局部纯化外泌体产物、干细胞和他克莫司对神经突生长的影响。
The Effect of Local Purified Exosome Product, Stem Cells, and Tacrolimus on Neurite Extension.
机构信息
Division of Hand and Microvascular Surgery, Department of Orthopedic Surgery, Mayo Clinic, Rochester, MN; Radboud University Medical Center, Radboud Institute for Health Sciences, Department of Plastic Surgery, Nijmegen, The Netherlands.
Division of Hand and Microvascular Surgery, Department of Orthopedic Surgery, Mayo Clinic, Rochester, MN.
出版信息
J Hand Surg Am. 2024 Mar;49(3):237-246. doi: 10.1016/j.jhsa.2023.11.023. Epub 2024 Jan 1.
PURPOSE
The combination of cellular and noncellular treatments has been postulated to improve nerve regeneration through a processed nerve allograft. This study aimed to evaluate the isolated effect of treatment with purified exosome product (PEP), mesenchymal stem cells (MSCs), and tacrolimus (FK506) alone and in combination when applied in decellularized allografts.
METHODS
A three-dimensional in vitro-compartmented cell culture system was used to evaluate the length of regenerating neurites from the neonatal dorsal root ganglion into the adjacent peripheral nerve graft. Decellularized nerve allografts were treated with undifferentiated MSCs, 5% PEP, 100 ng/mL FK506, PEP and FK506 combined, or MSCs and FK506 combined (N = 9/group) and compared with untreated nerve autografts (positive control) and nerve allografts (negative control). Neurite extension was measured to quantify nerve regeneration after 48 hours, and stem cell viability was evaluated.
RESULTS
Stem cell viability was confirmed in all MSC-treated nerve grafts. Treatments with PEP, PEP + FK506, and MSCs + FK506 combined were found to be superior to untreated allografts and not significantly different from autografts. Combined PEP and FK506 treatment resulted in the greatest neurite extension. Treatment with FK506 and MSCs was significantly superior to MSC alone. The combined treatment groups were not found to be statistically different.
CONCLUSIONS
Although all treatments improved neurite outgrowth, treatments with PEP, PEP + FK506, and MSCs + FK506 combined had superior neurite growth compared with untreated allografts and were not found to be significantly different from autografts, the current gold standard.
CLINICAL RELEVANCE
Purified exosome product, a cell-free exosome product, is a promising adjunct to enhance nerve allograft regeneration, with possible future avenues for clinical translation.
目的
通过加工过的神经同种异体移植物,细胞和非细胞治疗的联合已被假设可以改善神经再生。本研究旨在评估单独使用纯化外泌体产物(PEP)、间充质干细胞(MSCs)和他克莫司(FK506)以及联合应用于去细胞同种异体移植物时的治疗效果。
方法
使用三维体外分隔细胞培养系统评估从新生背根神经节到相邻周围神经移植物的再生轴突的长度。去细胞化的神经同种异体移植物用未分化的 MSC、5%PEP、100ng/mL FK506、PEP 和 FK506 联合、或 MSC 和 FK506 联合处理(每组 N=9),并与未处理的神经自体移植物(阳性对照)和神经同种异体移植物(阴性对照)进行比较。在 48 小时后测量轴突延伸以量化神经再生,并评估干细胞活力。
结果
在所有 MSC 处理的神经移植物中均证实了干细胞活力。PEP、PEP+FK506 和 MSC+FK506 联合治疗的效果优于未处理的同种异体移植物,与自体移植物无显著差异。联合 PEP 和 FK506 治疗导致最大的轴突延伸。FK506 和 MSC 联合治疗明显优于单独 MSC 治疗。联合治疗组之间未发现统计学差异。
结论
尽管所有治疗均改善了轴突生长,但与未处理的同种异体移植物相比,PEP、PEP+FK506 和 MSC+FK506 联合治疗具有更好的轴突生长效果,且与自体移植物(当前的金标准)无显著差异。
临床相关性
纯化的外泌体产物,一种无细胞的外泌体产物,是增强神经同种异体移植物再生的有前途的辅助手段,可能有未来的临床转化途径。
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