Dried Rehmannia root protects against glutamateinduced cytotoxity to PC12 cells through energy metabolism-related pathways

doi:10.4103/1673-5374.213556

Neural Regeneration Research ›› 2017, Vol. 12 ›› Issue (8): 1338-1346.doi: 10.4103/1673-5374.213556

Dried Rehmannia root protects against glutamateinduced cytotoxity to PC12 cells through energy metabolism-related pathways

Yong Liu^{1, 2}, Lei Liu¹, Xi-xiang Ying³, Wen-juan Wei¹, Chao Han¹, Yang Liu¹, Chun-hui Han^{1, 4}, Ai-jing Leng⁴, Jing-yun Ma¹, Jing Liu¹

1 Regenerative Medicine Center, the First Affiliated Hospital of Dalian Medical University, Dalian, Liaoning Province, China;
2 Department of Traditional Chinese Medicine, the First Affiliated Hospital of Dalian Medical University, Dalian, Liaoning Province, China;
3 Liaoning University of Traditional Chinese Medicine, Shenyang, Liaoning Province, China;
4 Traditional Chinese Medicine Pharmacy, the First Affiliated Hospital of Dalian Medical University, Dalian, Liaoning Province, China

Received:2017-07-22 Online:2017-08-15 Published:2017-08-15
Contact: Jing Liu, Ph.D.,liujing.dlrmc@hotmail.com.
Supported by:
This work was supported by the National Natural Science Foundation of China, No. 81471308, 81271412; the Natural Science Foundation of Liaoning Province of China, No. 2014023052; and the Dalian Science and Technology Project Foundation of China, No. 2015SF11GH094.

Abstract

Abstract:

Rehmannia has been shown to be clinically effective in treating neurodegenerative diseases; however, the neuroprotective mechanisms remain unclear. In this study, we established a model of neurodegenerative disease using PC12 cytotoxic injury induced by glutamate. The cells were treated with 20 mM glutamate in the absence or presence of water extracts of dried Rehmannia root of varying concentrations (70%, 50% and 30%). The different concentrations of Rehmannia water extract significantly increased the activity of glutamate-injured cells, reduced the release of lactate dehydrogenase, inhibited apoptosis, increased the concentrations of NADH, NAD and ATP in cells, ameliorated mitochondrial membrane potential, and reduced the levels of light chain 3. Taken together, our findings demonstrate that Rehmannia water extracts exert a cytoprotective effect against glutamate-induced PC12 cell injury via energy metabolism-related pathways.

Key words: nerve regeneration, Rehmannia water extracts, glutamate, PC12 cells, autophagy, energy metabolism, neural regeneration

Yong Liu, Lei Liu, Xi-xiang Ying, Wen-juan Wei, Chao Han, Yang Liu, Chun-hui Han, Ai-jing Leng, Jing-yun Ma, Jing Liu. Dried Rehmannia root protects against glutamateinduced cytotoxity to PC12 cells through energy metabolism-related pathways[J]. Neural Regeneration Research, 2017, 12(8): 1338-1346.

[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]	Zi-Qi Shao, Shan-Shan Dou, Jun-Ge Zhu, Hui-Qing Wang, Chun-Mei Wang, Bao-Hua Cheng, Bo Bai. Apelin-13 inhibits apoptosis and excessive autophagy in cerebral ischemia/reperfusion injury [J]. Neural Regeneration Research, 2021, 16(6): 1044-1051.
[4]	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.
[5]	Yi-Hao Deng, Ling-Ling Dong, Yong-Jie Zhang, Xiao-Ming Zhao, Hong-Yun He. Enriched environment boosts the post-stroke recovery of neurological function by promoting autophagy [J]. Neural Regeneration Research, 2021, 16(5): 813-819.
[6]	Lu-Xia Ye, Ning-Chen An, Peng Huang, Duo-Hui Li, Zhi-Long Zheng, Hao Ji, Hao Li, Da-Qing Chen, Yan-Qing Wu, Jian Xiao, Ke Xu, Xiao-Kun Li, Hong-Yu Zhang. Exogenous platelet-derived growth factor improves neurovascular unit recovery after spinal cord injury [J]. Neural Regeneration Research, 2021, 16(4): 757-763.
[7]	Kenneth Maiese. Targeting the core of neurodegeneration: FoxO, mTOR, and SIRT1 [J]. Neural Regeneration Research, 2021, 16(3): 448-455.
[8]	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.
[9]	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.
[10]	Mei Li, Wen-Wei Gao, Lian Liu , Yue Gao , Ya-Feng Wang , Bo Zhao , Xiao-Xing Xiong. The Akt/glycogen synthase kinase-3β pathway participates in the neuroprotective effect of interleukin-4 against cerebral ischemia/reperfusion injury [J]. Neural Regeneration Research, 2020, 15(9): 1716-1723.
[11]	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.
[12]	Swapan K. Ray. Modulation of autophagy for neuroprotection and functional recovery in traumatic spinal cord injury [J]. Neural Regeneration Research, 2020, 15(9): 1601-1612.
[13]	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.
[14]	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.
[15]	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.

Dried Rehmannia root protects against glutamateinduced cytotoxity to PC12 cells through energy metabolism-related pathways

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments