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Objective:To explore the clinical efficacy of posterior short-segment internal fixation for the treatment of brucella spondylitis (BS).Methods:The medical records of 34 patients with BS admitted from January 2014 to June 2019 were retrospectively analyzed. There were 22 males and 12 females; the age was 52.3±10.6 years (range 35-72 years). On the basis of standardized use of antibacterial drugs, the lumbar spine posterior short-segment internal fixation was used. Twenty-nine cases underwent simple internal fixation, and posterolateral bone graft fusion, while 5 cases underwent primary debridement, autologous bone grafting and interbody fusion. Monitor erythrocyte sedimentation rate (ESR), C-reactive protein (CRP), and test tube agglutination test (SAT) were used to assess inflammation control. Imaging examinations of patients before operation, 1 month after operation, 3 months after operation, 6 months after operation, 1 year after operation to the last follow-up were analyzed to evaluate the condition of intervertebral fusion. The clinical efficacy evaluation was based on the pain visual analog scale (VAS), Japanese Orthopaedic Association (JOA) score, modified MacNab grading, and American Spinal Injury Association (ASIA) grading, as well as surgery-related complications.Results:The operation time of 34 patients was 104.64±16.72 min (range 65-145 min), the average hospital stay was 16.49±7.41 days (range 7-38 d), and the average postoperative follow-up time was 20.2 months (range 12-34 months). At the last follow-up, the ESR and CRP fell to the normal range, and the SAT was negative. At 3 months postoperatively, 11 cases (32.35%) reached Bridwell fusion criteria of grade II, 23 cases (67.65%) of grade III; 3 cases (8.82%) of grade I fusion at 6 months after surgery, 31 cases reached grade II fusion (91.18%); all reached grade I fusion at the last follow-up. After the operation, the symptoms of the waist or lower extremities were significantly relieved. The VAS score was 6.3±1.4 before the operation, 4.1±1.2 at 1 month after the operation, 2.7±1.4 at 3 months after the operation, 1.6±1.0 at 6 months after the operation, and 1.2±0.8 at the last follow-up. The JOA score before surgery was 13.8±2.4, 1 month after surgery 17.6±2.6, 3 months after surgery 21.7±3.1, 6 months after operation 4.9±2.7, and at the last follow-up 25.7±1.8. Compared with the preoperative time nodes of the above indicators, the differences were statistically significant. At the last follow-up, of the 12 patients (2 cases of grade C, 10 cases of grade D) with preoperative neurological dysfunction, 2 cases recovered from grade C to grade D, and 10 cases recovered from grade D to E; the excellent and good rate of modified MacNab grading reached 97.06% (33/34). No extradural hematoma, nerve damage, cerebrospinal fluid leakage and other surgical complications occurred. Only 1 case had wound infection complication, and the prognosis was good after active treatment. There were no recurrences during the follow-up period.Conclusion:On the basis of standardized antimicrobial treatment, posterior lumbar short-segment internal fixation is a safe and effective method for the treatment of BS, and good clinical effects can be obtained.
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Low back pain is becoming an important factor that affects people's quality of life today, and the social losses caused by lowback pain are hugeevery year. Lumbar disc herniation (LDH) is one of the main diseases that cause low back pain. The mechanism of lumbar disc herniation in the biomedical science is still controversial. Inflammatory factor is a cytokine secreted by tissue cells and involved in mediating the inflammatory response. Studies have shown that some factors stimulated by the extrusive nucleus pulposus, like inflammatory factors, degeneration-related genes and downstream expression products, can cause the degeneration of intervertebral disc. IL-1, IL-6, TNF-α, MMPs, and TGF-β have become the hot topicin disc degeneration. Signaling pathway is the main pathway for inflammatory factors to participate in the regulation of various biochemical reactions in cells. The inflammatory factors interact with different proteins to activate or inhibit different pathways, thereby achieving regulation of the cell cycle, regulates gene expression, induces immune inflammatory response, and apoptosis. Research on the role of various inflammatory factors in the body and related molecular signaling pathways will help us understand the mechanism of LDH. Most of the experimental studies only focus on the influence of a certain cytokine or single pathway on intervertebral disc degeneration, but different inflammatory factors and their signaling pathways often crosstalk with each other through special channels, forming a complex and precise signal transduction regulation network jointly regulates various physiological or pathological processes in the body, and the occurrence of disease is often accompanied by multiple factors. Studying the effect of a single signal network on the disease cannot fully explain the cause of the disease and related clinical manifestations. Therefore, clarifying the role of various inflammatory factors in IDD and exploring and analyzing the ways in which each factor regulates each other will provide ideas for understanding the mechanism of lumbar degeneration and exploring new methods for preventing and treating LDH in the future.
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Objective:Resorption can occur after lumbar disc herniation, and Thymic stromal lymphopoietin (TSLP) is considered to be a key factor mediating reabsorption. Studies have found that under the action of inflammatory factors like TNF-α, IL-6, etc,the expression of TSLP in intervertebral disc tissue was increased, and then mononuclear macrophage chemokine-1 (MCP-1) was induced to induce infiltration of macrophage to promote reabsorption. To determine the mechanism, we design the experiment to explore the mechanism of IL-6-mediated JAK/STAT pathway and TGF-β/Smad pathway to promote the reabsorption of intervertebral disc by regulating the expression of TSLP.Methods:Rat bone marrow mesenchymal stem cells (MSC) and rat nucleus pulposus cells (NPC) were cultured in vitro, treating the cells withrat IL-6 recombinant protein, STAT3inhibitor and Smad2/3 inhibitorrespectively, and use real-time quantitative PCR (qRT-PCR) technology to detect the expression of JAK1, STAT3, Smad2, TSLP mRNA under different conditions; Western blot to detect the expression of TSLP, Smad2 and phosphate STAT3 protein; using enzyme-linked immunosorbent assay (Elisa) to detect the expression of TGF-β in two rat cells under the treatment of IL-6.Results:After stimulation ofIL-6 (10 ng/ml or 100 ng/ml) the expression of JAK1in MSC (10 ng/ml: 5.13±1.21; 100 ng/ml: 5.23±0.35; control group: 0.97±0.03), STAT3 (10 ng/ml: 6.50±0.38; 100 ng/ml: 6.74±0.61; control group: 0.87±0.19) was significantly increased, and TSLP also showed high expression in MSC (10 ng/ml: 4.26±0.38; 100 ng/ml: 5.05±0.46; control group: 1.04±0.04).The expression of STAT3 (10 ng/ml: 2.91±0.08; control group: 1.12±0.11), TSLP (10 ng/ml: 7.32±0.37; control group: 1.03±0.03) in NPC also increased. After stimulation of IL-6, the expression of Smad2 increasing in MSC was observed (10 ng/ml: 15.92±0.62; 100 ng/ml: 20.28±0.58; control group: 0.96±0.08), and increased expression of Smad2 in NPC (10 ng/ml: 5.01±0.17; control group: 0.96±0.03). The expression of TSLP in MSC decreased after adding STAT3 inhibitor (BP group, BP group: 0.17±0.01; control group: 0.90±0.09), the expression of TSLP also decreased in NPC (BP group: 0.42±0.11; control group: 0.90±0.11). After adding Smad2/3 inhibitor (SB group), the expression of TSLP in MSC decreased (SB group: 0.33±0.01; control group: 1.02±0.02), and the expression of TSLP in NPC also decreased (SB group: 0.40±0.04; control group: 0.99±0.01).Conclusion:IL-6 up-regulates TSLP expression via the JAK1/STAT3 signaling pathway and promotes prominent intervertebral disc reabsorption. At the same time, IL-6 can activate the TGF-β/Smad2/3 pathway and up-regulate the expression of TSLP, which play a synergistic role in the reabsorption process.
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Objective The aim of current study is to determine the effect and mechanism of thymic stromal lymphopoietin on apoptosis of mouse nucleus pulposus cells by investigating the apoptotic activity and variation of intracellular phosphorylated protein kinase B (p-Akt),X-linkedinhibitor of apoptosis protein (XIAP),cysteinyl aspartate specific proteinase-3 (caspase-3),with the treatment of thymic stromal lymphopoietin.Methods Mouse lumbar nucleus pulposus cells were cultured and identified under a fluorescence microscope.Second or third passage cells maintained in monolayers were used for the following experiments.The groups were divided randomly into normal group,TNF-α treated group,TSLP treated group,TSLP+LY94002 treated group and TSLP+Embelin treated group.As a control,normal group was treated with PBS.TNF-α treated group was treated with 500 ng/ml TNF-αt as a positive control.TSLP treated group was treated with 10 ng/ml rhTSLP.TSLP+LY94002 treated group and TSLP+ Embelin treated group were treated with 10 ng/ml TSLP with the pretreatment of different pathway inhibitors for 30 ain in different corresponding experiments,for which 10 μ mol LY294002 or 50 LY294002 responding experimentsreatment of different pathway inhibitors formouse nucleus pulposus cells was detected by FACS.The expression levels of the intracellular p-Akt,XIAP,caspase-3 were investigated by Western blot analysis.Results As the culture cell type Ⅱ collagen staining was positive observed by fluorescence microscopy,we confirmed that the cuhured cells were nucleus pulposus cells.In comparison with negative control,the levels of p-Akt,XIAP in TSLP treated group were elevated (t=9.510,P=0.001;t=8.851,P=0.001).Thecaspase-3 activity were slightly enhanced and the rate of cells apoptosis was no significance.Compared with TSLP treated group,downregulated level of pAkt and XIAPand upregulatedcaspase-3 activity in TSLP+LY294002 treated group were observed (t=8.798,P=0.001;t=7.032,P=0.002;t=5.908,P=0.004).Upregulated caspase-3 activity were also observed in TSLP+ Embelin treated group (t=7.990,P=0.001).Furthermore,significant increased apoptotic cell rate was observed in TSLP+LY294002 or TSLP+Embelin treated groups (t=21.268,P=0.001;t=21.279,P=0.001).Conclusion TSLP may have a potential anti-apoptotic effect on mouse NP cells via upregulating XIAP in PI3K/Akt signaling pathway to restrain the activation of caspase-3.
