Prognostic Biomarker KIF18A and Its Correlations With Immune Infiltrates and Mitosis in Glioma.

Background: Glioma is globally recognised as one of the most frequently occurring primary malignant brain tumours, making the identification of glioma biomarkers critically significant. The protein KIF18A (Kinesin Family Member 18A) is a member of the kinesin superfamily of microtubule-associated molecular motors and has been shown to participate in cell cycle and mitotic metaphase and anaphase. This is the first investigation into the expression of KIF18A and its prognostic value, potential biological functions, and effects on the immune system and mitosis in glioma patients. Methods: Gene expression and clinicopathological analysis, enrichment analysis, and immune infiltration analysis were based on data obtained from The Cancer Genome Atlas (TCGA), with additional bioinformatics analyses performed. Statistical analysis was conducted in R software. Clinical samples were used to evaluate the expression of KIF18A via immunohistochemical staining. In addition, the expression level of KIF18A was validated on U87 cell line. Results: Our results highlighted that KIF18A plays a key role as an independent prognostic factor in patients with glioma. KIF18A was highly expressed in glioma tissues, and KIF18A expression was associated with age, World Health Organization grade, isocitrate dehydrogenase (IDH) status, 1p/19q codeletion, primary therapy outcome, and overall survival (OS). Enrichment analysis revealed that KIF18A is closely correlated with the cell cycle and mitosis. Single sample gene set enrichment analysis (ssGSEA) analysis revealed that KIF18A expression was related to the immune microenvironment. The increased expression of KIF18A in glioma was verified in clinical samples and U87 cell line. Conclusion: The identification of KIF18A as a new biomarker for glioma could help elucidate how changes in the glioma cell and immune microenvironment promote glioma malignancy. With further analysis, KIF18A may serve as an independent prognostic indicator for human glioma.

Bone marrow mesenchymal stem cell transplantation downregulates plasma level and the microglia expression of transforming growth factor ß1 in the acute phase of cerebral cortex ischemia.

BACKGROUND: Both bone marrow mesenchymal stem cell (BM-MSC) and transforming growth factor-ß1 (TGF-ß1) have a strong anti-inflammatory capacity in stroke. But their relationship has not been well addressed. In this study, we investigated how intravenous BM-MSC transplantation in rats effected the expression of TGF-ß1 48 h post cerebral ischemia, and we analyzed the main cells that produce TGF-ß1. METHODS: We used a distal middle cerebral artery occlusion (dMCAO) model in twenty Sprague-Dawley (SD) rats. The rats were randomly divided into two groups: the ischemic control group and the postischemic BM-MSC transplantation group. One hour after the dMCAO model was established, the rats were injected in the tail vein with either 1 ml saline or 1 × 106 BM-MSCs suspended in 1 ml saline. ELISAs were used to detect TGF-ß1 content in the brain infarct core area, striatum and the plasma at 48 h after cerebral infarction. Immunofluorescent staining of brain tissue sections for TGF-ß1, Iba-1, CD68 and NeuN was performed to determine the number and the proportion of double stained cells and to detect possible TGF-ß1 producing cells in the brain tissue. RESULTS: Forty-eight hours after ischemia, the TGF-ß1 content in the infarcted area of the BM-MSC transplantation group (23.94 ± 4.48 pg/ml) was significantly lower than it was in the ischemic control group (34.18 ± 4.32 pg/ml) (F = 13.534, P = 0.006). The TGF-ß1 content in the rat plasma in the BM-MSC transplantation group (75.91 ± 12.53 pg/ml) was significantly lower than it was in the ischemic control group (131.18 ± 16.07 pg/ml) (F = 36.779, P = 0.0002), suggesting that after transplantation of BM-MSCs, TGF-ß1 levels in the plasma decreased, but there was no significant change in the striatum area. Immunofluorescence staining showed that the total number of nucleated cells (1037.67 ± 222.16 cells/mm2) in the infarcted area after transplantation was significantly higher than that in the ischemic control group (391.67 ± 69.50 cells/mm2) (F = 92.421, P < 0.01); the number of TGF-ß1+ cells after transplantation (35.00 ± 13.66 cells/mm2) was significantly reduced in comparison to that in the ischemic control group (72.33 ± 32.08 cells/mm2) (F = 37.680, P < 0.01). The number of TGF-ß1+/Iba-1+ microglia cells in the transplantation group (3.67 ± 3.17 cells/mm2) was significantly reduced in comparison to that of the ischemic control group (13.67 ± 5.52 cells/mm2) (F = 29.641, P < 0.01). The proportion of TGF-ß1+/Iba-1+ microglia cells out of all Iba-1+ microglia cells after transplantation (4.38 ± 3.18%) was significantly decreased compared with that in the ischemic control group (12.81 ± 4.86%) (F = 28.125, P < 0.01). CONCLUSIONS: Iba-1+ microglia is one of the main cell types that express TGF-ß1. Intravenous transplantation of BM-MSCs does not cooperate with TGF-ß1+ cells in immune-regulation, but reduces the TGF-ß1 content in the infarcted area and in the plasma at 48 h after cerebral infarction.

