OBJECTIVE: To investigate the protective effect of tumor necrosis factor-alpha(TNF-alpha) on spinal motor neurons after peripheral nerve injury. METHODS: Twenty Wistar rats were divided into two groups, the right sciatic nerves of 20 Wistar rats were transected, the proximal stumps were inserted into a single blind silicone tube. 16 microliters of normal saline(NS) and TNF-alpha(30 U/ml) were injected into the silicone tubes. After 2 weeks, the 4th, 5th lumbar spinal cord were taken for examination. Enzyme histochemical technique and image analysis were used to show acetylcholinesterase(AChE) and nitric oxide synthase(NOS) activity of spinal motor neurons. RESULTS: The number of AChE and NOS staining neurons were 8.65 +/- 1.98 and 5.92 +/- 1.36 in the experimental group and 6.37 +/- 1.42 and 8.67 +/- 1.45 in the control group respectively, there were significant difference between the two groups(P lt; 0.01). CONCLUSION: It suggests that TNF-alpha has protective effect on motor neurons after peripheral nerve injury.
OBJECTIVE To study the protective effects of Schwann cell derived neurotrophic factor (SDNF) on motoneurons of spinal anterior horn from spinal root avulsion induced cell death. METHODS Twenty SD rats were made the animal model of C6.7 spinal root avulsion induced motoneuron degeneration, and SDNF was applied at the lesion site of spinal cord once a week. After three weeks, the C6.7 spinal region was dissected out for motoneuron count, morphological analysis and nitric oxide synthase (NOS) enzyme histochemistry. RESULTS 68.6% motoneurons of spinal anterior horn death were occurred after 3 weeks following surgery, the size of survivors was significantly atrophy and NOS positive neurons increased. However, in animals which received SDNF treatment, the death of motoneurons was significantly decreased, the atrophy of surviving motoneurons was prevented, and expression of NOS was inhibited. CONCLUSION SDNF can prevent the death of motoneurons following spinal root avulsion. Nitric oxide may play a role in these injury induced motoneuron death.
OBJECTIVE Following the delayed repair of peripheral nerve injury, the cell number of anterior horn of the spinal cord and its ultrastructural changes, motorneuron and its electrophysiological changes were investigated. METHODS In 16 rabbits the common peroneal nerves of both sides being transected one year later were divided into four groups randomly: the degeneration group and regeneration of 1, 3 and 5 months groups. Another 4 rabbits were used for control. All transected common peroneal nerves underwent epineural suture except for the degeneration group the electrophysiological examination was carried out at 1, 3 and 5 months postoperatively. Retrograde labelling of the anterior horn cells was demonstrated and the cells were observed under light and electronmicroscope. RESULTS 1. The number of labelled anterior horn cell in the spinal cord was 45% of the normal population after denervation for one year (P lt; 0.01). The number of labelled cells increased steadily from 48% to 57% and 68% of normal values at 1, 3 and 5 months following delayed nerve repair (P lt; 0.01). 2. The ultrastructure of the anterior horn cells of the recover gradually after repair. 3. With the progress of regeneration the latency become shortened, the conduction velocity was increased, the amplitude of action potential was increased. CONCLUSION Following delayed repair of injury of peripheral nerve, the morphology of anterior horn cells of spinal cord and electrophysiological display all revealed evidence of regeneration, thus the late repair of injury of peripheral nerve was valid.
Objective To review research progress of the relation between glial cell line-derived neurotropic factor (GDNF) and motoneuron development and motoneuron disease. Methods The recent articles on GDNF and motonerons were extensively reviewed. The molecular structure, the mode of action and the route of administration of GDNF were investigated. Results GDNF plays extensive roles in the development anddisease of motoneuron. GDNF might regulate the development of the motonerons of the spinal cord to some extent and also save the injured motoneurons. Conclusion GDNF has a potential clinical value and inestimable futurein the treatment of motoneuron diseases.