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Objective To investigate the effect of acidic tumor microenvironment on invasion and migration and its mechanism in glioma cells. Methods (1) The pH value of the medium was adjusted by acid-base titration. Human glioma cells U87 and U251 were cultured in the acid group and the normal group with pH values of 6.4 and 7.4, respectively; and 3 d after cultivation, the expressions of hypoxia-inducible factor-2α (HIF-2α) and CD44 were detected by Western blotting; Transwell assay was used to examine the invasion and migration of U87 and U251 cells; immunofluorescence was employed to examine the CD44 expression. (2) The U87 and U251 cells were divided into small interfering RNA (siRNA) -nonsense sequence group and siRNA-CD44-1 group, and the siRNA nonsense sequences and siRNA-CD44-1 interfering fragments were transfected by lipofectin-3000, respectively; three d after transfection, the migration and invasion abilities of cells from the two groups were detected by Transwell assay. (3) U87 and U251 cells were divided into acid group (cultured with a pH value of 6.4), blank control group, siRNA nonsense sequence group, siRNA-CD44-1 group, and siRNA-CD44-2 group; and cells from the later four groups were cultured with a pH value of 7.4; after culture for 4 d, the siRNA-nonsense sequence group, siRNA-CD44-1 group and siRNA-CD44-2 group were transfected with siRNA-nonsense sequences, siRNA-cd44-1 interfering fragments and siRNA-CD44-2 interfering fragments, respectively; three d after transfection, the expressions of CD44, N-Ca, Vimentin, and matrix metalloproteinase (MMP)-2 proteins in these 5 groups were detected by Western blotting. Results (1) As compared with the normal group, the expression levels of HIF-2α and CD44 in U87 and U251 cells of the acid group were significantly increased; both Transwell and invasion experiments showed that the number of transmembrane cells in the acid group was significantly larger than that in the normal group (P<0.05); immunofluorescence staining showed that the CD44 expression in acid group was significantly higher than that in normal group (P<0.05). (2) Both Transwell and invasion experiments showed that the number of transmembrane cells in the siRNA-CD44-1 group was significantly smaller than that in the siRNA nonsense sequence group (P<0.05). (3) Western blotting showed that the expression levels of CD44, N-Ca, Vimentin and MMP-2 in U87 and U251 cells of the blank control group, siRNA nonsense sequence group, siRNA-CD44-1 group, and siRNA-CD44-2 group were obviously decreased as compared with those in the acid group; the expression levels of CD44, N-Ca, Vimentin and MMP-2 in U87 and U251 cells of the siRNA-CD44-1 group and siRNA-CD44-2 group were obviously lower than those in the siRNA nonsense sequence group. Conclusion Acidic tumor microenvironment enhances the capabilities of invasion and migration of glioma cells through increasing CD44 expression.
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Objective To study the influence of micro (miR)-325 in progression of glioma and its molecular mechanism by regulating transferrin receptor (TFRC) gene expression in glioma cells. Methods (1) Thirty-five glioma tissues and paired adjacent normal tissues were collected during surgical excision performed in our hospital from January 2015 to January 2018. The miR-325 and TFRC mRNA expression levels in the glioma tissues and paired adjacent normal tissues were detected by inverse transcription-quantitative PCR (RT-qPCR); the expression of miR-325 in glioma tissues of patients with different clinical characteristics and the survival curves of patients with low or high miR-325 expressions were compared. (2) RT-qPCR was used to examine the miR-325 expression in HA, U251, and U87 cell lines in vitro; the regulatory relations between miR-325 and its potential target gene TFRC in U251, and U87 cell lines were measured by luciferase report assay; miR-325 mimic and its negative control were transfected into U251 and U87 cell lines for 48 h, and then, the mRNA and protein expressions of TFRC were detected by RT-qPCR and Western blotting, respectively; control small interfering RNA (siRNA)+nonsense inhibitor, TFRC siRNA+nonsense inhibitor, and siTFRC+miR-325 inhibitor were transfected into U251 and U87 cell lines for 48 h, respectively, Western blotting was employed to detect the TFRC protein expression, cell proliferation was detected by CCK-8 assay, and cell invasion was detected by Transwell assay; pcDNA3.1 empty vector+nonsense sequence, TFRC pcDNA3. 