Plasma RANTES level is correlated with cardio-cerebral atherosclerosis burden in patients with ischemic cerebrovascular disease.

BACKGROUND: Regulated upon activation, normal T-cell expressed, and secreted (RANTES) is a chemokine actively involved in the initiation and progression of atherosclerosis (AS), which is the major cause of ischemic cerebrovascular disease (ICVD). This study aimed to determine the associations between circulating RANTES level and overall AS conditions of cardiac and cerebral vessel beds in patients with ICVD. METHODS: Patients with ICVD admitted to the department of neurology of Xuanwu Hospital from April 1, 2019 to June 30, 2019 were prospectively enrolled in the study. Plasma RANTES level was measured by enzyme-linked immunosorbent assay to represent the circulating RANTES level. The integrated AS burden of the cervicocephalic and coronary arteries was examined using computed tomography angiography and reflected by "cardio-cerebral AS burden (CCAB)" as a continuous variable. Then, the relationship of plasma RANTES level and CCAB in patients with ICVD was analyzed by correlation analyses and general linear models. RESULTS: A total of 40 patients with ICVD were included in the study. There was a significant positive correlation between CCAB and plasma RANTES level in ICVD (r = 0.786, P < 0.001), independent of age, sex, acute or chronic phase of ICVD, and mono or dual antiplatelet therapy (adjusted B for ln RANTES, 12.063; 95% confidence interval, 7.572-16.533). The association of plasma RANTES level with AS conditions (burden, severity, and extent) in single cardiac or cerebral vessel bed was similar to that with CCAB, but the correlation coefficient for CCAB was higher (increment ranged from 0.126 to 0.397). CONCLUSIONS: Plasma RANTES level was an independent indicator for the integrated AS burden of the cervicocephalic and coronary arteries in ICVD. Comprehensive evaluation of AS conditions using the novel continuous index CCAB might be important in revealing the systematic relationship between circulating RANTES and AS in patients with ICVD.

Aging, rather than Parkinson's disease, affects the responsiveness of PBMCs to the immunosuppression of bone marrow mesenchymal stem cells.

Whether aging or Parkinson's disease (PD) affects the responses of peripheral blood mononuclear cells (PBMCs) to immunosuppression by bone marrow­derived mesenchymal stem cell (BM­MSCs) and which cytokines are more effective in inducing BM­MSCs to be immunosuppressive remains to be elucidated. PBMCs were isolated from healthy young (age 26­35), healthy middle­aged (age 56­60) and middle­aged PD­affected individuals. All the recruits were male. The mitogen­stimulated PBMCs and proinflammatory cytokine­pretreated BM­MSCs were co­cultured. The PBMC proliferation was measured using Cell Counting Kit­8, while the cytokine secretion was assayed by cytometric bead array technology. The immunosuppressive ability of BM­MSCs was confirmed in young healthy, middle­aged healthy and middle­aged PD­affected individuals. Among the three groups, the PBMC proliferation and cytokine secretion of the young healthy group were suppressed more significantly compared with those of the middle­aged healthy and middle­aged PD­affected group. No significant differences were identified in the PBMC proliferation and cytokine secretion between the patients with PD and the middle­aged healthy subjects. Interferon (IFN)­Î³ synergized with tumor necrosis factor (TNF)­α, interleukin (IL)­1α or IL­1ß was more effective than either one alone, and the combinations of IFN­Î³ + IL­1α and IFN­Î³ + IL­1ß were more effective than IFN­Î³ + TNF­α in inducing BM­MSCs to inhibit PBMC proliferation. The results of the present study suggested that aging, rather than PD, affects the response of PBMCs toward the suppression of BM­MSC, at least in middle­aged males. Patients with PD aged 56­60 remain eligible for anti­inflammatory BM­MSC­based therapy. Treatment of BM­MSCs with IFN­Î³ + IL­1α or IFN­Î³ + IL­1ß prior to transplantation may result in improved immunosuppressive effects.

Comparsion between Intravenous Delivered Human Fetal Bone Marrow Mesenchymal Stromal Cells and Mononuclear Cells in the Treatment of Rat Cerebral Infarct.

Objective To compare the effecacy of human mesenchymal stromal cell (hMSC) with human mononuclear cell (hMNC) in treating rat cerebral infarct.Methods The SD rat models of cerebral infarct were established by distal middle cerebral artery occlusion (dMCAO). Rats were divided into four groups: sham,ischemia vehicle,MSC,and MNC transplantation groups. For the transplantation group,1×106 hMSCs or hMNCs were intravascularly transplanted into the tail vein 1 hour after the ischemia onset. The ischemia vehicle group received dMCAO surgery and intravascular saline injection 1,3,5,and 7 days after the ischemia onset,and then behavioral tests were performed. At 48 h after the ischemia onset,the abundance of Iba- 1,the symbol of activated microglia,was evaluated in the peri-ischemia striatum area; meanwhile,the neurotrophic factors such as glial cell line-derived neurotrophic factor (GDNF) and brain-derived neurotrophic factor (BDNF) in ipsilateral peri-ischemia striatum area were also measured. Results The relative infarct volume in ischemia vehicle group,hMSC group,and hMNC transplantation group were (37.85±4.40)%,(33.41±3.82)%,and (30.23±3.63)%,respectively. The infarct volumes of MSC group (t=2.100,P=0.034) and MNC group (t=2.109,P=0.0009) were significantly smaller than that of ischemia vehicle group,and that of MNC group was significantly smaller than that of MSC group (t=1.743,P=0.043). One day after transplantation,the score of ischemia vehicle group in limb placing test was (4.32±0.71)%,which was significantly lower than that in sham group (9.73±0.36)% (t=2.178,P=8.61×10-11). The scores of MSC and MNC group,which were (5.09±0.62)% (t=2.1009,P=0.024) and (5.90±0.68)% (t=2.1008,P=0.0001),respectively,were significantly higher than that of ischemia vehicle group; also,the score of MNC group was significantly higher than that of MSC group(t=2.1009,P=0.0165). The contralateral forelimb scores of MSC and MNC groups in beam walking test were (5.56±0.86)% (t=2.120,P=0.020) and (5.13±0.95)% (t=2.131,P=0.003),were both significantly lower than that of ischemia vehicle group [(6.47±0.61)%]. Three days after the transplantation,the limb placing test score of MNC group [(6.91±1.10)%] was significantly higher than that of ischemia vehicle group (5.80±0.82)% (t=2.110,P=0.027). The score of MSC group [(6.30±0.77)%] showed no statistic difference with that of ischemia vehicle group(t=2.101,P=0.199).The contralateral forelimb scores of MNC group in beam walking test [(4.34±0.58)%] was significantly lower than that of ischemia vehicle group [(5.31±0.65)%] (t=2.100,P=0.006) and MSC group [(4.92±0.53)%] (t=2.100,P=0.041); there was no statistic difference between MSC group and ischemia vehicle group (t=2.109,P=0.139). The relative abundance of Iba- 1 in sham,ischemia vehicle,MSC,and MNC groups was 1.00+0.00,1.72±0.21,1.23±0.08,and 1.48±0.06,respectively. The Iba-1 relative abundance of ischemia vehicle group was significantly higher than that of sham group (t=2.262,P=2.9×10-6). The Iba-1 relative abundances of both MSC (t=2.178,P=3.91×10-5)and MNC (t=2.200,P=0.007)groups were significantly lower than that of ischemia vehicle group. It was also significantly lower in MNC group than in MSC group also (t=2.120,P=7.09×10-6). Three days after transplantation,the BDNF and GDNF levels of MSC group,which were (531.127±73.176)pg/mg (t=2.109,P=0.003)and(127.780±16.733)pg/mg(t=2.100,P=2.76×10-5),respectively,were significantly higher than those of ischemia vehicle group,which were (401.988±89.006)pg/mg and (86.278±14.832) pg/mg,respectively. The BDNF and GDNF levels of MNC group,which were (627.429±65.646)pg/mg (t=2.144,P=0.017) and (153.117±20.443)pg/mg (t=2.109,P=0.010),respectively,were all significantly higher than that of MSC group. At day 7,the BDNF and GDNF levels of MSC group,which were (504.776±83.282)pg/mg (t=2.101,P=0.005) and (81.641±11.019)pg/mg (t=2.100,P=0.002),respectively,were significantly higher than those of ischemia vehicle group,which were (389.257±70.440)pg/mg and (64.322±9.855) pg/mg,respectively. The BDNF and GDNF levels of MNC group,which were (589.068±63.323)pg/mg (t=2.100,P=0.027) and (102.161±19.932)pg/mg (t=2.144,P=0.017),respectively,were all significantly higher than that of MSC group. Conclusions Both hMSC and hMNC are beneficial to the ischemia-damaged brain when they are intravascularly transplanted within 1 h after the onset of ischemia. The anti-inflammation ability and secretion of neurotrophic factors are the underlying mechanisms of the therapeutic effects. MNC is more effective than MSC in reducing infarct area and improving behaviors,which might be explained by the fact that MNC induces more GDNF and BDNF in brain than MSC.

