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Objective To investigate the effect of long non-coding RNA (lncRNA) alpha-2-macroglobulin antisense RNA 1 (A2M-AS1) targeting microRNA (miR) -106b-5p on oxidized low-density lipoprotein (ox-LDL) -induced injury of human brain microvascular endothelial cells. Methods Human brain microvascular endothelial cells (ox-LDL group) were induced by ox-LDL, normal cultured cells were control group (Ctrl); A2M-AS1 overexpression (pcDNAA2M-AS1 group), empty vector (pcDNA group), miR-106b-5p inhibitor (anti-miR-106b-5p group), negative control (anti-miR-NC group), pcDNA-A2M-AS1 with control mimic NC (miR-NC group), pcDNA-A2M-AS1 with miR-106b-5p mimic (miR-106b-5p mimics group) were transfected into cells and treated with ox-LDL, n = 9. Real-time PCR was used to detect the expression levels of A2M-AS1 and miR-106b-5p; Kits were used to detect malondialdehyde (MDA), superoxide dismutase (SOD), catalase (CAT)); Flow cytometry and TUNEL detected apoptosis; Dual luciferase reporter gene assay detected A2M-AS1 and miR-106b-5p targeting; Western blotting detected Bcl-2 and Bax protein expression. Results Compared with the Ctrl group, the expression level of A2M-AS1 in the ox-LDL group decreased, and the activity of SOD and CAT and the protein level of Bcl-2 decreased (P<0.05), while the expression level of miR-106b-5p and the level of MDA increased (P<0.05), and the rate of apoptosis and the protein level of Bax increased (P<0.05). Overexpressing A2M-AS1 or interfering with miR-106b-5p decreased the MDA level, apoptosis rate and Bax protein level after ox-LDL-induced cells, and increased SOD, CAT activity and Bcl-2 protein level (P<0.05). A2M-AS1 targeted miR-106b-5p; upregulation of miR-106b-5p reversed the effect of overexpressed lncRNA A2M-AS1 on ox-LDL-induced injury of human brain microvascular endothelial cells (P < 0.05). Conclusion A2M-AS1 attenuates ox-LDL-induced injury of human brain microvascular endothelial cells by targeting miR-106b-5p.
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AIM:To clarify the effect of miR-519d-3p on high glucose-induced human retinal microvascular endothelial cells(HRMEC)dysfunction and angiogenesis, and to elucidate the regulatory mechanism of miR-519d-3p on hypoxia inducible factor 1 subunit alpha(HIF-1α).METHODS: The normal glucose(NG)and high glucose(HG)cell models were established by inducing HRMEC with 5 and 30 mmol/L glucose, respectively. Control group: HG cell model was transfected with negative control mimics; mannitol group: the control group was added with 25 mmol/L mannitol; miR-519d-3p overexpression group: HG cell model was transfected with miR-519d-3p mimics; miR-519d-3p combined with HIF-1α overexpression group: HG cell model was co-transfected with miR-519d-3p mimics and HIF-1α overexpression vector. The expression of miR-519d-3p in each group was tested by real-time fluorescence quantitative PCR. The expression of HIF-1α protein in each group was tested by Western blotting. The binding sites between miR-519d-3p and HIF-1α were detected by luciferase reporter gene assay. The cell proliferation of each group was detected by CCK-8. The cell apoptosis of each group was tested by Hoechst 33342 staining. The protein expression of extracellular fluid inflammatory factors tumor necrosis factor-α(TNF-α), interleukin(IL)-1β and IL-6 in each group was tested by ELISA. The formation of new capillary lumen-like structures was detected by tubule formation assay.RESULTS: Compared with the NG, miR-519d-3p expression was significantly reduced in the HG cell model, while HIF-1α protein expression was significantly increased in the HG(all P<0.01). Compared with the control group, HIF-1α protein expression was significantly reduced in the miR-519d-3p overexpression group(P<0.01). The “CGUGAAA” sequence of miR-519d-3p could specifically bind to the “GCACUUU” sequence of HIF-1α 3'-untranslated region(3'-UTR). Compared with the control group, the miR-519d-3p overexpression group showed a significant increase in 24, 48 and 72h absorbance values, a significant decrease in cell apoptotic rate, a significant decrease in the concentrations of TNF-α, IL-1β and IL-6, and a significant decrease in the number of new capillary lumen-like structures(all P<0.01). Compared with the miR-519d-3p overexpression group, the miR-519d-3p combined with HIF-1α overexpression group showed a significant decrease in 24, 48 and 72h absorbance values, a significant increase in cell apoptotic rate, a significant increase in the concentrations of TNF-α, IL-1β and IL-6, and a significant increase in the number of new capillary lumen-like structures(all P<0.01). There was no difference between the control group and mannitol group in the comparison of the above indicators(all P>0.05).CONCLUSION: miR-519d-3p expression is down-regulated while HIF-1α protein expression is up-regulated in high glucose induced HRMEC model. HIF-1α is a target gene of miR-519d-3p. The miR-519d-3p targets HIF-1α to increase cell proliferation and reduce cell apoptosis and inflammation, thereby alleviating high glucose-induced HRMEC dysfunction and inhibiting angiogenesis.
