A novel primary culture method for high-purity satellite glial cells derived from rat dorsal root ganglion

doi:10.4103/1673-5374.244797

Neural Regeneration Research ›› 2019, Vol. 14 ›› Issue (2): 339-345.doi: 10.4103/1673-5374.244797

A novel primary culture method for high-purity satellite glial cells derived from rat dorsal root ganglion

Xian-Bin Wang ¹, Wei Ma ^1, Tao Luo ^{1, 2} , Jin-Wei Yang ^{1, 3} , Xiang-Peng Wang¹ , Yun-Fei Dai ¹ , Jian-Hui Guo³ , Li-Yan Li ¹

1 Institute of Neuroscience, Kunming Medical University, Kunming, Yunnan Province, China
2 Medical Faculty, Panzhihua University, Panzhihua, Sichuan Province, China
3 Second Department of General Surgery, First People’s Hospital of Yunnan Province, Kunming, Yunnan Province, China

Online:2019-02-15 Published:2019-02-15
Contact: Li-Yan Li, MD, kmliyanl@163.com; Jian-Hui Guo, guojianhuikm@163.com.
Supported by:
This study was supported by the National Natural Science Foundation of China, No. 31560295; the Priority Union Foundation of Yunnan Department of Science and Technology and Kunming Medical University of China, No. 2015FB098; the Project of Major Scientific and Technological Achievements Cultivation of Kunming Medical University of China, No. CGPY201802; the Health Science and Technology Plan Projects of Yunnan Province of China, No. 2014NS202.

Abstract

Abstract:

Satellite glial cells surround neurons within dorsal root ganglia. Previous studies have focused on single-cell suspensions of cultured neurons derived from rat dorsal root ganglia. At present, the primary culture method for satellite glial cells derived from rat dorsal root ganglia requires no digestion skill. Hence, the aim of the present study was to establish a novel primary culture method for satellite glial cells derived from dorsal root ganglia. Neonatal rat spine was collected and an incision made to expose the transverse protrusion and remove dorsal root ganglia. Dorsal root ganglia were freed from nerve fibers, connective tissue, and capsule membranes, then rinsed and transferred to 6-well plates, and cultured in a humidified 5% CO2 incubator at 37°C. After 3 days in culture, some cells had migrated from dorsal root ganglia. After subculture, cells were identified by immunofluorescence labeling for three satellite glial cell-specific markers: glutamine synthetase, glial fibrillary acidic protein, and S100β. Cultured cells expressed glutamine synthetase, glial fibrillary acidic protein, and S100β, suggesting they are satellite glial cells with a purity of > 95%. Thus, we have successfully established a novel primary culture method for obtaining high-purity satellite glial cells from rat dorsal root ganglia without digestion.

Key words: nerve regeneration, cell culture, dorsal root ganglia, immunofluorescence identification, satellite glial cells, neural regeneration

Xian-Bin Wang, Wei Ma, Tao Luo,Jin-Wei Yang,Xiang-Peng Wang,Yun-Fei Dai,Jian-Hui Guo,Li-Yan Li. A novel primary culture method for high-purity satellite glial cells derived from rat dorsal root ganglion[J]. Neural Regeneration Research, 2019, 14(2): 339-345.