1+nonsense sequence, TFRC pcDNA3.1+miR-325 mimic were transfected into U251 and U87 cell lines for 48 h, respectively, TFRC protein expression was detected by Western blotting, cell proliferation was detected by CCK-8 assay, and cell invasion was detected by Transwell assay. Results (1) As compared with those in the adjacent tissues, the miR-325 expression was significantly decreased and the TFRC mRNA expression was statistically increased in glioma tissues (P<0.05); the TFRC mRNA expression and miR-325 expression were negatively correlated in glioma tissues (P<0.05); as compared with patients with Karnofsky functional status scores≥80, patients with scores<80 had significantly decreased miR-325 expression; as compared with glioma tissues of WHO grading I-II, glioma tissues of grading III-IV had significantly decreased miR-325 expression (P<0.05); the survival rate of patients with low miR-325 expression was statistically lower than that of patients with high miR-325 expression (P< 0.05). (2) As compared with that in HA cells, the miR-325 expression was statistically down-regulated in U87 and U251 cells (P<0.05); in TFRC wild-type (TFRC WT) transfected cells, the miR-325 mimic group had significantly lower luciferase activity than the nonsense sequence group, while the miR-325 inhibitor group had significantly higher luciferase activity than the nonsense inhibitor group (P<0.05); as compared with those in the nonsense sequence group, the TFRC mRNA and protein expressions were statistically decreased in U87 and U251 cells of miR-325 mimic group; as compared with those in the control siRNA+nonsense inhibitor group, the TFRC protein expression and absorbance value were significantly decreased, and number of invasive cells was significantly smaller in the siTFRC+nonsense inhibitor group; and as compared with those in the siTFRC+nonsense inhibitor group, the TFRC protein expression and absorbance value were significantly increased, and number of invasive cells was significantly larger in the siTFRC+miR-325 inhibitor group (P<0.05); as compared with the pcDNA3.1 empty vector+nonsense sequence group, the TFRC protein expression and absorbance value were significantly increased, and number of invasive cells was significantly larger in the TFRC pcDNA3.1 +nonsense sequence group, and as compared with the TFRC pcDNA3.1+nonsense sequence group, the TFRC protein expression and absorbance value were significantly decreased, and number of invasive cells was significantly smaller in the TFRC pcDNA3.1+miR-325 mimic group (P<0.05). Conclusion The miR-325 expression is decreased in glioma cells and has a tumor suppressor effect; patients with low miR-325 expression have poor prognosis; miR-325 inhibits cancer cell progression by inhibiting the expression of the target gene TFRC.
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Objective To investigate the regulating mechanism of Notch1 signaling pathway on the invasion and migration ofglioma initiating cells (GICs).Methods (1) Box-plotting was conducted to analyze the mRNA expression of Notch1 in normal brain tissue and glioblastoma tissue using Bredel Brain,Sun Brain and TCGA databases;Kaplan-Meier survival analysis was conducted to analyze the association between the prognosis of glioma patients with the expression of Hes1 in TCGA database;Heatmap was conducted to analyze the expression of Notch1 and CXCR4 in GICs and common cell line in GEO database.(2) Magnetic activated cell sorting was adopted to establish cell lines of U87 GICs and U251 GICs;immunofluorescence staining was used to detect expression of CXCR4 and Notch1.After the cell lines of U87 GICs and U251 GICs were divided into DMSO,shNC,MK0752 and shNotchl groups,the shNotch1 and shNC groups were transfected respectively with recombinant lentivirus of Notch1-shRNA and its control sequence while the MK0752 and DMSO groups were added respectively with MK-0752 of 80 nmol/mL and the same amount of DMSO.The protein expression of Notch1,CXCR4 and p-mTOR was detected by Westem blotting in the 4 groups.The capabilities of invasion and migration of the GICs were detected by Transwell assay in the shNotch1 and shNC groups.Results (1) The box-plotting showed the mRNA expression of Notch 1 in the glioblastoma tissue was significantly higher than in the normal brain tissue (P<0.05).The Kaplan-Meier survival analysis showed that the life span ofglioma patients with high expression of Hes1 was significantly shorter than that of those with low expression of Hes1 (P<0.05).Heatmaps showed that the expression levels of Notch1 and CXCR4 in GICs were higher than in the common cell line.(2) The immunofluorescence staining showed that Notch1 and CXCR4 were highly expressed and colocalized in cell lines of U87 GICs and U251 GICs.The Western blotting showed that the protein expression of Notch1,CXCR4 and p-mTOR in the cell lines of U87GICs and U251 GICs in the MK0752 and shNotch1 groups was lower than that in the DMSO and shNC groups.Transwell assay showed that the penetrating-membrane cells per visual field in the shNotch1group were significantly fewer than those in the shNC group (P<0.05).Conclusion Notch1 signaling pathway can promote invasion and migration of GICs through regulating CXCR4 expression.
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Objective To investigate the role of cortactin in migration and invasion of U251 glioma cells and role of Rac1 activation in this process.Methods Human glioma U251 cells were cultured in vitro.The expressions and distributions of Rac1 and cortactin in U251 glioma cells were detected by immunofluorescence.U251 glioma cells assigned into 4 treatment groups:siRNA-cortactin group (transfected by siRNA specific cortactin),siRNA-NC group (transfected by negative control RNA sequence),siRNA-N group (transfected by empty vector) and siRNA-cortactin+Rac1 group (transfected by siRNA specific cortactin and Rac1 inhibitor).Forty-eighty h after grouping and each treatment,the protein expressions of cortactin and Rac1 in the 4 groups were detected by Western blotting;the migration and invasion of glioma cells were evaluated by wound-healing and Transwell-chamber invasion assays;the lamellipodia of glioma cells was observed by immunofluorescence.Results Cortactin and Rac1 were co-localized in the front ofglioma cells,where actin was polymerized and lamellipodia was formed.As compared with siRNA-NC group and siRNA-N group,siRNA-cortactin group and siRNA-cortactin+Rac1 group had significantly lower cortactin and Rac1 expressions (P<0.05);siRNA-cortactin+Rac1 group had significantly lower cortactin and Rac1 expressions as compared with siRNA-cortactin group (P<0.05).As compared with siRNA-NC group and siRNA-N group,siRNA-cortactin group and siRNA-cortactin+Rac1 group had significantly smaller healing areas and number of perforator cells (P<0.05);siRNA-cortactin+Rac1 group had significantly smaller healing areas and number of perforator cells as compared with siRNA-cortactin group (P<0.05).As compared with siRNA-NC group and siRNA-N group,siRNA-cortactin group and siRNA-cortactin+Rac1 group had decreased lamellipodia of glioma cells;siRNA-cortactin+Rac1 group had decreased lamellipodia of glioma cells as compared with siRNA-cortactin group.Conclusion Cortactin can promote the migration and invasion of glioma cells by regulating lamellipodia formation;combined inhibition of Rac 1 and cortactin may be an effective mean for treatment ofglioma.
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Glioblastoma is the most common and most invasive primary malignant brain tumor in the central nervous system. Surgical resection, concurrent chemoradiotherapy and adjuvant chemotherapy are the standard treatment options, but the prognosis is very poor. It can be said that the standard treatment cannot safely and specifically eliminate all cancer cells, and only provide patients with limited survival benefits. Therefore, a large number of studies have attempted to use the natural cell killing ability of the immune system to aggressively attack the tumor, which is called "immunotherapy." This treatment concept has spawned a variety of treatment strategies, and is becoming another tumor treatment program after surgery, radiotherapy, chemotherapy and molecular targeted therapy. In recent years, antibodies against immune checkpoints have been shown to produce impressive clinical responses to non-small cell lung cancer, kidney cancer, melanoma, hematological tumors and other malignant tumors; it has raised interest in investigating whether these drugs are also effective in the field of brain tumors. Here, we summarize the current knowledge of central nervous system immune checkpoints and evaluate past and current immunological checkpoint treatment trials. And the future direction of treatment of immune checkpoints is discussed to provide new dawn for patients with malignant glioma.
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Objective To identify Chinese character writing related cortex (WRC) and its relationship with hand motor cortical areas. Methods Ten native Chinese-speaking, right-hand volunteers were recruited in the study. NTMS mapping was conducted during picture naming task. The WRC were mapped based on nTMS-induced impairment of Chinese character writing. The extent and area of WRC was calculated. The right-hand motor representations were mapped while motor-evoked potentials were produced under nTMS stimulation. EMG data and coordinates of positive stimulus were recorded. The relationship between WRC and hand motor cortex (HMC) was analyzed on the basis of area comparison and distance calculation. Results The cortical areas related to Chinese character writing were mapped successfully in all subjects by nTMS. WRC was primarily centered in left posterior middle frontal gyrus (pMFG) (86%,55/64). The mean WRC area (161.03 mm2 ±62.58mm2) was significantly smaller than the mean HMC area (589.50 mm2±227.34mm2) (P<0.001). The WRC and HMC were not conjoined or overlapped in the dominant hemisphere. The distance between those two was 12.58mm±2.71mm. Conclusions NTMS can provide reliable assistance in mapping WRC areas. The WRC is relatively fixed and centralized in pMFG but is not overlapped with the HMC.
