1.Effect of Xiaoxuming Decoction on activation of astrocytes in acute cerebral ischemia/reperfusion injury.
Xue-Qin FU ; Man-Man WANG ; Rui LAN ; Yong ZHANG ; Xu-Huan ZOU ; Wei-Wei WANG ; Chen TANG ; Shuang LIU ; Hong-Yu LI
China Journal of Chinese Materia Medica 2023;48(21):5830-5837
This study investigated the effect of Xiaoxuming Decoction(XXMD) on the activation of astrocytes after cerebral ischemia/reperfusion(I/R) injury. The model of cerebral IR injury was established using the middle cerebral artery occlusion method. Fluorocitrate(FC), an inhibitor of astrocyte activation, was applied to inhibit astrocyte activation. Rats were randomly divided into a sham group, a model group, a XXMD group, a XXMD+FC group, and a XXMD+Vehicle group. Neurobehavioral changes at 24 hours after cerebral IR injury, cerebral infarction, histopathological changes observed through HE staining, submicroscopic structure of astrocytes observed through transmission electron microscopy, fluorescence intensity of glial fibrillary acidic protein(GFAP) and thrombospondin 1(TSP1) measured through immunofluorescence, and expression of GFAP and TSP1 in brain tissue measured through Western blot were evaluated in rats from each group. The experimental results showed that neurobehavioral scores and cerebral infarct area significantly increased in the model group. The XXMD group, the XXMD+FC group, and the XXMD+Vehicle group all alleviated neurobehavioral changes in rats. The pathological changes in the brain were evident in the model group, while the XXMD group, the XXMD+FC group, and the XXMD+Vehicle group exhibited milder cerebral IR injury in rats. The submicroscopic structure of astrocytes in the model group showed significant swelling, whereas the XXMD group, the XXMD+FC group, and XXMD+Vehicle group protected the submicroscopic structure of astrocytes. The fluorescence intensity and protein expression of GFAP and TSP1 increased in the model group compared with those in the sham group. However, the XXMD group, the XXMD+FC group, and XXMD+Vehicle group all down-regulated the expression of GFAP and TSP1. The combination of XXMD and FC showed a more pronounced effect. These results indicate that XXMD can improve cerebral IR injury, possibly by inhibiting astrocyte activation and down-regulating the expression of GFAP and TSP1.
Rats
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Animals
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Astrocytes
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Brain Ischemia/metabolism*
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Brain
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Reperfusion Injury/metabolism*
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Infarction, Middle Cerebral Artery
2.The expression of nestin in ischemia-injured brain of adult rat.
Peng-Chong LIU ; Shi-Duo LU ; Ya-Lin HUANG ; Feng-Yan SUN
Acta Physiologica Sinica 2002;54(4):294-299
Immunohistochemistry and double immunofluorescent labeling techniques combined with confocal laser scanning microscope analysis were used to investigate the characteristic spatial induction profile of nestin following a transient middle cerebral artery occlusion in adult rat brain. The results showed that nestin was induced in ischemic core at 1 day after reperfusion. In addition to ischemic core, the expression of nestin increased in peri-ischemic I, II and III regions at 3 days and 1 week, then it decreased and narrowed along the rim of ischemic core 2 weeks after reperfusion. Double immunofluorescent labeling showed that nestin positive cells were mostly co-stained with GFAP,a astrocyte marker, in peri-ischemic I region 3 days after reperfusion. At 2 weeks, however nestin cells showed a long process and the cells double stained with nestin and NSE,a neuonal specific marker,increased in the ischemic brain. The results suggest that cerebral ischemia induces nestin expression in damaged neurons which might favor the neuroprotection against ischemic damage.
Animals
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Brain
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metabolism
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pathology
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Brain Ischemia
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metabolism
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pathology
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Immunohistochemistry
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Infarction, Middle Cerebral Artery
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metabolism
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pathology
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Nestin
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metabolism
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Neurons
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metabolism
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Rats
3.Chrysin alleviates cerebral ischemia-reperfusion injury by inhibiting ferroptosis in rats.
Jin-Feng SHANG ; Jia-Kang JIAO ; Qian-Nan LI ; Ying-Hui LU ; Jing-Yi WANG ; Ming-Xue YAN ; Yin-Lian WEN ; Gui-Jin-Feng HUANG ; Xiao-Lu ZHANG ; Xin LIU
China Journal of Chinese Materia Medica 2023;48(6):1597-1605
The purpose of this study is to investigate whether chrysin reduces cerebral ischemia-reperfusion injury(CIRI) by inhi-biting ferroptosis in rats. Male SD rats were randomly divided into a sham group, a model group, high-, medium-, and low-dose chrysin groups(200, 100, and 50 mg·kg~(-1)), and a positive drug group(Ginaton, 21.6 mg·kg~(-1)). The CIRI model was induced in rats by transient middle cerebral artery occlusion(tMCAO). The indexes were evaluated and the samples were taken 24 h after the operation. The neurological deficit score was used to detect neurological function. The 2,3,5-triphenyl tetrazolium chloride(TTC) staining was used to detect the cerebral infarction area. Hematoxylin-eosin(HE) staining and Nissl staining were used to observe the morphological structure of brain tissues. Prussian blue staining was used to observe the iron accumulation in the brain. Total iron, lipid pero-xide, and malondialdehyde in serum and brain tissues were detected by biochemical reagents. Real-time quantitative polymerase chain reaction(RT-qPCR), immunohistochemistry, and Western blot were used to detect mRNA and protein expression of solute carrier fa-mily 7 member 11(SLC7A11), transferrin receptor 1(TFR1), glutathione peroxidase 4(GPX4), acyl-CoA synthetase long chain family member 4(ACSL4), and prostaglandin-endoperoxide synthase 2(PTGS2) in brain tissues. Compared with the model group, the groups with drug intervention showed restored neurological function, decreased cerebral infarction rate, and alleviated pathological changes. The low-dose chrysin group was selected as the optimal dosing group. Compared with the model group, the chrysin groups showed reduced content of total iron, lipid peroxide, and malondialdehyde in brain tissues and serum, increased mRNA and protein expression levels of SLC7A11 and GPX4, and decreased mRNA and protein expression levels of TFR1, PTGS2, and ACSL4. Chrysin may regulate iron metabolism via regulating the related targets of ferroptosis and inhibit neuronal ferroptosis induced by CIRI.
Rats
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Male
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Animals
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Rats, Sprague-Dawley
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Ferroptosis
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Signal Transduction
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Brain Ischemia/metabolism*
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Cyclooxygenase 2/metabolism*
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RNA, Messenger
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Cerebral Infarction
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Reperfusion Injury/metabolism*
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Malondialdehyde
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Infarction, Middle Cerebral Artery
4.Correlation between fibrinogen level and cerebral infarction.
Yi-cheng ZHU ; Li-ying CUI ; Bao-lai HUA ; Jia-qi PAN
Chinese Medical Sciences Journal 2006;21(3):167-170
OBJECTIVETo investigate the correlation between plasma fibrinogen level and cerebral infarction (CI) as well as the difference of fibrinogen among subtypes of CI.
METHODSA case-controlled study was conducted with 131 cases of CI and 148 controls. Plasma fibrinogen levels were detected by the Clauss method.
RESULTSHigh fibrinogen level (3.09 +/- 0.94 g/L) was correlated with CI (OR = 2.47, 95% CI: 1.51-4.04, P < 0.005) at the onset stage of the disease. Persistent high fibrinogen level (3.14 +/- 0.81 g/L) at 6-month after stroke onset was detected and correlated with CI (OR = 4.34, 95% CI: 1.80-10.51, P = 0.001). Higher fibrinogen level was correlated with total anterior circulation infarction (TACI), partial anterior circulation infarction (PACI), and posterior circulation infarction (POCI) (OR = 4.008, P < 0.001). Higher fibrinogen level was correlated with extracranial atherosclerosis (OR = 3.220, P < 0.05, but not with intracranial atherosclerosis.
CONCLUSIONFibrinogen level may be a risk factor of CI and probably correlates with subtypes of CI and distributions of atherosclerosis.
Aged ; Atherosclerosis ; blood ; Brain Infarction ; blood ; classification ; Case-Control Studies ; Cerebral Infarction ; blood ; classification ; Female ; Fibrinogen ; metabolism ; Humans ; Infarction, Anterior Cerebral Artery ; blood ; Infarction, Posterior Cerebral Artery ; blood ; Male ; Middle Aged
5.Acute cerebral ischemia-induced down-regulation of Sirt3 protein expression contributes to neuronal injury via damaging mitochondrial function.
Jia-Hui FAN ; Hui-Meng SONG ; Xia ZHANG ; Wei-Jie YAN ; Song HAN ; Yan-Ling YIN
Acta Physiologica Sinica 2021;73(1):17-25
This study was aimed to determine the effect of acute cerebral ischemia on the protein expression level of silent mating type information regulator 2 homolog 3 (Sirt3) in the neurons and clarify the pathological role of Sirt3 in acute cerebral ischemia. The mice with middle cerebral artery occlusion (MCAO) and primary cultured rat hippocampal neurons with oxygen glucose deprivation (OGD) were used as acute cerebral ischemia models in vivo and in vitro, respectively. Sirt3 overexpression was induced in rat hippocampal neurons by lentivirus transfection. Western blot was utilized to measure the changes in Sirt3 protein expression level. CCK8 assay was used to detect cell viability. Immunofluorescent staining was used to detect mitochondrial function. Transmission electron microscope was used to detect mitochondrial autophagy. The results showed that, compared with the normoxia group, hippocampal neurons from OGD1 h/reoxygenation 2 h (R2 h) and OGD1 h/R12 h groups exhibited down-regulated Sirt3 protein expression levels. Compared with contralateral normal brain tissue, the ipsilateral penumbra region from MCAO1 h/reperfusion 24 h (R24 h) and MCAO1 h/R72 h groups exhibited down-regulated Sirt3 protein expression levels, while there was no significant difference between the Sirt3 protein levels on both sides of sham group. OGD1 h/R12 h treatment damaged mitochondrial function, activated mitochondrial autophagy and reduced cell viability in hippocampal neurons, whereas Sirt3 over-expression attenuated the above damage effects of OGD1 h/R12 h treatment. These results suggest that acute cerebral ischemia results in a decrease in Sirt3 protein level. Sirt3 overexpression can alleviate acute cerebral ischemia-induced neural injuries by improving the mitochondrial function. The current study sheds light on a novel strategy against neural injuries caused by acute cerebral ischemia.
Animals
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Brain Ischemia
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Down-Regulation
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Infarction, Middle Cerebral Artery
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Mice
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Mitochondria
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Neurons/metabolism*
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Rats
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Reperfusion Injury
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Sirtuin 3/metabolism*
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Sirtuins
6.An experimental proton magnetic resonance spectroscopy analysis on early stage of acute focal cerebral ischemia.
Li, YI ; Suming, ZHANG ; Xinjiang, ZHANG
Journal of Huazhong University of Science and Technology (Medical Sciences) 2002;22(4):359-61, 366
Using different models of focal cerebral ischemia, the temporal and spatial rules of metabolism and energy changes in the post-ischemia brain tissue were measured by proton magnetic resonance spectroscopy (1HMRS) to provide valuable information for judging the prognosis of acute focal cerebral ischemia and carrying out effective therapy. Nine healthy Sprague-Dawly rats (both sexes) were randomly divided into two groups: The rats in the group A (n = 4) were occluded with self-thrombus for 1 h; The rats in the group B (n = 5) were occluded with thread-emboli for 1 h. The 1H MRS at 30, 40, 50, 60 min respectively was examined and the metabolic changes of NAA, Cho and Lac in the regions of interest were semiquantitatively analyzed. The spectrum integral calculus area ratio of NAA, Cho, Lac to Pcr + Cr was set as the criterion. The values of NAA.Cho in the regions of interest were declined gradually within 1 h after ischemia, especially, the ratio of Cho/(Pcr + Cr), NAA/(Pcr + Cr) at 60 min had significant difference with that at 50 min (P < 0.05). The ratio of Lac/(Pcr + Cr) began to decrease at 40 min from initial increase of Lac in both A and B groups. MR proton spectrum analysis was a non-invasive, direct and comprehensive tool for the study of cellular metabolism and the status of the biochemical energy in acute ischemia stroke.
Brain Ischemia/*diagnosis
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Energy Metabolism
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Infarction, Middle Cerebral Artery/diagnosis
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*Magnetic Resonance Spectroscopy
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Phosphorylcholine/metabolism
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Random Allocation
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Rats, Sprague-Dawley
7.Soybean isoflavones alleviate cerebral ischemia/reperfusion injury in rats by inhibiting ferroptosis and inflammatory cascade reaction.
