1.Expression of Semaphorin 3A after spinal cord injury.
Guo-Yu WANG ; Zhi-Jian CHENG ; Xi-Jing HE ; Bao-Hui YANG ; Hao-Peng LI
China Journal of Orthopaedics and Traumatology 2021;34(4):368-372
OBJECTIVE:
To investigate expression of Semaphorin 3A in rats after spinal cord injury and explore possible mechanism of inhibiting of axonal regeneration after SCI.
METHODS:
Forty healthy female SD rats, 8 weeks old, weighing (210.00±9.88) g, were randomly divided into control group(20 rats in group A) and model group(20 rats in group B). In control group, removal of T
RESULTS:
After a simple spinal cord transection injury, hemorrhagic necrosis, localized edema, neurodegeneration, necrosis, and cyst formation occurred in the injured area, and glial scar formation occurred in glial cells. Semaphorin 3A expression levels in control group was low in the gray matter area. There was no expression of Semaphorin 3A in the injured area of spinal cord injury in model group 3 days after operation. On the 14th day, the expression of Semaphorin 3A in the injured area of spinal cord injury increased significantly and was at a high level. On the 28th day, the expression of Semaphorin 3A was moderate. On the 42th day, the positive expression of Semaphorin 3A returned to normal level.
CONCLUSION
The increased expression of Semaphorin 3A after spinal cord injury may be one of the mechanisms that inhibit axonal regeneration.
Animals
;
Female
;
Rats
;
Rats, Sprague-Dawley
;
Semaphorin-3A/genetics*
;
Spinal Cord
;
Spinal Cord Injuries/genetics*
2.Influence of electroacupuncture on the expression of AMPA receptor subunit GluR1 in the spinal injured area of the rats with acute spinal cord injury.
Wen-Ci CHEN ; Chu-Yong LIN ; Jing JI ; Wen-Zhan TU ; Song-He JIANG
Chinese Acupuncture & Moxibustion 2021;41(3):307-312
OBJECTIVE:
To explore the influence of electroacupuncture (EA) on the expression of AMPA receptor subunit GluR1 in the rats with acute spinal cord injury (SCI) and explore the potential effect mechanism of EA in treatment of acute SCI.
METHODS:
A total of 80 SD rats were randomly divided into five groups, i.e. a sham-operation group, a model group, an AMPA antagonist (DNQX) group, an EA group and a DNQX+EA group, 16 rats in each group. The modified Allen's impacting method was adopted to prepare the rat model of acute SCI at T
RESULTS:
Compared to the sham-operation group in 6 h, 24 h and 48 h after modeling, the BBB scores were all significantly decreased in the model group (
CONCLUSION
The intervention with EA at "Dazhui" and "Mingmen" promotes the repair of the injured nerve in the spinal anterior horn probably through inhibiting GluR1 expression in the spinal injured area in the rats with acute SCI.
Animals
;
Electroacupuncture
;
Rats
;
Rats, Sprague-Dawley
;
Receptors, AMPA/genetics*
;
Spinal Cord
;
Spinal Cord Injuries/therapy*
4.Research progress of Notch signaling pathway in spinal cord injury.
Jing LI ; Jia-Xi LI ; Xi-Jing HE ; Hua-You CHEN ; Hang ZHAO
China Journal of Orthopaedics and Traumatology 2022;35(2):194-198
Spinal cord injury is a severe central nervous system disease, which will cause a series of complex pathophysiological changes and activate a variety of signaling pathways including Notch signaling. Studies have evidenced that activation of the Notch signaling pathway is not conducive to nerve repair and symptom improvement after spinal cord injury. Its mechanisms include inhibiting neuronal differentiation and axon regeneration, promoting reactive astrocyte proliferation, promoting M1 macrophage polarization and the release of proinflammatory factors, and inhibiting angiogenesis. Therefore, it has become a promising therapeutic strategy to inhibit Notch signal as a target in the treatment of spinal cord injury. In recent years, some researchers have used drugs, cell transplantation or genetic modification to regulate Notch signaling, which can promote the recovery of nerve function after spinal cord injury, thereby providing new treatment strategies for the treatment of spinal cord injury. This article will summarize the mechanism of Notch signaling pathway in spinal cord injury, and at the same time review the research progress in the treatment of spinal cord injury by modulating Notch signaling pathway in recent years, so as to provide new research ideas for further exploring new strategies for spinal cord injury.