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Objective To observe the changes of invasion and migration patterns and integrin expression of malignant glioma cells when Rac and Rho pathways are suppressed,respectively,in 3D hydrogel.Methods Liposome mediated pCMVLifeAct-TagGFP2 plasmids were transfected into glioma U87 cells,and then,these cells were divided into NSC23766 treatment group,Y-27632 treatment group,NSC23766 and Y-27632 combined treatment group,and control group.The three treatment groups were added NSC23766 (100 nmol/mL),Y-27632 (10 nmol/mL),100 nmol/mL NSC23766 and 10 nmol/mL Y-27632,respectively;the cells in the control group were added the same amount of medium.Cells were cultured in hydrogel;the composition of round cells,spindle cells and the mesenchymal and amoeboid cell movement transition were observed under confocal microscopy.The hydrogels of each group were infused into the microslide,and the cell chemotaxis effect were recorded and the cell movement velocities and distances were calculated in the living cell workstation.Immunofluorescence was used to observe the alternation ofintegrin expression.Results U87 cells cultured in 3D hydrogel exhibited spindle-like and round-like shapes,corresponding to mesenchymal and amoeboid cell movement.As compared with that in the control group,the proportion of round cells in the NSC23766 treatment group was significantly higher,and that of spindle cells in the Y-27632 treatment group was significantly higher (P<0.05).The conversion rate ofmesenchymal-amoeboid transition was 50.0% in NSC23766 treatment group and amoeboid mesenchymal transition was 42.8% in Y-27632 treatment group as compared with that in the control group,with significant differences (P<0.05).The velocity and distance of cells cultured in 3D hydrogel decreased orderly in NSC23766 treatment group,control group,Y-27632 treatment group and combined treatment group in chemotaxis test.The immunofluorescence test showed that integrin expression in the Y-27632 treatment group was significantly higher than that in the other three groups,and that in the control group was statistically higher than that in the NSC23766 treatment group and combined treatment group (P<0.05).Conclusions 3D hydrogel can be used as a favorable substrate for cell culture.The combination targeted inhabitation of Rac 1 and RohA pathways provides theoretical basis for anti-invasion treatment against glioma.
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The reversed pH gradient across the cell membrane on account of intracellular alkalinization and extracellular acidosis is an importart characteristic of tumor microenvironment.Sodium hydrogen exchanger isoform 1 (NHE1) is ubiquitously expressed at the plasma membrane of many types of cells,which plays a critical role in intracellular pH and cell volume homeostasis.NHE1 plays an important role in the regulation of tumor microenvironment and involves in tumor migration and invasion,which may be a potential new target in anti-cancer therapy.
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Na +-K +-2Cl-cotransporter 1 (NKCC1) is highly expressed in malignant gliomas,which is closely related to the degree of malignancy.NKCC1 protein has a vital function in the volume regulation of glioma cells.NKCC1 allows glioma cells to transform its volume freely,migrating through the narrow extracellular space to achieve distant metastases.There is also close relationship between NKCC1 and tumor cytoskeleton regulation.In addition,NKCC1 is closely associated with cell cycle,nerve activity and other biological functions.In conclusion,NKCC1 plays an important role in gliomas.
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Objective To investigate the inhibitory effect of a disintegrin and metalloprotease 12 silenced by shR?NA on self-renewal capacity of CD133 positive giloma cells. Methods The shRNA recombinant lentivirus aimed at si?lencing ADAM12 was prepared. Human glioma cells U87 were employed in this study and assigned into three groups:shRNA-ADAM12, shRNA-NCandshRNA-C. ADAM12 expression was detected at mRNA and protein level using Re?al-time quantitative-PCR and western bloting, respectively. U87 cells were cultured with stem cell culture medium, to obtain cell sphere formation in which CD133 positive glioma cells were enriched. Immunofluorescence was employed to detect the expression of ADAM12 and CD133 in cell spheres and U87 cells; Self-renewal was tested by using tumor sphere formation assay. Molecular markers for differentiated or undifferentiated cells (CD133,GFAP and Tuj1) were de?tected at protein using western blotting. Western blotting was employed to test protein expression of HES1. Results AD?AM12 shRNA significantly down-regulated the mRNA and protein expression levels of ADAM12. Compared with shRNA–C group, the relative expression levels of mRNA in shRNA-ADAM12 group and shRNA-NC group were 0.22 ± 0.03 and 0.98 ± 0.06 (F=425.37,P<0.01). The relative expression levels of protein in shRNA-ADAM12 group, shRNA-NC group and shRNA-C group were 28.72%±2.36%, 69.21%±3.92%and 69.04%±3.57%, respectively (F=145.42,P<0.01). Immunofluorescence staining showed that expression levels of ADAM12 and CD133 in cell spheres were significantly higher than those in normal cells. The number of spheres in three groups were 45.5±2.3、104.2±5.8 and 109.6±6.2, tumor sphere formation ability of shRNA-ADAM12 group was lower than that of shRNA-NC group and shRNA-C group (F=147.03,P<0.01). Compared with the shRNA-NC group and shRNA-C group, the protain expression of GFAP and Tuj1 were increased up to 166% and 146% (P<0.01) whereas the protein expression levels of CD133 and HES1 were down-regulated by 54% and 50% (P<0.01). Conclusion Knockdown of ADAM12 may suppress self-renewal ability of CD133 positive glioma cells by inhibiting the Notch pathway activity.
