Establishment of a Serum-Free Human iPSC-Derived Model of Peripheral Myelination.

IF 5.4 2区 医学 Q2 MATERIALS SCIENCE, BIOMATERIALS
Aakash Patel, Marnie Williams, Kenneth Hawkins, Leandro Gallo, Marcella Grillo, Nesar Akanda, Xiufang Guo, Stephen Lambert, James J Hickman
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引用次数: 0

Abstract

Myelination and the formation of nodes of Ranvier are essential for the rapid conduction of nerve impulses along axons in the peripheral nervous system (PNS). While many animal-based and serum-containing models of peripheral myelination have been developed, these have limited ability when it comes to studying genetic disorders affecting peripheral myelination. We report a fully induced pluripotent stem cell (iPSC)-derived human model of peripheral myelination using Schwann cells (SCs) and motoneurons, cultured in a serum-free medium on patterned and nonpatterned surfaces. Results demonstrated iPSC-derived SC-expressed early growth response protein 2 (Egr2), a key transcription factor for myelination, and after ∼30 days in coculture, hallmark features of myelination, including myelin segment and node of Ranvier formation, were observed. Myelin segments were stained for the myelin basic protein, which surrounded neurofilament-stained motoneuron axons. Clusters of voltage-gated sodium channels flanked by paranodal protein contactin-associated protein 1, indicating node of Ranvier formation, were also observed. High-resolution confocal microscopy allowed for 3D reconstruction and measurement of myelin g-ratios of myelin segments, with an average g-ratio of 0.67, consistent with reported values in the literature, indicating mature myelin segment formation. This iPSC-based model of peripheral myelination provides a platform to investigate numerous PNS diseases, including Charcot-Marie Tooth disorder, Guillian-Barre syndrome, chronic inflammatory demyelinating polyneuropathy, and antimyelin-associated glycoprotein peripheral neuropathy, with the potential for greater translatability to humans for improving the applicability for drug-screening programs.

建立无血清的人类 iPSC 衍生外周髓鞘化模型
髓鞘化和 Ranvier 节的形成对于神经冲动沿轴突在周围神经系统(PNS)中的快速传导至关重要。虽然已开发出许多基于动物和含血清的外周髓鞘化模型,但这些模型在研究影响外周髓鞘化的遗传疾病时能力有限。我们报告了一种完全诱导多能干细胞(iPSC)衍生的人类外周髓鞘化模型,该模型使用许旺细胞(SC)和运动神经元,在无血清培养基中培养在有图案和无图案的表面上。结果表明,iPSC衍生的SC表达髓鞘化的关键转录因子--早期生长应答蛋白2(Egr2),在共培养30天后,可观察到髓鞘化的标志性特征,包括髓鞘节段和Ranvier结的形成。髓鞘节段被髓鞘碱性蛋白染色,周围环绕着神经丝染色的运动神经元轴突。此外,还观察到电压门控钠通道集群,其两侧是副结节蛋白接触素相关蛋白1,表明兰维耶结形成。高分辨率共聚焦显微镜可进行三维重建并测量髓鞘节段的髓鞘克比率,平均克比率为 0.67,与文献报道值一致,表明髓鞘节段形成成熟。这种基于 iPSC 的外周髓鞘化模型为研究多种 PNS 疾病(包括夏科-玛丽牙病、吉利安-巴利综合征、慢性炎症性脱髓鞘性多发性神经病和抗髓鞘相关糖蛋白外周神经病)提供了一个平台,并有可能进一步转化为人类疾病,从而提高药物筛选计划的适用性。
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来源期刊
ACS Biomaterials Science & Engineering
ACS Biomaterials Science & Engineering Materials Science-Biomaterials
CiteScore
10.30
自引率
3.40%
发文量
413
期刊介绍: ACS Biomaterials Science & Engineering is the leading journal in the field of biomaterials, serving as an international forum for publishing cutting-edge research and innovative ideas on a broad range of topics: Applications and Health – implantable tissues and devices, prosthesis, health risks, toxicology Bio-interactions and Bio-compatibility – material-biology interactions, chemical/morphological/structural communication, mechanobiology, signaling and biological responses, immuno-engineering, calcification, coatings, corrosion and degradation of biomaterials and devices, biophysical regulation of cell functions Characterization, Synthesis, and Modification – new biomaterials, bioinspired and biomimetic approaches to biomaterials, exploiting structural hierarchy and architectural control, combinatorial strategies for biomaterials discovery, genetic biomaterials design, synthetic biology, new composite systems, bionics, polymer synthesis Controlled Release and Delivery Systems – biomaterial-based drug and gene delivery, bio-responsive delivery of regulatory molecules, pharmaceutical engineering Healthcare Advances – clinical translation, regulatory issues, patient safety, emerging trends Imaging and Diagnostics – imaging agents and probes, theranostics, biosensors, monitoring Manufacturing and Technology – 3D printing, inks, organ-on-a-chip, bioreactor/perfusion systems, microdevices, BioMEMS, optics and electronics interfaces with biomaterials, systems integration Modeling and Informatics Tools – scaling methods to guide biomaterial design, predictive algorithms for structure-function, biomechanics, integrating bioinformatics with biomaterials discovery, metabolomics in the context of biomaterials Tissue Engineering and Regenerative Medicine – basic and applied studies, cell therapies, scaffolds, vascularization, bioartificial organs, transplantation and functionality, cellular agriculture
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