Enhanced growth and differentiation of neural stem cells on alginate/collagen/reduced graphene oxide composite hydrogel incorporated with lithium chloride.

IF 2.2 4区 工程技术 Q3 PHARMACOLOGY & PHARMACY
Bioimpacts Pub Date : 2023-01-01 Epub Date: 2023-07-24 DOI:10.34172/bi.2023.24266
Azadeh Babaei, Taki Tiraihi, Jajar Ai, Nafiseh Baheiraei
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引用次数: 0

Abstract

Introduction: Cell transplantation with hydrogel-based carriers is one of the advanced therapeutics for challenging diseases, such as spinal cord injury. Electrically conductive hydrogel has received much attention for its effect on nerve outgrowth and differentiation. Besides, a load of neuroprotective substances, such as lithium chloride can promote the differentiation properties of the hydrogel.

Methods: In this study, alginate/collagen/reduced graphene oxide hydrogel loaded with lithium chloride (AL/CO/rGO Li+) was prepared as an injectable cell delivery system for neural tissue regeneration. After determining the lithium-ion release profile, an MTT assay was performed to check neural viability. In the next step, real-time PCR was performed to evaluate the expression of cell adhesion and neurogenic markers.

Results: Our results showed that the combination of collagen fibers and rGO with alginates increased cell viability and the gene expression of collagen-binding receptor subunits such as integrin α1, and β1. Further, rGO contributed to the controlled release of lithium-ion hydrogel in terms of its plenty of negatively charged functional groups. The continuous culture of NSCs on AL/CO/rGO Li+ hydrogel increased neurogenic genes' expressions of nestin (5.9 fold), NF200 (36.8 fold), and synaptophysin (13.2 fold), as well as protein expression of NF200 and synaptophysin after about 14 days.

Conclusion: The simultaneous ability of electrical conduction and lithium-ion release of AL/CO/rGO Li+ hydrogel could provide a favorable microenvironment for NSCs by improving their survival, maintaining cell morphology, and expressing the neural marker. It may be potentially used as a therapeutic approach for stem cell transplantation in a spinal cord injury.

藻酸盐/胶原/还原氧化石墨烯复合水凝胶与氯化锂复合增强神经干细胞的生长和分化
简介:水凝胶载体细胞移植是治疗脊髓损伤等具有挑战性疾病的先进疗法之一。导电水凝胶因其对神经生长和分化的影响而备受关注。此外,大量的神经保护物质,如氯化锂,可以促进水凝胶的分化特性。方法:本研究制备了负载氯化锂的藻酸盐/胶原/还原氧化石墨烯水凝胶(AL/CO/rGO-Li+),作为神经组织再生的注射细胞递送系统。在确定锂离子释放曲线后,进行MTT测定以检查神经活力。在下一步中,进行实时PCR以评估细胞粘附和神经源性标志物的表达。结果:我们的结果表明,胶原纤维和rGO与藻酸盐的结合增加了细胞活力和胶原结合受体亚基如整合素α1和β1的基因表达。此外,就其大量带负电荷的官能团而言,rGO有助于锂离子水凝胶的控制释放。在AL/CO/rGO-Li+水凝胶上连续培养NSCs增加了神经源性基因巢蛋白(5.9倍)、NF200(36.8倍)和突触素(13.2倍)的表达,以及大约14天后NF200和突触蛋白的蛋白质表达。结论:AL/CO/rGO-Li+水凝胶具有同时导电和释放锂离子的能力,可以通过提高NSCs的存活率、维持细胞形态和表达神经标志物,为其提供有利的微环境。它可能被用作脊髓损伤中干细胞移植的治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Bioimpacts
Bioimpacts Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
4.80
自引率
7.70%
发文量
36
审稿时长
5 weeks
期刊介绍: BioImpacts (BI) is a peer-reviewed multidisciplinary international journal, covering original research articles, reviews, commentaries, hypotheses, methodologies, and visions/reflections dealing with all aspects of biological and biomedical researches at molecular, cellular, functional and translational dimensions.
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