Icariin promotes cell proliferation and regulates gene expression in human neural stem cells in vitro.

Icariin (ICA), which is an essential bioactive component extracted from the herb Epimedium, possesses neuroprotective properties. The aim of the present study was to investigate the regulatory roles of ICA in cell proliferation and gene expression in human neural stem cells (NSCs) in vitro. Single cells were isolated from the corpus striatum of 16­20­week human fetuses obtained following spontaneous abortion. The cells were cultured in Dulbecco's modified Eagle's medium/F12 complete medium and were characterized by immunostaining and cell differentiation assay. NSCs were treated with ICA, and cell proliferation was assessed using the Cell Counting kit­8 cell proliferation assay kit. In addition, neurosphere formation was comparatively studied between the ICA­treated and control cells. cDNA microarray analysis was performed to examine the effects of ICA on gene expression. Altered expression of genes important for regulating NSC proliferation was further analyzed by quantitative polymerase chain reaction (qPCR). The results demonstrated that typical neurospheres appeared after 7­10 days of culturing of individual cells isolated from the corpus striatum. These cells expressed nestin, an important NSC marker, and in the presence of differentiation medium they expressed ß­III­tubulin, a specific neuronal marker, and glial fibrillary acidic protein, an astrocyte marker. Treatment with ICA enhanced NSC proliferation and the formation of neurospheres. Microarray data and pathway analysis revealed that the genes regulated by ICA were involved in several signaling pathways, including the Wnt and basic fibroblast growth factor (bFGF) pathways, which are important for the regulation of NSC function. Upregulation of frizzled class receptor 7 and dishevelled segment polarity protein 3, which are key players in the Wnt pathway, and fibroblast growth factor receptor 1, which is the receptor for bFGF, and downregulation of glycogen synthase kinase­3ß, which is a Wnt pathway inhibitor, was further validated by qPCR. In conclusion, ICA promoted proliferation and regulated gene expression in human NSCs, thus suggesting that ICA may exert its neuroprotective effects by regulating NSC activity.

Salvianolic Acid B Down-regulates Matrix Metalloproteinase-9 Activity and Expression in Tumor Necrosis Factor-α-induced Human Coronary Artery Endothelial Cells.

BACKGROUND: Salvianolic acid B (Sal B) is a bioactive water-soluble compound of Salviae miltiorrhizae, a traditional herbal medicine that has been used clinically for the treatment of cardiovascular diseases. This study sought to evaluate the effect of Sal B on matrix metalloproteinase-9 (MMP-9) and on the underlying mechanisms in tumor necrosis factor-α± (TNF-α±)-activated human coronary artery endothelial cells (HCAECs), a cell model of Kawasaki disease. METHODS: HCAECs were pretreated with 1-10 αµmol/L of Sal B, and then stimulated by TNF-α± at different time points. The protein expression and activity of MMP-9 were determined by Western blot assay and gelatin zymogram assay, respectively. Nuclear factor-κB (NF-κB) activation was detected with immunofluorescence, electrophoretic mobility shift assay, and Western blot assay. Protein expression levels of mitogen-activated protein kinase (c-Jun N-terminal kinase [JNK], extra-cellular signal-regulated kinase [ERK], and p38) were determined by Western blot assay. RESULTS: After HCAECs were exposed to TNF-α±, 1-10 αµmol/L Sal B significantly inhibited TNF-α±-induced MMP-9 expression and activity. Furthermore, Sal B significantly decreased IκBα± phosphorylation and p65 nuclear translocation in HCAECs stimulated with TNF-α± for 30 min. In addition, Sal B decreased the phosphorylation of JNK and ERK1/2 proteins in cells treated with TNF-α± for 10 min. CONCLUSIONS: The data suggested that Sal B suppressed TNF-α±-induced MMP-9 expression and activity by blocking the activation of NF-κB, JNK, and ERK1/2 signaling pathways.

[Detection of anti-aquaporin 4 antibody in neuromyelitis optical].

OBJECTIVE: To assess the sensitivity and specificity of anti-aquaporin 4 antibody in the diagnosis of neuromyelitis optical (NMO) and analyze the relationship between clinical features and different NMO-IgG status. METHODS: A total of 269 serum specimens were collected from the patients with NMO, high-risk for NMO, multiple sclerosis (MS) and miscellaneous diseases and analyzed with HEK-293T cells transfected by aquaporin 4 cDNA. The sensitivity and specificity of anti-aquaporin 4 antibody in the diagnosis of NMO were calculated, Spearman correlation coefficients were used to examine the relationship between clinical features and antibody titer. RESULTS: (1) The results of cell-based immunofluorescence assay showed 36 examples of 47 NMO patient serums (76.6%) were positive, 7/23 high-risk for NMO positive (30.4%), 3/85 multiple sclerosis (3.5%) positive, 1/48 miscellaneous neurological disorders (2.1%), 2/16 immune system diseases positive (12.5%) and negative in all 50 healthy serum specimens. Sensitivity and specificity were 76.6% and 97.0% for discriminating NMO from MS and other diseases. (2) Anti-AQP4 antibody titer had no obvious correlation to relapses, spinal lesion length and EDSS (P > 0.05). (3) Anti-AQP4 antibody titer became lower after a high dose of intravenous methylprednisolone (P < 0.05). CONCLUSION: Anti-AQP4 antibody in NMO has a high specificity and sensitivity so as to contribute to early diagnosis and optimized treatment of NMO. And its titer decreases after a high dose of intravenous methylprednisolone. But there is no correlation between its titer and length of spinal cord lesions, relapsing frequency or expanded disability status scale (EDSS) score.

Endothelial progenitor cell transplantation ameliorates elastin breakdown in a Kawasaki disease mouse model.

BACKGROUND: Coronary artery damage from Kawasaki disease (KD) is closely linked to the dysfunction of endothelial progenitor cells (EPCs). The aim of the present study was to evaluate the therapeutic effect of EPCs transplantation in KD model. METHODS: Lactobacillus casei cell wall extract (LCWE)-induced KD model in C57BL/6 mice was established. The model mice were injected intravenously with bone marrow-derived in vitro expanded EPCs. Histological evaluation, number of circulating EPCs and the function of bone marrow EPCs were examined at day 56. RESULTS: Inflammation was found around the coronary artery of the model mice after 14 days, Elastin breakdown was observed after 56 days. CM-Dil labeled EPCs incorporated into vessel repairing foci was found. At day 56, the number of peripheral EPCs in the KD model group was lower than in EPCs transplanted and control group. The functional index of bone marrow EPCs from the KD model group decreased in proliferation, adhesion and migration. Increased number of circulating EPCs and improved function were observed on the EPCs transplanted group compared with model group. CONCLUSION: Exogenously administered EPCs, which represent a novel strategy could prevent the dysfunction of EPCs, accelerate the repair of coronary artery endothelium lesion and decrease the occurrence of aneurysm.

Endothelial progenitor cell down-regulation in a mouse model of Kawasaki disease.

BACKGROUND: Cardiovascular complications of Kawasaki disease (KD) are a common cause of heart disease in pediatric populations. Previous studies have suggested a role for endothelial progenitor cells (EPCs) in coronary artery lesions associated with KD. However, long-term observations of EPCs during the natural progression of this disorder are lacking. Using an experimental model of KD, we aimed to determine whether the coronary artery lesions are associated with down-regulation of EPCs. METHODS: To induce KD, C57BL/6 mice were administered an intraperitoneal injection of Lactobacillus casei cell wall extract (LCWE; phosphate buffered saline used as control vehicle). Study groups included: group A (14 days following LCWE injection), group B (56 days following LCWE injection) and group C (controls). Numbers of circulating EPCs (positively staining for both CD34 and Flk-1 while staining negative for CD45) were evaluated using flow cytometry. Bone marrow mononuclear cells were cultured in vitro to expand EPCs for functional analysis. In vitro EPC proliferation, adhesion and migration were assessed. RESULTS: The model was shown to exhibit similar coronary artery lesions to KD patients with coronary aneurysms. Numbers of circulating EPCs decreased significantly in the KD models (groups A and B) compared to controls ((0.017 ± 0.008)% vs. (0.028 ± 0.007)%, P < 0.05 and (0.016 ± 0.007)% vs. (0.028 ± 0.007)%, P < 0.05). Proliferative, adhesive and migratory properties of EPCs were markedly impaired in groups A and B. CONCLUSION: Coronary artery lesions in KD occur as a consequence of impaired vascular injury repair, resulting from excess consumption of EPCs together with a functional impairment of bone marrow EPCs and their precursors.

