediated by paracrine effects with secretomes of Th.WJ-MSCs, and hepatocyte growth factor was identified as a key paracrine mediator. These results can be applied further in the preclinical and clinical development of effective and safe cell therapeutics for brain injuries such as HIE and IVH.</p>","PeriodicalId":94214,"journal":{"name":"Stem cells and development","volume":" ","pages":"89-103"},"PeriodicalIF":0.0000,"publicationDate":"2024-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Thrombin Priming Promotes the Neuroprotective Effects of Human Wharton's Jelly-Derived Mesenchymal Stem Cells Via the HGF/AKT/STAT3 Signaling Pathway.\",\"authors\":\"Geun-Hyoung Ha, Je Young Yeon, Ki Hoon Kim, Du Man Lee, Hye Yun Chae, Hyun Nam, Kyunghoon Lee, Dong Oh Kim, Chung Kwon Kim, Kyeung Min Joo\",\"doi\":\"10.1089/scd.2023.0191\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Mesenchymal stem cells (MSCs) directly differentiate into neurons and endothelial cells after transplantation, and their secretome has considerable potential for treating brain injuries. 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Secretome analysis of the conditioned medium of WJ-MSCs revealed that such neuroprotective effects were mediated by paracrine effects with secretomes of Th.WJ-MSCs, and hepatocyte growth factor was identified as a key paracrine mediator. 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引用次数: 0
摘要
间充质干细胞(MSCs)移植后可直接分化为神经元和内皮细胞,其分泌物组在治疗脑损伤方面具有相当大的潜力。以往的研究表明,间充质干细胞在暴露于缺氧、细胞因子、生长因子或化学制剂的情况下产生的引物效应可优化间充质干细胞的旁分泌效力和治疗潜力。研究表明,在缺氧缺血性脑损伤(HIE)和脑室内出血(IVH)等脑损伤中,凝血酶引流的沃顿果冻间充质干细胞(Th.WJ-MSCs)能显著增强新生间充质干细胞的神经保护作用。本研究旨在通过比较天真和Th.WJ-间充质干细胞,从干细胞标记、分化、细胞增殖和旁分泌因子等方面描述WJ-间充质干细胞的特征。我们发现,与天真间充质干细胞相比,Th.间充质干细胞能显著增强体外神经保护作用。此外,我们还通过液相色谱-串联质谱分析鉴定了天真和Th.WJ-间充质干细胞条件培养基中不同表达的蛋白质。对WJ-间充质干细胞条件培养基的分泌物组分析表明,这种神经保护作用是由Th.WJ-间充质干细胞分泌物的旁分泌效应介导的,肝细胞生长因子被确定为关键的旁分泌介质。这些研究结果可进一步应用于临床前和临床开发,为治疗 HIE 和 IVH 等脑损伤提供有效、安全的细胞疗法。
Thrombin Priming Promotes the Neuroprotective Effects of Human Wharton's Jelly-Derived Mesenchymal Stem Cells Via the HGF/AKT/STAT3 Signaling Pathway.
Mesenchymal stem cells (MSCs) directly differentiate into neurons and endothelial cells after transplantation, and their secretome has considerable potential for treating brain injuries. Previous studies have suggested that the effects of MSCs priming with exposure to hypoxia, cytokines, growth factors, or chemical agents could optimize the paracrine potency and therapeutic potential of MSCs. Studies have suggested that thrombin-primed Wharton's Jelly-derived mesenchymal stem cells (Th.WJ-MSCs) significantly enhance the neuroprotective beneficial effects of naive MSCs in brain injury such as hypoxic-ischemic brain injury (HIE) and intraventricular hemorrhage (IVH). This study aimed to characterize WJ-MSCs in terms of stem cell markers, differentiation, cell proliferation, and paracrine factors by comparing naive and Th.WJ-MSCs. We demonstrated that compared with naive MSCs, Th.MSCs significantly enhanced the neuroprotective effects in vitro. Moreover, we identified differentially expressed proteins in the conditioned media of naive and Th.WJ-MSCs by liquid chromatography-tandem mass spectrometry analysis. Secretome analysis of the conditioned medium of WJ-MSCs revealed that such neuroprotective effects were mediated by paracrine effects with secretomes of Th.WJ-MSCs, and hepatocyte growth factor was identified as a key paracrine mediator. These results can be applied further in the preclinical and clinical development of effective and safe cell therapeutics for brain injuries such as HIE and IVH.