摘要:目的:分析高胆红素血症新生儿血清神经元特异性烯醇化酶(NSE)含量和新生儿行为神经能力测评(Neonatal Behavioral Neurological Assessment,NBNA)的变化,探讨高胆红素血症新生儿血清NSE含量变化的临床意义。方法:应用放射免疫分析法分别测定60例高胆红素血症新生儿和20例对照组新生儿血清NSE含量,同步测定血清总胆红素(TSB),进行NBNA评分;高胆红素血症组早期干预后再次测定血清NSE含量。结果: 与对照组比较,高胆红素血症新生儿血清TSB、NSE含量显著升高,而NBNA评分明显降低,差异有显著性意义(Plt;0.01);对照组与高胆红素血症新生儿轻度增高、中度增高、重度增高四组两两比较(均Plt;0.05),存在显著性差异;血清NSE含量与NBNA评分呈明显负相关(r=-0628,Plt;0.01);高胆红素血症新生儿经早期干预治疗后,血清NSE含量均下降(Plt;0.05),差异有显著性。结论: 高胆红素血症可导致新生儿脑损伤,血清NSE含量可以作为脑损伤的监测指标。Abstract: Objective: To analyze levels of neuronspecific enolase(NSE)in serum and neonatal behavioral neurological assessment (NBNA), to study whether NSE in serum can be used as a tool for the early identification of brain damage in neonatal hyperbilirubinemia. Methods: Serum NSE level of 60 full term infants with hyperbilirubinemia and 20 cases as to control group were measured by radioimmunoassay; Also total serum bilirubin (TSB) and NBNA were detected. In the hyperbilirubinemia group,serum NSE level were measured second when TSB were less than 855 μmol/L(5 mg/dL). Results: Compared with control group,the levels of serum TSB、NSE of the hyperbilirubinemia group were significantly higher, but NBNA score was significantly lower. The levels of serum NSE was significantly negative related to NBNA score. In the hyperbilirubinemia group, serum NSE level were significantly lower after treatment. Conclusion: Hyperbilirubinemia in neonates can cause brain damage. Serum NSE level could work as monitoring indexes of this damage.
ObjectiveTo investigate the effect of serum on the differentiation of neural stem cells.MethodsThe neural stem cells were isolated from the embryonic hippocampus tissues of Sprague Dawley rats at 14 day of pregnancy. After culturing and passaging, the 3rd generation cells were identified by immunocytochemical staining. Then, the cells were divided into 3 groups according to the concentrations of fetal bovine serum (FBS) used in the differentiation cell culture medium: 5% (group A), 1% (group B), 0 (group C), respectively. The other components of the culture media in 3 groups were the same. Cell viability was determined by using the Live/Dead cell staining at 8 days; the expressions of glial cell marker [glial fibrillary acidic protein (GFAP)] and neuronal marker (β-Ⅲ Tubulin) were determined and analyzed by immunocytochemical staining and real-time fluorescent PCR at 4 and 8 days of culture.ResultsBased on cell morphology and immunocytochemical staining, neural stem cells were identified. Cells were growing well with no death in all groups. With decreasing FBS concentration, the expression of GFAP was significantly decreased on both protein and mRNA level, whereas the expression of β-Ⅲ Tubulin was evidently increased. The staining of each group at 8 days was more obvious than that at 4 days. There were significant differences in mRNA expressions of GFAP and β-Ⅲ Tubulin at 4 and 8 days between groups (P<0.05).ConclusionSerum can promote the differentiation of neural stem cells into glial cells. At the same time, it inhibits the differentiation of neural stem cells into neurons, the lower the serum concentration, the smaller the effect.
