A functional human motor unit platform engineered from human embryonic stem cells and immortalized skeletal myoblasts.

IF 1.7 Q4 CELL BIOLOGY
Stem Cells and Cloning-Advances and Applications Pub Date : 2018-11-09 eCollection Date: 2018-01-01 DOI:10.2147/SCCAA.S178562
Marwah Abd Al Samid, Jamie S McPhee, Jasdeep Saini, Tristan R McKay, Lorna M Fitzpatrick, Kamel Mamchaoui, Anne Bigot, Vincent Mouly, Gillian Butler-Browne, Nasser Al-Shanti
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引用次数: 8

Abstract

Background: Although considerable research on neuromuscular junctions (NMJs) has been conducted, the prospect of in vivo NMJ studies is limited and these studies are challenging to implement. Therefore, there is a clear unmet need to develop a feasible, robust, and physiologically relevant in vitro NMJ model.

Objective: We aimed to establish a novel functional human NMJs platform, which is serum and neural complex media/neural growth factor-free, using human immortalized myoblasts and human embryonic stem cells (hESCs)-derived neural progenitor cells (NPCs) that can be used to understand the mechanisms of NMJ development and degeneration.

Methods: Immortalized human myoblasts were co-cultured with hESCs derived committed NPCs. Over the course of the 7 days myoblasts differentiated into myotubes and NPCs differentiated into motor neurons.

Results: Neuronal axon sprouting branched to form multiple NMJ innervation sites along the myotubes and the myotubes showed extensive, spontaneous contractile activity. Choline acetyltransferase and βIII-tubulin immunostaining confirmed that the NPCs had matured into cholinergic motor neurons. Postsynaptic site of NMJs was further characterized by staining dihydropyridine receptors, ryanodine receptors, and acetylcholine receptors by α-bungarotoxin.

Conclusion: We established a functional human motor unit platform for in vitro investigations. Thus, this co-culture system can be used as a novel platform for 1) drug discovery in the treatment of neuromuscular disorders, 2) deciphering vital features of NMJ formation, regulation, maintenance, and repair, and 3) exploring neuromuscular diseases, age-associated degeneration of the NMJ, muscle aging, and diabetic neuropathy and myopathy.

Abstract Image

Abstract Image

Abstract Image

由人类胚胎干细胞和永生化骨骼肌母细胞构建的功能性人体运动单元平台。
背景:尽管已经对神经肌肉连接(NMJs)进行了大量研究,但体内NMJs研究的前景有限,这些研究的实施具有挑战性。因此,开发一种可行的、稳健的、与生理相关的体外NMJ模型显然是一个未被满足的需求。目的:利用人永生化成肌细胞和人胚胎干细胞(hESCs)来源的神经祖细胞(NPCs),建立无血清和神经复合体培养基/无神经生长因子的新型功能性人NMJ平台,用于研究NMJ的发育和退化机制。方法:将永生化人成肌细胞与hESCs衍生的承诺npc共培养。7 d后,成肌细胞分化为肌管,神经元分化为运动神经元。结果:神经元轴突萌发分支,沿肌管形成多个NMJ神经支配位点,肌管表现出广泛的自发收缩活动。胆碱乙酰转移酶和β iii -微管蛋白免疫染色证实NPCs已成熟为胆碱能运动神经元。通过α-班加罗毒素对二氢吡啶受体、红嘌呤受体和乙酰胆碱受体进行染色,进一步表征NMJs突触后位点。结论:我们建立了一个体外研究的功能性人体运动单元平台。因此,这种共培养系统可以作为一个新的平台,用于1)治疗神经肌肉疾病的药物发现,2)解读NMJ形成、调节、维持和修复的重要特征,以及3)探索神经肌肉疾病、NMJ的年龄相关变性、肌肉老化以及糖尿病神经病变和肌病。
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
CiteScore
6.50
自引率
0.00%
发文量
10
审稿时长
16 weeks
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