Axons/metabolism*
;
Cell Transplantation
;
Humans
;
Nerve Regeneration
;
Signal Transduction/genetics*
;
Spinal Cord/metabolism*
;
Spinal Cord Injuries/metabolism*
5.Current situation and progression in the treatment of spinal cord injury.
Sheng-hua LI ; Ping-de GUO ; Wen-jing WANG
China Journal of Orthopaedics and Traumatology 2010;23(1):70-73
Spinal cord injuries include original injury and secondary injury. The aim of therapy is to prevent and reduce the secondary injury. The traditional therapy can alleviate the secondary injury of spinal cord through surgery that can both relieve the pressure of spinal cord and maintain the spinal stability with the internal fixation, medicine and hyperbaric oxygen therapy were applied together. But, the effect of neuroprotection and neurotization of traditional therapy is worse and the most of all is the environment in the spinal cord injury that make against the repairing. At present, the treatment of spinal cord injury with cell transplantation and gene therapy have made achievements in the animal experiment and have been simply tested in clinical. Cell transplantation and gene therapy have a great clinical utilization.
Cell Transplantation
;
Genetic Therapy
;
Humans
;
Oxygen
;
therapeutic use
;
Spinal Cord Injuries
;
drug therapy
;
genetics
;
surgery
;
therapy
6.Neuroprotective effect of tetramethylpyrazine on mice after spinal cord injury.
Shu-Jun LI ; Guo-Dong QI ; Wei QI ; Zhu-Xin YANG ; Zhi-Juan YU ; Qiong JIANG
China Journal of Chinese Materia Medica 2023;48(14):3848-3854
This study aims to investigate the neuroprotective effect of tetramethylpyrazine on mice after spinal cord injury and its mechanism. Seventy-five female C57BL/6 mice were randomly divided into 5 groups, namely, a sham operation group, a model group, a tetramethylpyrazine low-dose group(25 mg·kg~(-1)), a tetramethylpyrazine medium-dose group(50 mg·kg~(-1)), and a tetramethylpyrazine high-dose group(100 mg·kg~(-1)), with 15 mice in each group. Modified Rivlin method was used to establish the mouse model of acute spinal cord injury. After 14 d of tetramethylpyrazine intervention, the motor function of hind limbs of mice was evaluated by basso mouse scale(BMS) and inclined plate test. The levels of inflammatory cytokines tumor necrosis factor-α(TNF-α), interleukin-6(IL-6), and interleukin-1β(IL-1β) in the spinal cord homogenate were determined by enzyme-linked immunosorbent assay(ELISA). Hematoxylin-eosin(HE) staining was used to observe the histology of the spinal cord, and Nissl's staining was used to observe the changes in the number of neurons. Western blot and immunofluorescence method were used to detect the expression of glial fibrillary acidic protein(GFAP) and C3 protein. Tetramethylpyrazine significantly improved the motor function of the hind limbs of mice after spinal cord injury, and the BMS score and inclined plate test score of the tetramethylpyrazine high-dose group were significantly higher than those of the model group(P<0.01). The levels of TNF-α, IL-6, and IL-1β in spinal cord homogenate of the tetramethylpyrazine high-dose group were significantly decreased(P<0.01). After tetramethylpyrazine treatment, the spinal cord morphology recovered, the number of Nissl bodies increased obviously with regular shape, and the loss of neurons decreased. As compared with the model group, the expression of GFAP and C3 protein was significantly decreased(P<0.05,P<0.01) in tetramethylpyrazine high-dose group. In conclusion, tetramethylpyrazine can promote the improvement of motor function and play a neuroprotective role in mice after spinal cord injury, and its mechanism may be related to inhibiting inflammatory response and improving the hyperplasia of glial scar.
Rats
;
Mice
;
Female
;
Animals
;
Rats, Sprague-Dawley
;
Neuroprotective Agents/pharmacology*
;
Tumor Necrosis Factor-alpha/metabolism*
;
Interleukin-6
;
Mice, Inbred C57BL
;
Spinal Cord Injuries/genetics*
;
Spinal Cord/metabolism*
7.Effect of moxibustion at "oppositely-located points" on neurogenic bladder after spinal cord injury and endoplasmic reticulum stress pathway in rats.
Wei WEI ; Zhi-Xin YANG ; Tian-Yu WANG ; Tao-Tao CUI ; Jian-Shuang CHEN ; Chao ZHANG ; Na LI ; Li-Qun REN
Chinese Acupuncture & Moxibustion 2022;42(4):413-418
OBJECTIVE:
To observe the effect of moxibustion at oppositely-located points "Mingmen" (GV 4) and "Shenque" (CV 8) on the motor function of the hind limbs and bladder function in rats with neurogenic bladder after suprasacral spinal cord injury (SCI), so as to explore the effect of this therapy on bladder tissue apoptosis mediated by endoplasmic reticulum stress pathway.
METHODS:
Twenty-eight female Wistar rats were randomly divided into a sham-operation group (8 rats) and a model establishment group (20 rats). Using the modified Allen's method, the spinal cord of T10 segment was injured to establish a neurogenic bladder model in the model establishment group. Sixteen rats were modeled successfully and then divided into a model group (8 rats) and a moxibustion group (8 rats). In the moxibustion group, 2 h after consciousness regaining from modeling anesthesia, moxibustion was exerted at "Shenque" (CV 8) and "Mingmen" (GV 4), 2 cones at each acupoint in one intervention. The intervention was administered once every two days and 5-time intervention was required totally. After intervention, Basso, Beattie and Bresnahan locomotor rating scale (BBB) score for the motor function of the hind limbs, and the urodynamics indexes (maximum bladder capacity, urine leakage pressure and bladder compliance) were compared among groups. HE staining method was adopted to observe the morphological changes of bladder tissue. With Western blot method and real-time PCR assay, the protein and mRNA expressions of the endoplasmic reticulum stress-related genes (glucose- regulated protein 78 [GRP78], activating transcription factor 4 [ATF4] and cysteinyl aspartate specific proteinase-12 [Caspase-12]) were determined.
RESULTS:
The transitional epithelial cells were arranged irregularly, the bladder wall was getting thinner, and the cellular vacuolar degeneration and neutrophil infiltration were found in the model group. Whereas, compared with the model group, in the moxibustion group, the arrangement of transitional epithelial cells was clear and continuous in layers, the cellular vacuolar degeneration was mild and the infiltration presented in a small amount of neutrophil granulocytes. Compared with the sham-operation group, in the model group, the BBB score was reduced (P<0.01), the maximum bladder capacity and bladder compliance were increased (P<0.01), and the protein expression levels of GRP78, ATF4 and Caspase-12, as well as mRNA expressions were all increased (P<0.01). In comparison with the model group, in the moxibustion group, BBB score was increased (P<0.01), the maximum bladder capacity and bladder compliance were decreased (P<0.01), and the protein and mRNA expression levels of GRP78, ATF4 and Caspase-12 were all decreased (P<0.01).
CONCLUSION
Moxibustion at the "oppositely-located points" improves the urination function, alleviate urine retention in neurogenic bladder rats after spinal cord injury. The underlying mechanism may be related to the down-regulation of the expressions of GRP78, ATF4 and Caspase-12 in the endoplasmic reticulum stress pathway of the bladder tissues, and thus to alleviate the apoptosis of bladder tissue.
Animals
;
Caspase 12/genetics*
;
Electroacupuncture
;
Endoplasmic Reticulum Stress
;
Female
;
Moxibustion
;
RNA, Messenger
;
Rats
;
Rats, Sprague-Dawley
;
Rats, Wistar
;
Spinal Cord
;
Spinal Cord Injuries/therapy*
;
Urinary Bladder, Neurogenic/therapy*
8.Immunohistochemical study on the expression of caspase, bax, bcl-2 and c-kit after SCI in Bufo bufogargarizan.
Ping LI ; Yu ZHANG ; Ya-Fei CAI ; Yan WANG
Chinese Journal of Applied Physiology 2011;27(4):399-401
Animals
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Bufo bufo
;
Caspase 3
;
genetics
;
metabolism
;
Female
;
Immunohistochemistry
;
Male
;
Proto-Oncogene Proteins c-bcl-2
;
genetics
;
metabolism
;
Proto-Oncogene Proteins c-kit
;
genetics
;
metabolism
;
Spinal Cord
;
metabolism
;
Spinal Cord Injuries
;
metabolism
;
bcl-2-Associated X Protein
;
genetics
;
metabolism
9.cDNA microarray analysis of spinal cord injury and regeneration related genes in rat.
Lin XIAO ; Zhen-Lian MA ; Xin LI ; Qiu-Xia LIN ; Hai-Ping QUE ; Shao-Jun LIU
Acta Physiologica Sinica 2005;57(6):705-713
The acute traumatic spinal cord injury (SCI) is a commonly seen and severe case in clinic. However, the repair and regeneration of injured spinal cord is limited. This is likely due to that different kinds of factors are involved in regeneration after SCI. In the present study, we used complementary DNA microarray consisting of 4 041 specific probes from rat to identify genes that were differentially expressed after SCI. The animals were subjected to complete transection injury of the thoracic spinal cord (T8-T9). Sham operated animals received only a laminectomy. Four and a half days later, rat spinal cord was dissected out for total RNA isolation. The fluorescent (Cy3 and Cy5) labeled probes were prepared and hybridized to the microarray. Genes that showed 2-fold difference in SCI tissue were identified. Sixty-five up-regulated genes consisted of 21 known genes, 30 known expressed sequence tags (ESTs) and 14 unknown genes. Seventy-nine down-regulated genes comprised 20 known genes, 42 known ESTs and 17 unknown genes. In 41 differentially expressed known genes, 5 up-regulated genes, i.e., tissue inhibitor of metalloproteinase 1 (Timp1), transgelin (Tagln), vimentin (Vim), Fc gamma receptor, cathepsin S (Ctss), and 3 down-regulated genes, i.e., stearyl-CoA desaturase, coagulation factor II (F2), endosulfin alpha (Ensa), were further confirmed by reverse transcription polymerase chain reaction (RT-PCR). These genes may play a role in the response to tissue damage or repair following SCI and characterization of them might be helpful to elucidate the molecular mechanisms of spinal cord injury and regeneration.
Animals
;
Expressed Sequence Tags
;
Gene Expression Profiling
;
Gene Expression Regulation
;
Male
;
Nerve Tissue Proteins
;
genetics
;
Oligonucleotide Array Sequence Analysis
;
Random Allocation
;
Rats
;
Rats, Wistar
;
Reverse Transcriptase Polymerase Chain Reaction
;
Spinal Cord Injuries
;
genetics
;
physiopathology
;
Spinal Cord Regeneration
;
genetics
10.Inhibition of Nogo expression to promote repair after spinal cord injury.
Hong-hui SUN ; Feng GAO ; Bin LIU ; Hai-tao YU ; Ning KONG ; Guo-min LIU
Chinese Medical Journal 2012;125(22):4044-4048
BACKGROUNDOne of the reasons for poor neuroregeneration after central nervous system injury is the presence of inhibitory factors such as Nogo. Here, we tested the inhibition of Nogo by RNA interference both in vitro and in vivo, using recombinant adenovirus-mediated transfection of short hairpin RNAs, to explore a new method of treatment for spinal cord injury.
METHODSWe designed and cloned two Nogo-specific short hairpin RNAs and an unrelated short hairpin RNA, packaged the clones into adenovirus, and amplified the recombinant virus in 293 cells. We then tested the inhibition of Nogo expression both in vitro in adenovirus-transfected oligodendrocytes and in vivo in spinal cord tissue from adenovirus-transfected spinal cord injury model rats. We tested Nogo expression at the mRNA level by reverse-transcription PCR and at the protein level by Western blotting and immunohistochemistry.
RESULTSIn vitro, the two specific Nogo short hairpin RNAs decreased Nogo mRNA expression by 51% and 49%, respectively, compared with Nogo expression in cells transfected with the unrelated control small hairpin RNA (P < 0.005). Similarly, Nogo protein expression decreased by 50% and 48%, respectively (P < 0.005). In vivo, in spinal cord injury model rats, the two specific Nogo short hairpin RNAs decreased Nogo mRNA expression by 45% and 40%, respectively, compared with Nogo expression in spinal cord injury model rats transfected with the unrelated control short hairpin RNA (P < 0.005). The Nogo protein level was similarly decreased.
CONCLUSIONSWe were successful in specifically downregulating Nogo at the mRNA and protein levels by adenovirus-mediated delivery of short hairpin RNAs, both in vitro and in vivo. This confirms the effectiveness of RNA interference for the inhibition of Nogo gene expression and the efficiency of using adenovirus for delivery. Thus gene therapy may be an effective treatment for spinal cord injury.
Adenoviridae ; genetics ; Animals ; Blotting, Western ; Humans ; Immunohistochemistry ; Myelin Proteins ; genetics ; metabolism ; Nogo Proteins ; RNA Interference ; RNA, Small Interfering ; genetics ; Rats ; Rats, Sprague-Dawley ; Spinal Cord Injuries ; therapy