ObjectiveTo observe the morphological and functional changes of retinal degeneration in mice with CLN7 neuronal ceroid-lipofuscinosis, and the therapeutic effects of glial cell derived neurotrophic factor (GDNF) and/or ciliary neurotrophic factor (CNTF) based on neural stem cells (NSC) on mouse photoreceptor cells. MethodsA total of 100 CLN7 mice aged 14 days were randomly divided into the experimental group and the control group, with 80 and 20 mice respectively. Twenty C57BL/6J mice aged 14 days were assigned as wild-type group (WT group). Mice in control group and WT group did not receive any interventions. At 2, 4, and 6 months of age, immunohistochemical staining was conducted to examine alterations in the distribution and quantity of cones, rod-bipolar cells, and cone-bipolar cells within the retinal of mice while electroretinography (ERG) examination was utilized to record scotopic a and b-waves and photopic b-wave amplitudes. At 14 days of age, the mice in the experimental group were intravitreally injected with 2 μl of CNTF-NSC, GDNF-NSC, and a 1:1 cell mixture of CNTF-NSC and GDNF-NSC (GDNF/CNTF-NSC). Those mice were then subdivided into the CNTF-NSC group, the GDNF-NSC group, and the GDNF/CNTF-NSC group accordingly. The contralateral eyes of the mice were injected with 2 μl of control NSC without neurotrophic factor (NTF) as their own control group. At 2 and 4 months of age, the rows of photoreceptor cells in mice was observed by immunohistochemical staining while ERG was performed to record amplitudes. At 4 months of age, the differentiation of grafted NSC and the expression of NTF were observed. Statistical comparisons between the groups were performed using a two-way ANOVA. ResultsCompared with WT group, the density of cones in the peripheral region of the control group at 2, 4 and 6 months of age (F=285.10), rod-bipolar cell density in central and peripheral retina (F=823.20, 346.20), cone-bipolar cell density (F=356.30, 210.60) and the scotopic amplitude of a and b waves (F=1 911.00, 387.10) in central and peripheral retina were significantly decreased, with statistical significance (P<0.05). At the age of 4 and 6 months, the density of retinal cone cells (F=127.30) and b-wave photopic amplitude (F=51.13) in the control group were significantly decreased, and the difference was statistically significant (P<0.05). Immunofluorescence microscopy showed that the NSC transplanted in the experimental group preferentially differentiated into astrocytes, and stably expressed CNTF and GDNF at high levels. Comparison of retinal photoreceptor nucleus lines in different treatment subgroups of the experimental group at different ages: CNTF-NSC group, at 2 months of age: the whole, central and peripheral regions were significantly different (F=31.73, 75.06, 75.06; P<0.05); 4 months of age: The difference between the whole area and the peripheral region was statistically significant (F=12.27, 12.27; P<0.05). GDNF/CNTF-NSC group, 2 and 4 months of age: the whole (F=27.26, 27.26) and the peripheral area (F=16.01, 13.55) were significantly different (P<0.05). In GDNF-NSC group, there was no statistical significance at all in the whole, central and peripheral areas at different months of age (F=0.00, 0.01, 0.02; P>0.05). ConclusionsCLN7 neuronal ceroid-lipofuscinosis mice exhibit progressively increasing degenerative alterations in photoreceptor cells and bipolar cells with age growing, aligning with both morphological and functional observations. Intravitreal administration of stem cell-based CNTF as well as GDNF/CNTF show therapeutic potential in rescuing photoreceptor cells. Nevertheless, the combined application of GDNF/CNTF-NSC do not demonstrate the anticipated synergistic protective effect. GDNF has no therapeutic effect on the retinal morphology and function in CLN7 neuronal ceroid-lipofuscinosis mice.
