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  • A549 Cells Promote HUVEC Migration and Angiogenesis under Hypoxic Conditions

    ObjectiveTo observe the effects of A549 cells under hypoxicconditions on the migration of human umbilical vein endothelial cells (HUVECs) and microvascular formation. MethodsAfter cultured for 24 h in normoxia condition(21% O2),hypoxia condition (2% O2),and anaerobic condition (0% O2),respectively,morphology of A549 cells was observed with inverted phase contrast microscope,proliferation was detected by MTT assay,and intracellular hypoxia-inducible factor-1α (HIF-1α) protein was detected by immunocyto-chemical technique,for determining whether the hypoxia model is successful. Then A549 cells' supernatant in the normoxic group,the hypoxia group and HUVECs culture medium were taken to intervene HUVECs. The migration of HUVECs was observed with cell scratch test,pseudopodia formation of HUVECs was observed with microfilament green fluorescent staining method,and blood vessel formation was observed with three-dimensional culture techniques in vitro. ResultsCompared with the normoxic group,the growth of A549 cells was better in the hypoxia group with more proliferation,and was poor in the anaerobic group with decreased number of cells. A549 cells in the hypoxia group and the anaerobic group both expressed HIF-1α protein,which was more obvious in the anaerobic group. Compared with the HUVECs supernatant intervention group,the hypoxia supernatant intervention group and the normoxic supernatant intervention group both had varying degrees of migration,pseudopodia structure formation and vascular lumen sample structure formation,which were more obvious in the former group. ConclusionA549 cells in hypoxic environment grow very well,proliferated significantly,but anaerobic environment is not conducive to the growth of A549 cells which found to be apoptosis. A549 cells in hypoxic environment can promote HUVECs migration,pseudopodia formation and angiogenesis.

    Release date:2016-08-30 11:31 Export PDF Favorites Scan
  • The Expression of High Mobility Group Protein-B1 and Alpha-Smooth Muscle Actin in Lung Tissues of Pulmonary Fibrosis Mice

    Objective To investigate the expression of high mobility group protein-B1( HMGB1)and α-smooth muscle actin( α-SMA) in Bleomycin induced pulmonary fibrosis in mice. Methods Twenty C57BL/ 6 male mice were randomly divided into a Bleomycin group and a control group. The Bleomycin group was treated with Bleomycin( 3 mg/kg) by endotracheally injection to induce pulmonary fibrosis. The control group were treated with normal saline( NS) . Then they were sacrificed by abdominal aortic bleeding 10 days after the injection. The right lung was stained with hematoxylin-eosin and Masson trichrome respectively for pathological examination. Immunohistochemistry and RT-PCR were performed to identify the protein and mRNA levels of α-SMA and HMGB1 respectively. Results The mRNA( 0. 89 ±0. 12, 0. 61 ±0. 08) and protein( 13. 66 ±1. 01, 13. 12 ±1. 33) expressions of α-SMA and HMGB1 in the Bleomycin group were all significantly higher than those of the control group( mRNA: 0. 60 ±0. 07, 0. 15 ±0. 02; protein: 8. 18 ±1. 33,7. 92 ±1. 10; all P lt; 0. 01) . Conclusions The expressions of HMGB1 and α-SMA are increased in Bleomycin induced pulmonary fibrosis. HMGB1 participates in the pathological process of pulmonary fibrosis probably by activation of the α-SMA expression.

    Release date:2016-09-14 11:23 Export PDF Favorites Scan
  • Effects of Single Immunoglobin IL-1 Receptor Related Protein on Inflammation Induced by High Mobility Group Box 1 in A549 Cells

    Objective To identify the effects of single immunoglobin IL-1 receptor related protein (SIGIRR) on inflammation induced by high mobility group box 1 (HMGB1) in A549 derived from human alveolar epithelial cells. Methods Eukaryotic expression vectors pCDNA3.1(+) constructed with SIGIRR cDNA were transiently transfected into A549 cells,in which SIGIRR was forced to be over-expressed. Western blot and RT-PCR were applied to detect the expression level of SIGIRR after transfection. After the stimulation by HMGB1,the transcriptional activity of NF-κB in A549 cells was detected by dual-luciferase reporter assay system,and the protein levels of inflammatory cytokine TNF-α and IL-1β were measured by ELISA. Results The expression level of SIGIRR increased significantly in A549 cells transfected with SIGIRR vectors. The transcriptional activity of NF-κB was enhanced obviously after HMGB1 treatment in A549 cells by dual-luciferase reporter assay system,while the transfection of SIGIRR vectors decreased the activity. The protein levels of TNF-α and IL-1β were down-regulated in A549 cells over-expressing SIGIRR after HMGB1 stimulation compared with the non-transfected cells. Conclusions Up-regulated SIGIRR expression can inhibit HMGB1-induced proinlammatory cytokine release in A549 cells such as TNF-α and IL-1β. The transcriptional activity of NF-κB is dampened by SIGIRR transfection,implying that the anti-inflammatory effects of SIGIRR may be involved in the regulation of NF-κB.