[Effect of granulocyte colony-stimulating factor on endothelial progenitor cell for coronary artery lesion in Kawasaki disease mice model].

OBJECTIVE: Number and function of endothelial progenitor cell (EPC) and coronary artery lesion in Kawasaki disease (KD) model were evaluated to investigate therapeutic efficacy of granulocyte colony-stimulating factor (G-CSF). METHOD: C57BL/6 mice were injected with L. casei cell wall extract (LCWE); 48 mice were divided into 3 groups randomly: KD model group; G-CSF treated model group and control group, 16 in each. G-CSF was subcutaneously injected from day 5 to day 9 after injection of LCWE. Coronary artery lesion, number of circulating EPC and the function of bone marrow EPC were evaluated. RESULT: In model group, inflammatory infiltration was found around coronary artery at 14 days. The number of circulating EPC was significantly decreased in model group (0.017% ± 0.008%) compared to control (0.028% ± 0.007%) (t = 2.037, P < 0.05). Disruption of elastin was consistently observed at 56 days. Stimulated by G-CSF, inflammatory infiltration was found around the coronary artery at day 14, while the number of circulating EPC (0.042% ± 0.015%) was increased significantly compared to models (t = 4.629, P < 0.05). At the day 56, the number of circulating EPC was decreased slightly (0.029% ± 0.012%), but still higher than the model group (t = 2.789, P < 0.05), and have no significant difference compared to controls (P > 0.05). Furthermore, there was no elastin disruption in the G-CSF group. In model group, bone marrow EPC's proliferation ability of absorbance (A value) was 0.38 ± 0.09 in thiazolyl blue assay, less than controls (0.61 ± 0.14, P < 0.01). Adhesion and migration function were down-regulated compared to controls [(3.1 ± 0.6) cells/HPF and (3.3 ± 0.6) cells/HPF vs. (6.4 ± 1.2) cells/HPF and (6.2 ± 0.5) cells/HPF, both P < 0.01]. In the G-CSF treated group, proliferation ability (A 0.58 ± 0.10), adhesion [(6.17 ± 1.13) cells/HPF], migration [(6.29 ± 0.42) cells/HPF] function were increased significantly compared to the model group (P < 0.01). CONCLUSION: G-CSF can up-regulate EPC number and function to prevent coronary artery lesion in mice model of KD.

[Genetic analysis in the clinical diagnosis of Ehlers-Danlos syndrome type IV].

OBJECTIVE: To ascertain the diagnosis of such a rare disease as Ehlers-Danlos syndrome type IV by the technique of DNA(deoxyribonucleic acid)analysis. METHODS: The primer sequences of Col3A1 gene were designed. Genomic DNA was isolated from the peripheral blood samples. The amplification of polymerase chain reaction (PCR) was performed and direct sequencing used to screen the mutations. A definite diagnosis was made in conjunctions with clinical features. RESULTS: Two nucleotide mutations for Col3A1 were found. One was in intron 15 while another in exon 30. The latter was an important mutation of a G to A transition (c.2209G > A) resulting in alanine to threonine substitution at position (p.Ala698Thr). The mutations were inherited from proband of pedigree. CONCLUSION: Genetic testing of Col3A1 mutation can facilitate an accurate diagnosis of Ehlers-Danlos syndrome.

[Comparison of two tracing method of transplanted mouse embryonic stem cell].

OBJECTIVE: To trace the embryonic stem (ES) cells transplanted into rat brain by labeling the cells with green fluorescent protein (GFP) and by mouse neuronal specific antibody Thy-1 and compare their features. METHODS: For GFP labeling,transfect pEGFP-N1 plasmid containing GFP and anti-neomycin sequences into embryonic stem cell and add neomycin for more than 10 passages. To test the GFP expression in vivo, the GFP-ES was transplanted into healthy rat brain, and the frozen sectioned slides were observed under fluorescence microscope and laser con-focal microscope 21 days later. For the antibody labeling,embryonic stem cells were directly transplanted into the rat brain. The specific mouse thy-1 antibody was used in immunostaining of transplanted cells. For both of the two labeling method, the slides were also examined by double labeling with the antibodies,neuronal nuclei (NeuN) or glial fibrillary acidic protein (GFAP) to identify the differentiation of transplanted cells. RESULTS: Both single ES cell and cell pellets expressed bright green fluorescence the day after plasmid transfection, and more than 30% ES cells were labeled. The GFP-labeled cells could still be found gathered around the infusion channel at least 21 days later, but the GFP fluorescent could not be overlapped with NeuN or GFAP staining. On the contrary, Thy-1 antibody overlapped well with NeuN or GFAP staining. CONCLUSIONS: Liposome-helped plasmid GPF transfection is effective in labeling mouse embryonic stem cell in vivo,but is not effective in showing the differentiated cells. On the contrary, Thy-1 antibody can not only show the transplanted cells, but also trace the transplanted cells after their differentiation.