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Abstract Angiotensin II (AngII) causes endothelial dysfunction. Eucommia ulmoides extract (EUE) is documented to manipulate AngII, but its impact on cardiac microvascular endothelial cell (CMVEC) function remains unknown. This study determines the effects of EUE on AngII-treated CMVECs. CMVECs were treated with different concentrations of AngII or EUE alone and/or the p53 protein activator, WR-1065, before AngII treatment, followed by examinations of the apoptotic, migratory, proliferative, and angiogenic capacities and nitric oxide (NO), p53, von Willebrand factor (vWF), endothelin (ET)-1, endothelial NO synthase (eNOS), manganese superoxide dismutase (MnSOD), hypoxia-inducible factor (HIF)-1α, and vascular endothelial growth factor (VEGF) levels. AngII induced CMVEC dysfunction in a concentration-dependent manner. EUE enhanced the proliferative, migratory, and angiogenic capacities and NO, MnSOD, and eNOS levels but repressed apoptosis and vWF and ET-1 levels in AngII-induced dysfunctional CMVECs. Moreover, AngII increased p53 mRNA levels, p-p53 levels in the nucleus, and p53 protein levels in the cytoplasm and diminishes HIF-1α and VEGF levels in CMVECs; however, these effects were counteracted by EUE treatment. Moreover, WR-1065 abrogated the mitigating effects of EUE on AngII-induced CMVEC dysfunction by activating p53 and decreasing HIF-1α and VEGF expression. In conclusion, EUE attenuates AngII-induced CMVEC dysfunction by upregulating HIF-1α and VEGF levels via p53 inactivation
Subject(s)
Eucommiaceae/adverse effects , Plant Extracts/adverse effects , Endothelial Cells/classification , Vascular Endothelial Growth Factor A/analysisABSTRACT
Objective:To explore the change of blood-brain barrier (BBB) permeability in septic rats.Methods:A rat model of sepsis was established by cecal ligation and puncture. Rats were randomly (random number) grouped according to the intervention time: sham-operated group, sepsis 1-day group, sepsis 4-day group, and sepsis 7-day group. Fluorescein sodium was used to test the permeability of the BBB. Western blot and immunofluorescence methods were applied to detect the expression of tight junction proteins including Claudin-5, Occludin and ZO-1.Results:Compared with the sham-operated group, rats in the sepsis group presented quick breath, slow response, decreased intake of food and water, obvious abdominal distension and loose stools. After abdominal anatomy of sepsis rats, we found mesenteric adhesions, dilatation of proximal intestinal, black cecum ligation site with purulent exudate, enlarged liver and diffused bloody exudate. Compared with the sham-operated group, body weight of sepsis rats was reduced remarkably ( P < 0.05). The body weight of rats of sepsis 7-day group was the lowest, which was significantly lower than that of rats of sepsis 4-day group ( P< 0.05) and 1-day group ( P< 0.05). Compared with the sham-operated group, the content of fluorescein sodium in sepsis 1-day rats was increased remarkably ( P< 0.05). The content of fluorescein sodium in rats of sepsis 7-day group was the highest, which was significantly higher than that in rats of sepsis 4-day group ( P< 0.05) and 1-day group ( P< 0.05). Compared with the sham-operated rats, the expression of Claudin-5, Occludin and ZO-1 in sepsis rats were decreased remarkably (all P < 0.05). The expression of Claudin-5, Occludin and ZO-1 were the lowest in rats of the sepsis 7-day group, which were significantly decreased than those of rats in the sepsis 4-day group (all P< 0.05) and rats in sepsis 1-day group (all P < 0.05). Conclusions:Sepsis rats showed increased permeability of the BBB, and the permeability of BBB increased continuously along with the duration of sepsis.