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Objective To investigate the value of ADC and FA of diffusion tensor imaging(DTI)and T2 value of T2 mapping for assessing lumbar intervertebral disc degeneration.Methods 12 cases of healthy volunteers(8 males and 4 females),28 cases of patients with chronic low back pain(15 males and 13 females,19-70 years old)were performed lumbar spine MRI,DTI and T2 mapping to obtain ADC,FA and T2 value.Intervertebral discs were classified according to the Pfirrmann grading.The correlations of different degeneration grade with ADC,FA and T2 value were analyzed.The diagnostic value of ADC,FA and T2 values of lumbar intervertebral disc degeneration were compared. Results Both ADC value and T2 value were significantly negative correlated with lumbar intervertebral disc degeneratic Pfirrminn grading(r=-0.779,r=-0.708,P<0.001).FA value were positively correlated with Pfirrminn grading(r=0.474,P<0.001), the correlation was not closely.Conclusion DTI and T2 mapping can be effectively used to quantitatively evaluate the degeneration degree of lumbar intervertebral disc,the diagnostic value of ADC was the highest,followed by T2 ,and FA was the worst.
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Objective To explore the correlation between the change of intestinal flora and insulin resistance in pre-diabetes population,and the role of intestinal flora in the occurrence and development in the pre-diabetes population.Methods two hundreds and fifty cases of pre-diabetes in our hospital were selected and divided into the group A(pre-diabetes intervention group)and B(prediabetes non-treatment group).Fifty cases of diabetes(positive control group)served as the group C.The cohort study was adopted.The follow-up intervention lasted for two years.The intestinal flora and blood biochemical indicators were detected in different groups and at different time periods.The insulin resistance index was calculated.Results The total bacterial count before intervention in the group A and B was significantly higher than that in the group C;Enterococcus genus in the group C was significantly higher than that in the group A and B;the proteus and lactobacillus content in the group A and B was higher than that in the group C,but the difference was not significant;Bifidobacterium genus in the group C was higher than that in the group A and B.After intervention,the total bacterial amount in the group Awas significantly higher than the group B and C,but there was no statistical difference between the group B and C;enterococcus genus in the group C was significantly higher than that in the group A and B,enterococcus genus after intervention in the group A was reduced and which in the group B was increased,the difference had statistical significance;the proteus and lactobacillus content in the group A and B was higher than that in the group C,but the difference was not significant;bifidobacterium genus in the group C was higher than that in the group A and B,moreover which after intervention in the group B was increased,the difference was statistically significant.The insulin resistance before processing had no statistical difference between the groups A and B,which in the group C was higher than the group A and B,the insulin resistance after intervention in the group A was decreased,the difference was statistically significant.The total bacterial count,enterococcus and bifidobacterium were positively correlated with insulin resistance,and bacteroides,proteus and lactobacillus had no significant correlation with insulin resistance.Conclusion Intestinal flora has correlation with insulin resistance,and serves as a marker of pre-diabetes development,implementing the probiotics adjustment combined the quantization aerobic muscular movement can realize the adjustment of insulin sensitivity and improves the diabetic development in the prediabetic population.
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BACKGROUND:Studies have shown that posterior orthopedic internal fixation and anterior orthopedic internal fixation al can get good clinical outcomes for treatment of adult idiopathic scoliosis, however, it has not been reported on what kind of methods could achieve a better clinical outcome for treatment of Lenke3 type adult idiopathic scoliosis, have less risk of pedicle screws breakage and more reliable long-term efficacy. OBJECTIVE:To establish the Lenke 3 type adult idiopathic scoliosis finite element model and thoracic screw guide target 3D model using finite element analysis software, so as to provide scientific basis for biomechanical analysis and scientific pedicle screw implantation. METHODS:The CT scan image from T 1 to sacrum of one 28 years old volunteer with Lenke 3 type adult idiopathic scoliosis was imported into Mimics 16.0 software by Dicom form. Integral idiopathic scoliosis three dimensional model was established by geometry clear technology. Nail guide target of thoracic vertebra was established on vertebral model by design module in Mimics 16.0 software. The point cloud form of three dimensional model was imported into Geomagic Studio 11.0 software. Series of image processing of model were conducted. At last, three dimensional model was imported into ANSYS 14.0 finite element analysis software in order to build finite element model with biological properties. RESULTS AND CONCLUSION:Complete Lenke 3 type adult idiopathic scoliosis three dimensional finite element model was established successful y. It concluded 440 975 tetrahedron units and 580 bar units, total y 441 555 units and 1 077 318 nodes. Total y 12 nail guide target models of thoracic vertebra were established, including 4 682 tetrahedron units and 7 390 nodes. Lenke 3 type adult idiopathic scoliosis three dimensional finite element model and nail guide target of thoracic vertebral model with a realistic appearance were established successful y in this experiment. These results confirm that Lenke 3 type adult idiopathic scoliosis three dimensional finite element model provides scientific basis for further biomechanical experiments. Meanwhile, the construction of nail guide target model of thoracic vertebra provide a new scientific method for thoracic pedicle screw placement.