[Construction and clinical application of lentivirus-AQP4 expressing vector].

OBJECTIVE: To construct the human aquaporin-4 (AQP4) expressing vector and detect anti-AQP4 antibody in serum of patients with neuromyelitis optica (NMO). METHODS: RNA was extracted from human glioblastoma and AQP4 cDNA obtained through RT-PCR.The fragment was cloned into the lentiviral expressing vector (iDUET101) and transformed into competent strain Hb101 for later amplification; plasmids were extracted from the amplified positive-bacteria-colony, sequenced and transfected into HEK-293T cells. Expression of AQP4 was identified by RT-PCR, Western blot and immunofluorescence assay. And anti-AQP4 antibody in human serum was tested. RESULTS: The sequence of target fragment matched with that of human AQP4 fragment sequences (NM_001650) completely. The constructed AQP4 fragment transfected in HEK-293T cell was tested by immunofluorescent examination and it exhibited obvious fluorescence located in cell membrane. Western blot test was positive. And the fragment was about 34 KD. Cellular immunofluorescence examination showed 11 examples of 12 NMO patient serums (91.7%) were positive, 4 in 34 multiple sclerosis (11.8%) positive and negative in all 50 serum samples of healthy controls. CONCLUSION: The HEK-293T cell transfected with lentivirus-AQP4 vector can express stably. And the expressed fragment may be applied in clinical examination.

[Culture and characterization of and lentiviral vectors mediated glial cell derived neurotrophic factor expression in mesenchymal stem cells from human umbilical cord blood].

OBJECTIVE: To isolate and culture mesenchymal stem cells from umbilical cord blood (UCB-MSCs), study its biological characterization in vitro, transfect UCB-MSCs using lentiviral vectors encoding glial cell derived neurotrophic factor (GDNF) gene, evaluate the biological function change of UCB-MSCs, and detect GDNF expression level in vitro. METHODS: We isolated monocyte by Ficoll density gradient, separated two kinds of adherent cells through different trypsin digestion time, and detected the cells surface markers by fluorescence activated cell sorting when it was proliferated for P7 passages. At the same time, we sub-cloned GDNF gene into lentiviral vectors and packaged lentiviral supernatant through three plasmids co-transfection method, then transfected the UCB-MSCs using lentiviral vectors encoding GDNF at different multiplicity of infection, and evaluated the change of biological function by observing the ability of proliferation and differentiation, morphology, and the cells surface markers. We detected the GDNF mRNA and protein expression level by using real-time polymerase chain reaction (real-time PCR) and enzyme-link immunosorbent assay (ELISA). RESULTS: The UCB-MSCs were successfully isolated and cultured in vitro, and induced it to differentiate into fat cells. FACS results showed that the UCB-MSCs expressed CD90, CD73, and CD105 positively, and CD14, CD34, CD45, CD19, HLA-DR, Stro-1, and CD106 negatively. Real-time PCR and ELISA showed that the expressions of GDNF protein and mRNA were correlated with the copy number of transfected cells: high copy number of transfected cells were associated with high GDNF expression. The biological characterization of UCB-MSCs did not obviously change after sub-cloning with GDNF. CONCLUSIONS: UCB-MSCs was successfully isolated and cultured in vitro. By transfecting UCB-MSCs with GDNF gene-containing lentiviral vectors, the secretion of GDNF protein and mRNA expression level can be controlled by the copy number of transfected cells, and thus make it constantly express GDNF at high level.

[Different types of feeder cells for maintenance of human embryonic stem cells].

OBJECTIVE: To compare the effects of different types of feeder cells on supporting undifferentiation and high proliferation of human embryonic stem cells (hESC). METHODS: hESC were seeded on mouse embryonic fibroblasts (MEF), human marrow stromal cells (hMSC), and human foreskin fibroblasts (hFF), respectively. Colony number, cell quantity after digestion, and survival rate were observed by alkaline phosphatase (AP) staining and Trypan blue, and the biological properties of hESC after 5 passages were observed by immunofluorescence staining. RESULTS: Although all the three feeder layers could support the formation of hESC colonies and maintain pluripotency, the morphology of colonies on different feeder layers remarkably varied. The stage-specific embryonic antigen-3 and AP staining were positive on three types of feeders. The number of colonies, number of cells produced, and cell survival rates were significantly higher on MEF than on human feeder cells (P < 0.01). Furthermore, the number of AP-positive colonies and cell quantity were also significantly higher on hMSC than on hFF (P < 0.01). CONCLUSIONS: All three types of feeder cells are able to support the growth of hMSC, although MEF are more favourable for the proliferation. Two types of human feeder cells lay the foundation for the removal of animal-derived hESC culture system. hMSC is superior to hFF in supporting the proliferation of hESC.

