静脉注射人 Muse 细胞与改善脊髓损伤大鼠模型缺损的关联。

Association of intravenous administration of human Muse cells with deficit amelioration in a rat model of spinal cord injury.

机构信息

1Department of Neurosurgery, Tohoku University Graduate School of Medicine.

2Department of Neurosurgery, Sendai Medical Center.

出版信息

J Neurosurg Spine. 2021 Jan 1;34(4):648-655. doi: 10.3171/2020.7.SPINE20293. Print 2021 Apr 1.

DOI:10.3171/2020.7.SPINE20293

PMID:33385996

Abstract

OBJECTIVE

Multilineage-differentiating stress-enduring (Muse) cells are pluripotent stem cells, which can be harvested from the bone marrow. After transplantation, Muse cells can migrate to an injured site of the body and exert repair effects. However, it remains unknown whether Muse cell transplantation can be an effective treatment in spinal cord injury (SCI).

METHODS

The authors used a rat model of thoracic spinal cord contusion injury. For Muse cell transplantation, the clinical product CL2020 containing 300,000 Muse cells was administered intravenously 1 day after midthoracic SCI. Animals were divided into CL2020 (n = 11) and vehicle-treated (n = 15) groups. Behavioral and histological evaluations were conducted over a period of 8 weeks to see whether intravenous CL2020 administration provided therapeutic effects for SCI. The effects of human-selective diphtheria toxin on reversion of the therapeutic effects of CL2020 were also investigated.

RESULTS

Hindlimb motor function significantly improved after CL2020 transplantations. Importantly, the effects were reverted by the human-selective diphtheria toxin. In immunohistochemical analyses, the cystic cavity formed after the injury was smaller in the CL2020 group. Furthermore, higher numbers of descending 5-hydroxytryptamine (5-HT) fibers were preserved distal to the injury site after CL2020 administration. Eight weeks after the injury, Muse cells in CL2020 were confirmed to differentiate most predominantly into neuronal cells in the injured spinal cord.

CONCLUSIONS

Following SCI, Muse cells in CL2020 can reach the injured spinal cord after intravenous administration and differentiate into neuronal cells. Muse cells in CL2020 facilitated nerve fiber preservation and exerted therapeutic potential for severe SCI.

摘要

目的

多谱系分化应激耐受（Muse）细胞是多能干细胞，可从骨髓中提取。移植后，Muse 细胞可迁移到身体受伤部位并发挥修复作用。然而，Muse 细胞移植是否能成为脊髓损伤（SCI）的有效治疗方法尚不清楚。

方法

作者使用大鼠胸段脊髓挫伤损伤模型。在 Muse 细胞移植中，在胸段 SCI 后第 1 天静脉内给予含有 300,000 个 Muse 细胞的临床产品 CL2020。动物分为 CL2020（n = 11）和载体处理（n = 15）组。在 8 周的时间内进行行为和组织学评估，以观察静脉内 CL2020 给药是否为 SCI 提供治疗效果。还研究了人选择性白喉毒素对 CL2020 治疗效果逆转的影响。

结果

CL2020 移植后后肢运动功能明显改善。重要的是，这些效果被人选择性白喉毒素逆转。在免疫组织化学分析中，损伤后形成的囊腔在 CL2020 组中较小。此外，在 CL2020 给药后，损伤部位远端保留的下行 5-羟色胺（5-HT）纤维数量更多。损伤后 8 周，在 CL2020 中 Muse 细胞被证实主要分化为损伤脊髓中的神经元细胞。

结论

SCI 后，CL2020 中的 Muse 细胞可通过静脉给药到达受伤的脊髓，并分化为神经元细胞。CL2020 中的 Muse 细胞促进神经纤维的保留，并对严重 SCI 发挥治疗潜力。

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静脉注射人 Muse 细胞与改善脊髓损伤大鼠模型缺损的关联。

Association of intravenous administration of human Muse cells with deficit amelioration in a rat model of spinal cord injury.

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出版信息

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METHODS

RESULTS

CONCLUSIONS

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方法

结果

结论

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