[1]	Sara Saffari, Tiam M. Saffari, Dietmar J. O. Ulrich, Steven E. R. Hovius, Alexander Y. Shin. The interaction of stem cells and vascularity in peripheral nerve regeneration [J]. Neural Regeneration Research, 2021, 16(8): 1510-1517.
[2]	Yong-Bin Gao, Zhi-Gang Liu, Guo-Dong Lin, Yang Guo, Lei Chen, Bo-Tao Huang, Yao-Bin Yin, Chen Yang, Li-Ying Sun, Yan-Bo Rong, Shanlin Chen. Safety and efficacy of a nerve matrix membrane as a collagen nerve wrapping: a randomized, single-blind, multicenter clinical trial [J]. Neural Regeneration Research, 2021, 16(8): 1652-1659.
[3]	Yuan Liu, Richard K. Lee. Cell transplantation to replace retinal ganglion cells faces challenges – the Switchboard Dilemma [J]. Neural Regeneration Research, 2021, 16(6): 1138-1141.
[4]	Joseph A. Shehadi, Steven M. Elzein, Paul Beery, M. Chance Spalding, Michelle Pershing. Combined administration of platelet rich plasma and autologous bone marrow aspirate concentrate for spinal cord injury: a descriptive case series [J]. Neural Regeneration Research, 2021, 16(2): 362-366.
[5]	Michele Fornaro, Alessia Giovannelli, Angelica Foggetti, Luisa Muratori, Stefano Geuna, Giorgia Novajra, Isabelle Perroteau . Role of neurotrophic factors in enhancing linear axonal growth of ganglionic sensory neurons in vitro [J]. Neural Regeneration Research, 2020, 15(9): 1732-1739.
[6]	Yanjun Xie , Kevin J. Schneider , Syed A. Ali , Norman D. Hogikyan , Eva L. Feldman , Michael J. Brenner. Current landscape in motoneuron regeneration and reconstruction for motor cranial nerve injuries [J]. Neural Regeneration Research, 2020, 15(9): 1639-1649.
[7]	Wu-Sheng Deng, Ke Ma, Bing Liang, Xiao-Yin Liu , Hui-You Xu , Jian Zhang , Heng-Yuan Shi , Hong-Tao Sun , Xu-Yi Chen , Sai Zhang. Collagen scaffold combined with human umbilical cord-mesenchymal stem cells transplantation for acute complete spinal cord injury [J]. Neural Regeneration Research, 2020, 15(9): 1686-1700.
[8]	Bo Li, Liang Chen , Yu-Dong Gu. Stability of motor endplates is greater in the biceps than in the interossei in a rat model of obstetric brachial plexus palsy [J]. Neural Regeneration Research, 2020, 15(9): 1678-1685.
[9]	Andrijana Lazić , Jelena Popović , Tatjana Paunesku , Gayle E. Woloschak , Milena Stevanović. Insights into platinum-induced peripheral neuropathy–current perspective [J]. Neural Regeneration Research, 2020, 15(9): 1623-1630.
[10]	Tiam M. Saffari, Meiwand Bedar, Caroline A. Hundepool , Allen T. Bishop , Alexander Y. Shin. The role of vascularization in nerve regeneration of nerve graf [J]. Neural Regeneration Research, 2020, 15(9): 1573-1579.
[11]	Yin-Ying Shen, Xiao-Kun Gu, Rui-Rui Zhang , Tian-Mei Qian , Shi-Ying Li , Sheng Yi . Biological characteristics of dynamic expression of nerve regeneration related growth factors in dorsal root ganglia after peripheral nerve injury [J]. Neural Regeneration Research, 2020, 15(8): 1502-1509.
[12]	Ya Zheng, Ye-Ran Mao, Ti-Fei Yuan , Dong-Sheng Xu , Li-Ming Cheng. Multimodal treatment for spinal cord injury: a sword of neuroregeneration upon neuromodulation [J]. Neural Regeneration Research, 2020, 15(8): 1437-1450.
[13]	Su Hwan Bae, Mi Ran Yoo, Ye Yeong Kim, In Kyung Hong, Mi Hee Kim , Seung Hak Lee , Dae Yul Kim. Brain-derived neurotrophic factor mediates macrophage migration inhibitory factor to protect neurons against oxygen-glucose deprivation [J]. Neural Regeneration Research, 2020, 15(8): 1483-1489.
[14]	Peter J.G. Cussell, Margarita Gomez Escalada, Nathaniel G.N. Milton, Andrew W.J. Paterson. The N-formyl peptide receptors: contemporary roles in neuronal function and dysfunction [J]. Neural Regeneration Research, 2020, 15(7): 1191-1198.
[15]	Feng-Jiao Li, Si-Ru Zheng, Dong-Mei Wang. Adrenomedullin: an important participant in neurological diseases [J]. Neural Regeneration Research, 2020, 15(7): 1199-1207.

A novel primary culture method for high-purity satellite glial cells derived from rat dorsal root ganglion

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments