富含血小板血浆增强人牙髓干细胞的神经再生及大鼠脊髓的神经再生。

Platelet rich plasma enhanced neuro-regeneration of human dental pulp stem cells and in rat spinal cord.

作者信息

Hu Zi-Bing, Chen Hai-Cong, Wei Bo, Zhang Zhong-Min, Wu Shao-Ke, Sun Jie-Cong, Xiang Min

机构信息

Orthopedic Center, Affiliated Hospital of Guangdong Medical University, Zhanjiang, China.

Spinal Surgery, Nanfang Hospital of Southern Medical University, Guangzhou, China.

出版信息

Ann Transl Med. 2022 May;10(10):584. doi: 10.21037/atm-22-1745.

DOI:10.21037/atm-22-1745

PMID:35722381

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9201165/

Abstract

BACKGROUND

Human dental pulp stem cells (hDPSCs) exhibit excellent differentiation potential and are capable of differentiating into several different cellular phenotypes, including neurons. Platelet-rich plasma (PRP) contains numerous growth factors that can stimulate stem cell differentiation. In this study, we investigated the potential stimulatory effects of PRP on neurogenic differentiation and anti-apoptosis of hDPSCs in injured spinal cords.

METHODS

The unipotential differentiation capacity of hDPSCs was analyzed by cell surface antigen identification and cell cycle analysis. A spinal cord injury rat model composed of 40 Sprague-Dawley (SD) rats was used to facilitate an study. Rats were divided into four groups: a double-treatment group (receiving both neurogenic-induced hDPSCs and PRP), two single-treatment groups (receiving neurogenic-induced hDPSCs or PRP) and a sham group (receiving normal saline). The Basso, Beattie, Bresnahan Locomotor Rating Scale was subsequently used to evaluate the motor function of the spinal cord. Cell viability and differentiation of hDPSCs in the damaged spinal cords were analyzed and apoptosis of neural cells was evaluated using the terminal uridine nucleotide end labeling (TUNEL) assay.

RESULTS

Growth pattern, cell surface marker and cell cycle analyses revealed that hDPSCs have a high degree of multi-directional differentiation potential and can be induced into neurons . In the rat spinal cord injury model, double-treatment with hDPSC/PRP or single treatment with hDPSCs or PRP significantly improved motor function compared with the sham group (P<0.05). Apoptosis of neural cells was observed to be significantly higher in the sham group compared to any of the treatment groups. Double-treatment with hDPSCs and PRP resulted in the lowest apoptotic rate among the groups analyzed.

CONCLUSIONS

hDPSCs exhibit differentiation potential and are capable of transforming into neural cells both and . Significantly increased inhibition of neuronal apoptosis and improved motor function recovery of the spinal cord were observed following double-treatment with hDPSCs and PRP compared with the single-treatment groups.

摘要

背景

人牙髓干细胞（hDPSCs）具有出色的分化潜能，能够分化为几种不同的细胞表型，包括神经元。富血小板血浆（PRP）含有多种可刺激干细胞分化的生长因子。在本研究中，我们调查了PRP对损伤脊髓中hDPSCs神经源性分化和抗凋亡的潜在刺激作用。

方法

通过细胞表面抗原鉴定和细胞周期分析来分析hDPSCs的单能分化能力。使用由40只Sprague-Dawley（SD）大鼠组成的脊髓损伤大鼠模型来进行研究。大鼠被分为四组：双治疗组（接受神经源性诱导的hDPSCs和PRP）、两个单治疗组（接受神经源性诱导的hDPSCs或PRP）和假手术组（接受生理盐水）。随后使用Basso、Beattie、Bresnahan运动评分量表来评估脊髓的运动功能。分析损伤脊髓中hDPSCs的细胞活力和分化情况，并使用末端脱氧核苷酸转移酶介导的缺口末端标记（TUNEL）法评估神经细胞的凋亡情况。

结果

生长模式、细胞表面标志物和细胞周期分析表明，hDPSCs具有高度的多向分化潜能，可被诱导为神经元。在大鼠脊髓损伤模型中，与假手术组相比，hDPSC/PRP双治疗或hDPSCs或PRP单治疗均显著改善了运动功能（P<0.05）。观察到假手术组神经细胞的凋亡明显高于任何治疗组。hDPSCs和PRP双治疗导致所分析组中的凋亡率最低。

结论

hDPSCs具有分化潜能，能够在体内和体外转化为神经细胞。与单治疗组相比，hDPSCs和PRP双治疗后观察到神经元凋亡的抑制显著增加，脊髓运动功能恢复得到改善。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3db9/9201165/19c9e91d6fae/atm-10-10-584-f1.jpg

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富含血小板血浆增强人牙髓干细胞的神经再生及大鼠脊髓的神经再生。

Platelet rich plasma enhanced neuro-regeneration of human dental pulp stem cells and in rat spinal cord.

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