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BACKGROUND:At present,there is lack of relevant biomechanical model for the T6-T7-T8 rib-vertebral fix unit.In addition,there is no support of parameters of basic studies on reasons and reasonable explanation of screw breakage,poor quality of bone fusion and adjacent segment degeneration.OBJECTIVE:To develop a three-dimensional finite element model of bone graft with vertebral tuberculosis debridement and posterior rib-vertebral unit fixed system through tuberculosis of thoracic spine (T6-8),and to analyze the stress so as to improve it.METHODS:Spiral CT data of one male patient (172 cm,71 kg,39-year-old) with T7 vertebral tuberculosis were imported into computer to develop a three-dimensional finite element model of bone graft with vertebral debridement and posterior vertebral unit fixed system through tuberculosis of T6-8 by Mimics 13.0 and Ansys 11.0 finite element software.500 N pressure and 10 N?m torque were loaded to the vertebral body by 3 kinds of physiological loads which simulated flexion,extension and lateral bending.The stress distribution of fixation devices under different loads was compared.RESULTS AND CONCLUSION: At the positions of anteflexion and extension,the stress mainly concentrated to screw tail,and the stress of upper screw was greater than the middle and lower screws.For connecting rods,the stress of the middle was always less than the lower middle and the middle stress was zero.At lateral bending position,the stresses of upper and middle screw tail were quite,and the unilateral stress of connecting rod was also equivalent.For three different dynamics at the same point,the stress of middle connecting rod increased in the lateral bending motion,and the stress of lower screw tail was equivalent.These data suggested that it is prone to fatigue fracture at upper screw tail by bone graft with vertebral tuberculosis debridement and posterior rib-vertebral unit fixed system through tuberculosis of thoracic spine (T6-8) at the three positions of anteflexion,extension and lateral bending.The lower connecting rod at the positions of anteflexion and extension and the middle connecting rod at the position of lateral bending easily cause fatigue fracture.
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BACKGROUND:Thoracic lumbar segment is prone to spinal tuberculosis, caseous necrosis tissue, dead bone compression of spinal cord and nerve root may cause neurological symptoms, and the majority of them is accompanied with mild and moderate spinal kyphosis deformity. Surgical treatment of spinal tuberculosis has been frequently reported in recent years, the commonly used treatment includes lesion clearance, bone graft fusion and internal fixation. OBJECTIVE:To investigate the principle of choosing different internal fixation treatment for thoracolumbar spinal tuberculosis. METHODS:42 patients with thoracolumbar spinal tuberculosis were involved in this study from January 2001 to December 2011. Al patients suffered from waist and back pains, with the disease course range of 1 month to 7 years. Four cases showed neurological deficit before surgery. According to the Frankel classification, 1 case was graded as Frankel C and 3 cases as Frankel D. The preoperative average Cobb angle of kyphosis was 27° (range 12°-45°). The internal fixation approaches were chosen according to the tuberculose focus and vertebral fracture extent. Thoraco-abdominal approach for thoracolumbar spine via diaphragm with the removal of 11 rib and(or) 12 rib was performed for al patients. Among these protocols, 25 cases underwent anterior focal debridement and bone grafting. 17 cases had anterior focal debridement and posterior pedicle screw internal fixation (one-stage surgery in 7 cases and second-stage surgery in 10 cases). Al patients received anti-tuberculosis chemotherapy before and after operation. 36 cases used rib and 6 cases used iliac bone as bone graft. Al patients were fol owed up from 17 months to 9 years. The correction of spinal deformity, spinal stability and spinal functional recovery were observed. RESULTS AND CONCLUSION:30 patients were fol owed up after operations and the back pains disappeared. X-ray examination showed that, al patients were fixed wel without no loosening and rupture, and achieved bony fusion (the mean time were 5.4 months). No tuberculosis recurred. Four cases complicated with spinal cord injury were E grade according to the Frankel classification. The Cobb angle was 0-26° (mean 14°) at 12 months after operation. On the premise of standard anti-tuberculosis chemotherapy, various internal fixation methods can be determined according to general conditions of patients and tuberculose focus site.
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Objective To establish a drug-resistance cell line of human glioma with temozolomide ( TMZ) ,investigate its resistance mechanisms, and provide experimental evidence for optimal TMZ therapy. Methods A TMZ-resistant human glioma cell line,U251/TR,was established by stepwise exposure of human parental U251 cells to TMZ. Resistance index and cell viability were accessed by MTT assay. Western-Blot,RT-PCR,immunohistochemistry and immunofluorescence were used to detect MGMT expression for the analysis of resistance mechanism. Results A TMZ-resistant human glioma cell line,U251/TR,was developed after 8 months of stepwise induction with 0. 25-16. 00 μg·mL-1 TMZ. IC50 in U251/TR cells was approximately 7 times higher compared with that in U251 cells (P=0. 00 ). The MGMT expression was significantly increased in U251/TR cells compared with that in parental U251 cells (P=0. 00) . Conclusion A TMZ-resistant human glioma cell line,U251/TR,was established by stepwise exposure of human parental U251 cells to TMZ. The primary mechanism of TMZ resistance is associated with increased activity of MGMT.