Shai LI ; Li LI ; Si Min MIN ; Sai Sai LIU ; Zhi Wen QIN ; Zhi Shang XIONG ; Jian Guo XU ; Bo Wen WANG ; Du Shan DING ; Shi Di ZHAO
Journal of Southern Medical University 2023;43(2):323-330
OBJECTIVE:
To explore the mechanism that mediates the effect of soybean isoflavones (SI) against cerebral ischemia/reperfusion (I/R) injury in light of the regulation of regional cerebral blood flow (rCBF), ferroptosis, inflammatory response and blood-brain barrier (BBB) permeability.
METHODS:
A total of 120 male SD rats were equally randomized into sham-operated group (Sham group), cerebral I/R injury group and SI pretreatment group (SI group). Focal cerebral I/R injury was induced in the latter two groups using a modified monofilament occlusion technique, and the intraoperative changes of real-time cerebral cortex blood flow were monitored using a laser Doppler flowmeter (LDF). The postoperative changes of cerebral pathological morphology and the ultrastructure of the neurons and the BBB were observed with optical and transmission electron microscopy. The neurological deficits of the rats was assessed, and the severities of cerebral infarction, brain edema and BBB disruption were quantified. The contents of Fe2+, GSH, MDA and MPO in the ischemic penumbra were determined with spectrophotometric tests. Serum levels of TNF-α and IL-1βwere analyzed using ELISA, and the expressions of GPX4, MMP-9 and occludin around the lesion were detected with Western blotting and immunohistochemistry.
RESULTS:
The rCBF was sharply reduced in the rats in I/R group and SI group after successful insertion of the monofilament. Compared with those in Sham group, the rats in I/R group showed significantly increased neurological deficit scores, cerebral infarction volume, brain water content and Evans blue permeability (P < 0.01), decreased Fe2+ level, increased MDA level, decreased GSH content and GPX4 expression (P < 0.01), increased MPO content and serum levels of TNF-α and IL-1β (P < 0.01), increased MMP-9 expression and lowered occludin expression (P < 0.01). All these changes were significantly ameliorated in rats pretreated with IS prior to I/R injury (P < 0.05 or 0.01).
CONCLUSION
SI preconditioning reduces cerebral I/R injury in rats possibly by improving rCBF, inhibiting ferroptosis and inflammatory response and protecting the BBB.
Rats
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Male
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Animals
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Rats, Sprague-Dawley
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Matrix Metalloproteinase 9/metabolism*
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Soybeans/metabolism*
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Occludin/metabolism*
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Tumor Necrosis Factor-alpha/metabolism*
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Ferroptosis
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Blood-Brain Barrier/ultrastructure*
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Brain Ischemia/metabolism*
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Cerebral Infarction
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Reperfusion Injury/metabolism*
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Isoflavones/therapeutic use*
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Infarction, Middle Cerebral Artery
8.An Experiments Study of the Effect of Ischemic Edema on Cerebral Energy Metabolism.
Journal of Korean Neurosurgical Society 1987;16(1):235-246
The author studied the effect of the recirculation on the energy metabolism in acute focal cerebral ischemia. Acute focal cerebral ischemia was produced by transorbital occlusion of the left middle cerebral artery with a Heifetz clip under the operating microscope. The animals were divided into three groups according to the duration of the ischemia. Each group was reperfused for 1, 4 and 7 hour by removing the clip from the artery. In 1-hour ischemic group ATP and GTP was reduced to 38% and IMP to 40% of the sham control. After 7-hour recirculation in this group ATP was resynthesized to 85%, GTP to 85%, and IMP to 180% of the sham control. In 3-hour ischemic group ATP was reduced to 19%, GTP to 23%, and IMP to 29% of the sham control. In this group ATP, GTP and IMP rose to 43%, 49% and 84%, respectively after 7-hour recirculation ATP, GTP and IMP were markedly reduced in 5-hour ischemic group, and despite recirculation these substances continued to decrease and none of them were detected after 7-hours of recirculation, It was suggested that the restoration of the circulation must be accomplished within 1-hour or at least within 3-hour of the ischemic insult of the cats to prevent the irreversible brain infarction.