Objective To study the method to inhibit perioperative internal mammary artery (IMA) spasm from the perspective of muscarinic receptor, and research the function of muscarinic cholinergic receptor subtypes of IMA. Methods IMA segments in vitro with intact endothelium were obtained from 30 patients who underwent coronary artery bypass grafting (CABG). According to muscarinic receptor antagonists of different concentrations, They were divided into control group (not using receptor antagonist), atropine group (nonselective M receptor antagonist), pirenzepine group (M1 receptor antagonist) and Methoctramine group(M2 receptor antagonist) by random number table. The effects of antagonists on vasodilatation were analyzed, Scott ratio was used to calculate affinity index (pD2) and Schild plot was used to count rivalry index (pA2). Results Acetylcholine (Ach)induced concentrationdependentrelaxation response of IMA segments with intact endothelium precontracted with potassium chloride (KCl). The pD2 was 6.92±0.05. The effects of atropine, pirenzepine and methoctramine on doseresponse curve induced by Ach with intact endothelium were all concentrationdependent. With the increase of the concentration of antagonists, the Achinduced doseresponse curves had a significant shift to right(Plt;0.05). Atropine, pirenzepine and Methoctramine competitively antagonized the reaction of vessel to Ach. The pA2 were 9.62±0.15,7.70±0.08 and 630±0.08, respectively. Conclusion The Achinduced relaxation response of IMA with intact endothelium is concentrationdependent. According to the affinity of different antagonist, IMA in Vitro Achinduced relaxation response is implemented by acting on nonneuronal muscarinic cholinergic M1 receptor subtype.
OBJECTIVE: To explore the mechanism of tissue specificity of neurotropism in peripheral nerve regeneration, we investigated the biological characteristics of the nerve regeneration conditioned fluids(NRCF) on motoneuron of SD rats cultured in vitro. METHODS: Silicon chambers were sutured respectively to the distal stumps of motorial branch of femoral nerve and saphenous nerve to collect NRCF, namely MD-NRCF and SD-NRCF. The rats cortex motoneuron were divided into 4 groups and cocultured with MD-NRCF, SD-NRCF, b-FGF and serum-free medium respectively. The cultured cells were photoed under phase-contrast microscope, their longest neurites and cell-body areas were measured by cell image processing computer system. MTT automated colorimetric microassay was also adopted to quantify the activation of cultured motoneurons in each group. RESULTS: Cells of MD-NRCF group had longer neurites than those of the other three groups, and their activation was also superior to those of the other groups. CONCLUSION: The results suggest that MD-NRCF has more significantly neurite-promoting and neurobiological effects on motoneuron than SD-NRCF and b-FGF.
ObjectiveTo explore the correlation between the functional status of upper limb motor neurons and motor function in stroke patients, and provide guidance for rehabilitation assessment and functional prognosis.MethodsThe stroke patients who were hospitalized in Department of Rehabilitation Medicine of Zhongda Hospital of Southeast University between November 2020 and January 2021 were selected. Motor unit number estimation (MUNE) and F wave were examined to evaluate the functional status of motor neuron. The Fugl-Meyer Assessment (FMA) and Modified Ashworth Scale (MAS) were used to evaluate the upper limb motor function. The correlations of electrophysiological parameters with FMA score and MAS score were analyzed respectively.ResultsA total of 42 patients were enrolled, and 16 patients were complicated with carpal flexor spasm on the affected side. Among the 42 stroke patients, the MUNE of the abductor pollicis brevis on the affected side was lower than that on the unaffected side (t=−3.466, P=0.001), and the percentage of F waves with different shapes on the affected side was significantly lower than that on the unaffected side (Z=−5.583, P<0.001). Among the 16 stroke patients with carpal flexor spasm, the F wave amplitude was higher on the affected side than that on the unaffected side (t=2.764, P=0.014), while the F wave latency on the affected side was not statistically significant compared with the unaffected side (Z=−0.595, P=0.552). Among the 42 stroke patients, the affected/unaffected side ratio of the percentage of F waves with different shapes was positively correlated with FMA score (rs=0.377, P=0.014), while the correlation between the affected/unaffected side ratio of MUNE and FMA score was not statistically significant (rs=0.104, P=0.513). Among the 16 stroke patients with carpal flexor spasm, the affected/unaffected side ratio of the F wave amplitude was positively correlated with the MAS score of the carpi flexor muscle (rs=0.550, P=0.027).ConclusionStroke may result into the number of functional motor neurons of the upper limbs of the hemiplegic side decreased and the excitability of motor neurons increased simultaneously, and which were related to motor function and muscle tone.