[Ginsenoside-Rg1 inhibits cell apoptosis induced by beta amyloid].

OBJECTIVE: To investigate the effects of ginsenoside-Rg1 on the apoptosis induced by beta amyloid (Abeta) and mechanism thereof so as to search an approach to prevent and treat Alzheimer' s disease. METHODS: (1) Chinese hamster ovarian tumor cells of the line CHO unable to produce endogenous Abeta were cultured and randomly divided into 3 group: control group, Abeta25-35 group treated with Abeta25-35, and ginsenoside-Rg1 and Abeta25-35 group treated with ginsenoside-Rg1 of the concentrations of 10, 12.5, 25, 50, and 100 micromol/L respectively for 12 h and then treated with Abeta25-35. MTT method was used to dete4ct the survival rate of the CHO cells. (2) Chinese hamster ovarian tumor CHO cells transfected with mutant PSIM146L gene and wild type APP751 gene (mutant PSM146L/APP751 cells) stably producing excessive Abeta1-42 and wild type PSI cells were randomly divided into groups added with ginsenoside-Rg1 of the concentration of 25 micromol/L and groups without ginsenoside-Rg1. Annexin V-FITC/PI apoptosis kit and TUNEL kit were used to detect the apoptotic cells. Immunofluorescence staining was used to detect the protein expression levels of and caspase-3 that mediates the cell apoptosis induced by Abeta. Western blotting was used to detect the protein expression of caspase-3. RESULTS: Ginsenoside-Rg1 25, 5, and 100 micromol/L dose-dependently increased the cytoactivity level of the CHO cells (all P < 0.05) compared with that of the untreated cells. Annexin V-FIFC/PI test and TUNEL showed that the number of apoptotic cells of the mutant PSM146L cells was significantly higher than that off the wild type PSI cells (P < 0.05), and the number of apoptotic cells of the mutant PSM146L cells treated with ginsenoside-Rg1 was significantly lower than that of the un-treated cells (P < 0.05). Immunofluorescence staining showed that the expression site of Abeta was consistent with that of caspase-3, the protein expression levels of Abeta42 and caspase-3 of the PS1M146L/APP751 CHO cells treated with 25 micromol/L ginsenoside-Rg1 were both significantly lower than those of the untreated PS1M146L/APP751 CHO cells (P < 0.05). Western blotting showed that the active caspase-3 protein expression level of the PSIM146L cells was significantly higher than hat of the wild type PSI cells (P < 0.05) and the caspase-3 protein expression level of the PS1M146L/APP751 CHO cells treated with 25 micromol/L ginsenoside-Rg1 was significantly lower than that of the untreated PS1M146L/APP751 CHO cells (P < 0.05). CONCLUSION: Ginsenoside-Rg1 prevents cells from apoptosis through inhibiting the production of Abeta42 and decreasing the expression of the active caspase-3.

The tropism of embryoid body cells for glioma cells.

It has been demonstrated that several types of adult stem cells have a common attribute of tropism for gliomas. In our study, we provided evidence that embryonic stem cell-derived embryoid body (EB) cells also exhibited a tropism for gliomas. Chemotaxis assays and organotypic hippocampal slice culture experiments showed that EB cells were attracted by the conditioned medium from C6 glioma cells and by C6 glioma cells deposited on the slice. Aggregate culture assays showed that EB cells could coaggregate with C6 glioma cells. Embryoid body cells injected intratumorally were found to distribute throughout the tumor mass. All data indicated that EB cells displayed a tropism for gliomas.

[Comparisons among different methods of culturing neural stem cells isolated from human fetal cortex].

Neural stem cells (NSCs) are proved to be promising cell sources for gene therapy and cell therapy. To pursue optimal conditions for the isolation and culture of neural stem cells residing in human fetal cortex,the cortical tissue was dissociated mechanically and digested with various enzymes. Short-term trypsin digestion combined with pipette dissociation proved to be the suitable method of isolating human NSCs derived from the fetal cortex. Furthermore,DMEM/F12 medium was superior to the neurobasal medium in the aspect of clonal formation. In repeated dissociation experiments,it was found that accutase, instead of trypsin,endowed the NSCs with better growth and efficient neurosphere formation.