Adenosine Triphosphate
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Animals
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Arteries
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Brain Infarction
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Brain Ischemia
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Cats
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Edema*
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Energy Metabolism*
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Guanosine Triphosphate
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Ischemia
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Middle Cerebral Artery
9.Effect of Xiaoxuming Decoction on synaptic plasticity following acute cerebral ischemia-reperfusion in rats.
Xue-Qin FU ; Rui LAN ; Yong ZHANG ; Man-Man WANG ; Xu-Huan ZOU ; Wei-Wei WANG
China Journal of Chinese Materia Medica 2023;48(14):3882-3889
This study aims to explore the effect of Xiaoxuming Decoction on synaptic plasticity in rats with acute cerebral ischemia-reperfusion. A rat model of cerebral ischemia-reperfusion injury was established by middle cerebral artery occlusion(MCAO). Rats were randomly assigned into a sham group, a MCAO group, and a Xiaoxuming Decoction(60 g·kg~(-1)·d~(-1)) group. The Longa score was rated to assess the neurological function of rats with cerebral ischemia for 1.5 h and reperfusion for 24 h. The 2,3,5-triphenyltetrazolium chloride(TTC) staining and hematoxylin-eosin(HE) staining were employed to observe the cerebral infarction and the pathological changes of brain tissue after cerebral ischemia, respectively. Transmission electron microscopy was employed to detect the structural changes of neurons and synapses in the ischemic penumbra, and immunofluorescence, Western blot to determine the expression of synaptophysin(SYN), neuronal nuclei(NEUN), and postsynaptic density 95(PSD95) in the ischemic penumbra. The experimental results showed that the modeling increased the Longa score and led to cerebral infarction after 24 h of ischemia-reperfusion. Compared with the model group, Xiaoxuming Decoction intervention significantly decreased the Longa score and reduced the formation of cerebral infarction area. The modeling led to the shrinking and vacuolar changes of nuclei in the brain tissue, disordered cell arrangement, and severe cortical ischemia-reperfusion injury, while the pathological damage in the Xiaoxuming Decoction group was mild. The modeling blurred the synaptic boundaries and broadened the synaptic gap, while such changes were recovered in the Xiaoxuming Decoction group. The modeling decreased the fluorescence intensity of NEUN and SYN, while the intensity in Xiaoxuming Decoction group was significantly higher than that in the model group. The expression of SYN and PSD95 in the ischemic penumbra was down-regulated in the model group, while such down-regulation can be alleviated by Xiaoxuming Decoction. In summary, Xiaoxuming Decoction may improve the synaptic plasticity of ischemic penumbra during acute cerebral ischemia-reperfusion by up-regulating the expression of SYN and PSD95.
Rats
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Animals
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Rats, Sprague-Dawley
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Brain Ischemia/drug therapy*
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Reperfusion Injury/metabolism*
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Infarction, Middle Cerebral Artery
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Neuronal Plasticity
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Reperfusion
10.Effect of electro-acupuncture on calcium content in neurocytes of focal cerebral ischemia.
Neng-gui XU ; Wei YI ; Xin-sheng LAI
Chinese Journal of Integrated Traditional and Western Medicine 2002;22(4):295-297
OBJECTIVETo study the effect of electro-acupuncture (EA) in regulating calcium (Ca2+) content in brain neurocytes of rats with focal cerebral ischemia.
METHODSThe changes of Ca2+ content in ischemic neurocytes were observed by using laser confocal scanning microscope.
RESULTSCa2+ content did not change significantly in cerebral cortex when the brain ischemia occurred for 1 hr, but it raised significantly in striatum neurocytes. Both the Ca2+ contents in striatum and cortex area increased significantly 3 hrs after ischemia occurrence and the content in striatum was higher than that in cortex significantly. Brain Ca2+ content could be reduced significantly after the 3 hrs ischemic brain were treated by EA for 30 min.
CONCLUSIONEA could regulate the content of Ca2+ in the ischemic area of brain, inhibit Ca2+ overload, so as to protect neurons from ischemic injury.
Animals ; Biological Transport, Active ; Brain ; metabolism ; pathology ; Calcium ; metabolism ; Electroacupuncture ; Infarction, Middle Cerebral Artery ; metabolism ; pathology ; Male ; Microscopy, Confocal ; Neurons ; metabolism ; Random Allocation ; Rats ; Rats, Wistar