    Release date:2016-08-30 11:58 Export PDF Favorites Scan
  • EFFECT OF CALCITONIN GENE-RELATED PEPTIDE ON PROLIFERATION AND MIGRATION OF HUMAN UMBILICAL VEIN ENDOTHELIAL CELLS

    Objective Tissue engineered bone implanted with sensory nerve can effectively promote angiogenesis and repair of bone defects. To investigate the effects of calcitonin gene-related peptide (CGRP) on proliferation and migration of human umbilical vein endothelial cells (HUVECs) for further revealing the mechanism of tissue engineered bone implanted with sensory nerve promoting angiogenesis. Methods HUVECs were collected from human umbilical core, and identified through von Willebrand factor (vWF) and CD31 immunofluorescence. The HUVECs were treated with CGRP and were ivided into 6 groups according to CGRP concentration: group A (0 mol/L), group B (1 × 10—12 mol/L), group C (1 × 10—11 mol/L), group D (1 × 10—10 mol/L), group E (1 × 10—9 mol/L), and group F (1 × 10—8 mol/L). The expression of the CGRP1 receptor (CGRP1R) was observed in HUVECs by cell immunofluorescence. The growth rate of HUVECs was detected through AlarmarBlue at 1, 2, 3, 4, and 5 days. Transwell chamber was used to detect the abil ity of cell migration. ELISA assay was used to detect the vascular endothel ial growth factor (VEGF) secretion and the protein expression of focal adhesion kinase (FAK) was examined using Western blot. Results HUVECs were identified through morphology, vWF and CD31 immunofluorescence. HUVECs expressed CGRP1R. CGRP could stimulate HUVECs prol iferation in a time- and concentration-dependent manners; the cell growth rates of groups B-F were significantly higher than that of group A at all time (P lt; 0.05); group F had highest cell growth rate. The number of cell migration of group B-F was significantly higher than that of group A (P lt; 0.05), which increased more than 3 times. Groups B-F had higher amount of VEGF than group A (P lt; 0.05), and groups C and D had highest amount of VEGF. FAK expression of groups B-F was significantly increased at 3, 7, and 10 days after CGRP treatment when compared with group A (P lt; 0.05). Conclusion CGRP may enhance the proliferation and migration of HUVECs by increasing the secretion of VEGF and expression of FAK.

    Release date:2016-08-31 04:23 Export PDF Favorites Scan
  • CALCITONIN GENE-RELATED PEPTIDE PROMOTING MIGRATION OF RAT BONE MARROW MESENCHYMAL STEM CELLS AND STIMULATING EXPRESSION OF VASCULAR ENDOTHELIAL GROWTH FACTOR

    Objective To explore the effects of calcitonin gene-related peptide (CGRP) on the migration of bone marrow mesenchymal stem cells (BMSCs) and vascular endothel ial growth factor (VEGF) expression in vitro. Methods TheBMSCs were isolated from Sprague Dawley rats using whole bone marrow adherence method. At 1, 2, and 3 weeks after culture, the expressions of CGRP receptor (CGRPR) was detected by Western blot. The BMSCs were treated with CGRP at concentration 1 × 10-8 mol/L (experimental group) and did not treated (control group), and the efficacy of BMSCs migration was analyzed by Transwell chamber assay after 72 hours; at 1, 3, 5, and 7 days, the mRNA expressions of vascular cell adhesion molecule 1 (VCAM-1) were detected by real-time fluorescent quantitative PCR; the protein expressions of VEGF were examined using immunohistochemistry and Western blot. Results CGRPR expressed stably in the cultured BMSCs and reached the peak at 2 weeks. CGRP had a significantly enhanced role in promoting cell migration. The number of cell migration was (3.20 ± 1.77) cells/HP in experimental group and (1.11 ± 0.49) cells/HP in control group, showing significant difference (t=4.230, P=0.001). In experimental group, the expressions of VCAM-1 mRNA increased with time and reached the peak at 7 days. There were significant differences in the expressions of VCAM-1 mRNA between control group and experimental group at 3, 5, and 7 days (P lt; 0.05). Immunocytochemistry results showed positive DAB staining for VEGF at 5 and 7 days in experimental group. Western blot results showed that the protein expressions of VEGF increased significantly at 5 and 7 days in experimental group when compared with control group (P lt; 0.05), which was signfiantly higher at 5 days than at 7 days in experimental group (P lt; 0.05). Conclusion CGRP can promote the migration of BMSCs and stimulate the protein expression of VEGF, which may plays an important role in regulating bone metabol ism by increasing angiogenesis.

    Release date:2016-08-31 05:42 Export PDF Favorites Scan
  • EFFECTS OF ESTROGEN ON PROLIFERATION AND MIGRATION OF HUMAN EPIDERMAL STEM CELLS IN VITRO

    Objective In vivo, the microenvironment of epidermal stem cells (ESCs) is complex, and estrogen might be involved in the micro environment. To investigate the biological effects of estrogen on the prol iferation and migration of ESCs in vitro. Methods hESCs were isolated from normal human foreskin and cultured. The second generation of hESCs were identified with flow cytometry after being marked with integrin β1, cytokeratin 19 (CK19), CK14, and CK10 antigens.hESCs of 2 × 106 cell density were cultured with ESCs special medium supplemented with 0.1 nmol/L Diethylstilbestrol in group A (estrogen group), with ESCs special medium supplemented with 10 nmol/L Raloxifene hydrochloride in group B (ER blocking agent group), and with ESCs special medium in group C (control group), respectively. The 100 μm “scratch” wounds were created by scraping confluent hESCs plated on Petri dishes with a sterile pipette tip in vitro. The migrating cells from the wound edge were quantified at 24, 48, and 72 hours after incubation. The rates of wound heal ing were calculated by SigmaScan Pro 5.0 software at 72 hours. The prol iferating effect of estrogen on hESCs was determined with MTT method at 24, 48, 72, 96, and 120 hours. Results Cultured primary hESCs could adhere to the wall showing ovoid in shape and grew into colonies. Flow cytometry showed the positive results for integrin β1, CK19, and CK14 (with positive rate of 96.63%, 95.47%, and 94.27%, respectively) and the negative result for CK10 (with positive rate of 1.32%). In group A, the number of cells crossing the wound edge was more than those of group B and group C at 24, 48, and 72 hours. The rates of wound heal ing were 69.00% ± 0.05% in group A, 35.00% ± 0.05% in group B, and 48.00% ± 0.06% in group C at 72 hours, showing significant differences among groups (P lt; 0.05). The prol iferating speed of hESCs was significantly higher in group A than in groups B and C (P lt; 0.01), and significantly higher in group C than in group B (P lt; 0.01) at 24, 48, 72, 96, and 120 hours. Conclusion The estrogen can promote the prol iferation and migration of hESCs in vitro. It may be involved in many biological activity of skin.

    Release date:2016-08-31 05:42 Export PDF Favorites Scan
  • EXPERIMENTAL STUDY ON EFFECT OF MONOCYTE CHEMOATTRACTANT PROTEIN 1 ON MIGRATION OF INDUCED AND DIFFERENTIATED MOUSE BONE MARROW MESENCHYMAL STEM CELLS IN VITRO

    Objective To investigate the effect of monocyte chemoattractant protein 1 (MCP-1) on the migration of the induced and differentiated mouse bone marrow mesenchymal stem cells (BMSCs) for raising the efficacy of intravenous transplantation of BMSCs. Methods The BMSCs were cultured with the method of differential adhesion and density gradient centrifugation of C57/BL10 mice, and were identified by alkal ine phosphatase Gomori modified staining after osteogenic inducing. At the 3rd passage, the BMSCs were induced to the myoblasts with 5-azacytidine (5-Aza). The chemotaxis of MCP-1 in the induced and differentiated BMSCs in vitro at concentrations of 25, 50, 100, 200, and 400 ng/mL was observed through the migration test, by counting the number of the migrated cells. The expression of the chemokine receptor 2 (CKR-2) in the induced and differentiated BMSCs was detected with the flow cytometry. Results The cells could be cultured with the methods of differential adhesion and density gradient centrifugation and still had higher prol iferative and differentiative potency; the induced cells at the 3rd passage could differenciate to the osteoblasts, confirming that the cells were BMSCs; the myogenic induced BMSCs possesed the sarcotubule structure. The number of the migrating BMSCs at MCP-1 concentrations of 25-400 ng/ mL were respectively 35.066 7 ± 6.584 2, 43.200 0 ± 6.460 8, 44.466 7 ± 4.823 5, 45.600 0 ± 8.650 3, and 50.733 3 ± 7.582 5; showing significant difference when compared with control group (28.333 3 ± 8.917 6, P lt; 0.05), and presenting significant difference among 25, 50, 400 ng/mL groups compared with each other (P lt; 0.05). The expression of CKR-2 in the mouse BMSCs (48.0%) was significantly higher (P lt; 0.001) than those of blank control (0.6%) and negative control (17.0%). Conclusion The results indicate that the MCP-1 can induce the migration of mouse BMSCs by MCP-1/CKR-2 pathway.

    Release date:2016-08-31 05:48 Export PDF Favorites Scan
  • CYTOBIOLOGICAL EFFECT OF ADIPOSE-DERIVED STEM CELLS TREATED WITH INSULIN ON HaCaT CELLS

    To isolate and culture adi pose-derived stem cells (ADSCs), and to study the effects of the conditioned medium of ADSCs (ADSC-CM) treated with insul in on HaCaT cells. Methods ADSCs were isolated from adipose tissue donated by the patient receiving abdominal surgery and were cultured. The concentration of ADSCs at passage 3 was adjusted to 5 × 104 cells/mL. The cells were divided into 2 groups: group A in which the cells were incubated in 1 × 10-7 mol/ Linsul in for 3 days, and group B in which the cells were not treated with insul in. ADSC-CM in each group was collected 3 days after culture, then levels of VEGF and hepatocyte growth factor (HGF). HaCaT cells were cultured and the cells at passage 4 were divided into 4 groups: group A1, 0.5 mL 2% FBS and 0.5 mL ADSC-CM from group A; group B1, 0.5 mL 2% FBS and 0.5 mL ADSC-CM from group B; group C1, 1 mL 2% FBS of 1 × 10-7 mol/ L insul in; group D1, 1 mL 2%FBS. Prol iferation of HaCaT cells was detected by MTT method 3 days after culture, apoptosis rate of HaCaT cells was measured by Annexin V-FITC double staining 12 hours after culture, and the migration abil ity was measured by in vitro wound-heal ing assay 0, 12, 24, 36 and 48 hours after culture. Results The level of VEGF in groups A and B was (643.28 ± 63.57) and (286.52 ± 46.68) pg/mL, respectively, and the level of HGF in groups A and B was (929.95 ± 67.52) and (576.61 ± 84.29) pg/mL, respectively, suggesting differences were significant between two groups (Plt; 0.05). Cell prol iferation detection showed the absorbance value of HaCaT cells in group A1, B1, C1 and D1 was 0.881 ± 0.039, 0.804 ± 0.041, 0.663 ± 0.027 and 0.652 ± 0.042, respectively, suggesting there was significant difference between groups A1 and B1 and groups C1 and D1 (P lt; 0.01), group A1 was significantly higher than group B1 (P lt; 0.05). The apoptosis rate of HaCaT cells in groups A1, B1, C1 and D1 was 5.23% ± 1.98%, 8.82% ± 2.59%, 31.70% ± 8.85% and 29.60% ± 8.41%, respectively, indicating there was significant difference between groups A1 and B1 and groups C1 and D1 (P lt; 0.05), group B1 was significantly higher than group A1 (P lt; 0.05). The migration distance of HaCaT cells in groups A1, B1,C1 and D1 at 36 hours was (0.184 6 ± 0.019 2), (0.159 8 ± 0.029 4), (0.059 2 ± 0.017 6) and (0.058 2 ± 0.012 3) mm, respectively, whereas at 48 hours, it was (0.231 8 ± 0.174 0), (0.205 1 ± 0.012 1), (0.079 2 ± 0.008 1) and (0.078 4 ± 0.011 7) mm, respectively, suggesting there were significant differences between groups A1 and B1 and groups C1 and D1 at 36 and 48 hours (P lt; 0.01), group A1 was significantly higher than group B1 (P lt; 0.05) at 36 and 48 hours, no significant difference was evident at other time points(P gt; 0.05). Conclusion ADSCs treated with insul in can significantly promote the prol iferation and the migration of HaCaT cells and inhibit their apoptosis.

    Release date:2016-09-01 09:07 Export PDF Favorites Scan
  • STUDY ON SURVIVAL TIME OF AUTOGENEIC BMSCs LABELED WITH SUPERPARAMAGNETIC IRON OXIDE IN RABBIT INTERVERTEBRAL DISCS

    Objective To explorer the survival time of autogeneic BMSCs labeled by superparamagnetic iron oxide (SPIO) in rabbit intervertebral discs and the rule of migration so as to prove bases of gene therapy preventing intervertebral disc degeneration. Methods Twelve rabbits were used in this experiment, aged 8-10 weeks, weighing 1.5-2.0 kg and neglecting their gender. BMSCs were separated from rabbits bone marrow by density gradient centrifugation and cultivated, and the 3rd generation of BMSCs were harvested and labeled with SPIO, which was mixed with poly-l-lysine. The label ing efficiency was evaluated by Prussian blue staining and transmission electron microscope. Trypanblau stain and MTT were performed to calculate the cell’ s activity. Rabbits were randomly divided into experimental group (n=8) and control group (n=4), the labeled BMSCs and non-labeled BMSCs (5 × 105/mL) were injected into their own intervertebral discs (L1,2, L2,3, L3,4 and L4,5), respectively. At 2, 4, 6 and 8 weeks, the discs were treated with Perl’s fluid to observe cell survival and distribution. Results The label ing efficiency of BMSCs with SPIO was 95.65% ± 1.06%, the cell activity was 98.28% ± 0.85%. There was no statistically significant difference in cell prol iferation within 7 days between non-labeled and labeled cells (P gt; 0.05). After 8 weeks of operation, the injected cells was al ive. ConclusionLabeled BMSCs with SPIO is feasible in vitro and in vivo, and the cells can survive more than 8 weeks in rabbit discs.

    Release date:2016-09-01 09:08 Export PDF Favorites Scan
  • EFFECTS OF NGF ON PROLIFERATION, MITOTIC CYCLE, COLLAGEN SYNTHESIS AND MIGRATION OF HUMAN DERMAL FIBROBLASTS IN VITRO

    Objective To investigate the effects of NGF on the prol iferation, mitotic cycle, collagen synthesis and migration of human dermal fibroblasts (HDFs), and to explore the function of NGF on the wound heal ing. Methods The 3rd generation of HDFs were incubated with various concentrations of NGF (0, 25, 50, 100, 200 and 400 ng/mL), the cell prol iferation was measured with MTT assay. After treated with NGF at 0, 100 ng/mL, the cell cycle of HDFs was determined by flow cytometry (FCM). Hydroxyprol ine and real-time fluorescence quantitative PCR (FQ-PCR) were used to measure collagen synthesis at protein level and mRNA level respectively. The in vitro cell scratch wound model was set up to observe the effect of NGF (0, 50, 100 and 200 ng/mL) on the migration of HDFs after 24 hours of culture. Results Absorbance value of HDFs for different concentrations of NGF (0, 25, 50, 100, 200, and 400 ng/ mL) showed that NGF did not influence the prol iferation of HDFs (P gt; 0.05). When HDFs were treated with NGF at 0 and 100 ng/mL, the result of FCM analysis showed that percentage of HDFs in G0/G1, S, G2/M phases were not changed (P gt; 0.05). Compared with control group, the expression of Col I and Col III were not significantly different, measured by both hydroxyprol ine and FQ-PCR (P gt; 0.05). The rates of HDFs’ migration at various concentrations of NGF (0, 50, 100, 200 ng/ mL) were 52.12% ± 6.50%, 80.67% ± 8.51%, 66.33% ± 3.58%, and 61.19% ± 0.97%, respectively, indicating that NGF could significantly enhanced the migration of HDFs at 50 and 100 ng/mL (P lt; 0.05). Conclusion NGF does not influence prol iferation, mitotic cycle and collagen synthesis of HDFs, but significantly enhanced migration in an in vitro model of wounded fibroblasts.

    Release date:2016-09-01 09:08 Export PDF Favorites Scan
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