Cui Ze-Kai, Li Shen-Yang, Liao Kai, Wang Zhi-Jie, Guo Yong-Long, Tang Luo-Sheng, Tang Shi-Bo, Ma Jacey Hongjie, Chen Jian-Su
Department of Ophthalmology, the Second Xiangya Hospital, Central South University; Aier Eye Institute; Aier School of Ophthalmology, Central South University, Changsha, Hunan Province, China.
Aier School of Ophthalmology, Central South University, Changsha, Hunan Province, China.
Neural Regen Res. 2021 Sep;16(9):1856-1864. doi: 10.4103/1673-5374.306097.
In vertebrates, most somatosensory pathways begin with the activation of dorsal root ganglion (DRG) neurons. The development of an appropriate DRG culture method is a prerequisite for establishing in vitro peripheral nerve disease models and for screening therapeutic drugs. In this study, we compared the changes in morphology, molecular biology, and transcriptomics of chicken embryo DRG cultured on tissue culture plates (T-DRG) versus three-dimensional collagen hydrogels (C-DRG). Our results showed that after 7 days of culture, the transcriptomics of T-DRG and C-DRG were quite different. The upregulated genes in C-DRG were mainly related to neurogenesis, axon guidance, and synaptic plasticity, whereas the downregulated genes in C-DRG were mainly related to cell proliferation and cell division. In addition, the genes related to cycles/pathways such as the synaptic vesicle cycle, cyclic adenosine monophosphate signaling pathway, and calcium signaling pathway were activated, while those related to cell-cycle pathways were downregulated. Furthermore, neurogenesis- and myelination-related genes were highly expressed in C-DRG, while epithelial-mesenchymal transition-, apoptosis-, and cell division-related genes were suppressed. Morphological results indicated that the numbers of branches, junctions, and end-point voxels per C-DRG were significantly greater than those per T-DRG. Furthermore, cells were scattered in T-DRG and more concentrated in C-DRG, with a higher ratio of 5-ethynyl-2'-deoxyuridine (EdU)-positive cells in T-DRG compared with C-DRG. C-DRG also had higher S100 calcium-binding protein B (S100B) and lower α-smooth muscle actin (α-SMA) expression than T-DRG, and contained fewer terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL)-positive cells after 48 hours of serum starvation. After cryopreservation, C-DRG maintained more intact morphological characteristics, and had higher viability and less TUNEL-positive cells than T-DRG. Furthermore, newly formed nerve bundles were able to grow along the existing Schwann cells in C-DRG. These results suggest that C-DRG may be a promising in vitro culture model, with better nerve growth and anti-apoptotic ability, quiescent Schwann cells, and higher viability. Results from this study provide a reference for the construction, storage, and transportation of tissue-engineered nerves. The study was approved by the Ethics Committee of Aier School of Ophthalmology, Central South University, China (approval No. 2020-IRB16), on March 15, 2020.
在脊椎动物中,大多数躯体感觉通路始于背根神经节(DRG)神经元的激活。开发合适的DRG培养方法是建立体外周围神经疾病模型和筛选治疗药物的前提条件。在本研究中,我们比较了在组织培养板(T-DRG)和三维胶原水凝胶(C-DRG)上培养的鸡胚DRG在形态学、分子生物学和转录组学方面的变化。我们的结果表明,培养7天后,T-DRG和C-DRG的转录组学差异很大。C-DRG中上调的基因主要与神经发生、轴突导向和突触可塑性有关,而C-DRG中下调的基因主要与细胞增殖和细胞分裂有关。此外,与突触小泡循环、环磷酸腺苷信号通路和钙信号通路等周期/途径相关的基因被激活,而与细胞周期途径相关的基因则被下调。此外,神经发生和髓鞘形成相关基因在C-DRG中高表达,而上皮-间充质转化、凋亡和细胞分裂相关基因受到抑制。形态学结果表明,每个C-DRG的分支、连接和端点体素数量明显多于每个T-DRG。此外,细胞在T-DRG中分散,在C-DRG中更集中,与C-DRG相比,T-DRG中5-乙炔基-2'-脱氧尿苷(EdU)阳性细胞的比例更高。C-DRG的S100钙结合蛋白B(S100B)表达也高于T-DRG,α-平滑肌肌动蛋白(α-SMA)表达低于T-DRG,血清饥饿48小时后,C-DRG中末端脱氧核苷酸转移酶dUTP缺口末端标记(TUNEL)阳性细胞较少。冷冻保存后,C-DRG保持了更完整的形态特征,活力更高,TUNEL阳性细胞比T-DRG少。此外,新形成的神经束能够沿着C-DRG中现有的雪旺细胞生长。这些结果表明,C-DRG可能是一种有前途的体外培养模型,具有更好的神经生长和抗凋亡能力、静止的雪旺细胞和更高的活力。本研究结果为组织工程神经的构建、储存和运输提供了参考。该研究于2020年3月15日获得中国中南大学爱尔眼科学院伦理委员会批准(批准号:2020-IRB16)。