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Objective To determine the expression pattern of carbohydrate chains in two kinds of microvascular endothelial cells (MVECs). Methods Rat jejunal mucosal MVECs were thawed, and lung tissues were removed from specific pathogen free piglet of 3 days old to isolate and culture porcine pulmonary MVECs by collagerase digestion and differential attachment. By lectin cytochemistry, staining of 8 lectins including concanavalin A (Con A), phaseolus vulgaris erythroagglutinin (PHA-E), ricinus communis agglutinin I (RCA-I), lycopersicon esculentum lectin (LEL), sambucus nigra lectin (SNA), ulex europaeus agglutinin I (UEA-I), wheat germ agglutinin (WGA) and dolichos biflorus agglutinin (DBA) was detected in rat jejunal mucosal and porcine pulmonary MVECs. Results In rat jejunal mucosal MVECs, strong positve staining was present for Con A, WGA and LEL, medium one for PHA-E N SNA and RCA-I, weak one for DBA, and negative staining for UEA-I. In porcine pulmonary MVECs, strong positive staining was present for Con A and PHA-E, medium one in RCA-I, weak one for LEL and SNA, and negative staining for UEA-I, WGA and DBA. Conclusion The carbohydrate patterns in two kinds of MVECs display significant heterogeneity. Both rat jejunal mucosal and porcine pulmonary MVECs express mannose, galactose, 1, 3-N-acetylglucosamine and sialic acid at different levels. N-acetylglucosamine and N-acetylgalactosamine are detected in the former but not in the latter, and fucose do not in both MVECs.
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【Objective】 To investigate the relationship between cerebrospinal fluid exosome-derived miR-630 and the function of brain microvascular endothelial cells (BMECs). 【Methods】 The subarachnoid hemorrhage endothelial cell model was established to evaluate the effect of hemorrhagic cerebrospinal fluid (BCSF) on BMECs’ proliferation by MTT assay and cell cycle analysis. qRT-PCR and immunofluorescence staining were used to detect the expressions of endothelial cell tight junction protein (ZO-1) and adhesion molecule (ICAM-1 and VCAM-1). Changes in NOx concentration were detected by radioimmunoassay. The cerebrospinal fluid exosomes in the experimental group (co-incubated with BCSF) and the control group (normal cerebrospinal fluid) were isolated and identified, and differences in the expressions of cerebrospinal fluid exosomal miR-630 between the two groups were compared. BMECs work changes after the intervention with miR-630 analogue were observed. 【Results】 The proliferation of BMECs was significantly inhibited in the experimental group; the mRNA and protein levels of ICAM-1, VCAM-1 and ZO-1 were significantly decreased, and the function of endothelial cells was significantly inhibited (P<0.05). After the successful separation and identification of cerebrospinal fluid exosomes, the expression of miR-630 was significantly lower in the experimental group than in the control group (P<0.05). The function of BMECs was significantly improved with miR-630 mimics. 【Conclusion】 The low expression of miR-630 in cerebrospinal fluid exosomes after subarachnoid hemorrhage is closely related to BMECs injury.
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OBJECTIVES@#To study the role of adrenomedullin (ADM) in hyperoxia-induced lung injury by examining the effect of ADM on the expression of calcitonin receptor-like receptor (CRLR), receptor activity-modifying protein 2 (RAMP2), extracellular signal-regulated kinase (ERK), and protein kinase B (PKB) in human pulmonary microvascular endothelial cells (HPMECs) under different experimental conditions.@*METHODS@#HPMECs were randomly divided into an air group and a hyperoxia group (@*RESULTS@#Compared with the air group, the hyperoxia group had significant increases in the mRNA and protein expression levels of ADM, CRLR, RAMP2, ERK1/2, and PKB (@*CONCLUSIONS@#ERK1/2 and PKB may be the downstream targets of the ADM signaling pathway. ADM mediates the ERK/PKB signaling pathway by regulating CRLR/RAMP2 and participates in the protection of hyperoxia-induced lung injury.
Subject(s)
Humans , Adrenomedullin/genetics , Endothelial Cells , Hyperoxia/complications , Lung Injury , Receptor Activity-Modifying ProteinsABSTRACT
Purpose To clarify the effect of adenosine on brain metastasis of lung cancer and the possible mechanism of adenosine promoting brain metastasis of lung cancer. Methods Western blot was used to dynamically detect the expression level of hypoxia inducible factor-1 (HIF-1) in lung cancer cells and tight junction protein ZO-1 in brain microvascular endothelial cells on blood-brain barrier. The content of adenosine in lung cancer cell culture was determined by ELISA. Fluorescence analysis was used to detect the changes of permeability of the blood-brain barrier model in vitro. Hemocytometer counts the number of A549 lung cancer cells in Transwell's lower chamber. Results The expression level of HIF-1 in lung cancer cells and the content of adenosine in lung cancer cell culture reached the highest level when lung cancer cells were deprived of oxygen for 12 hours. At the same time, the expression level of ZO-1 protein in the blood-brain barrier was the lowest, the blood-brain barrier permeability was the highest (7.11), and the number of lung cancer cells passing through the blood-brain barrier model was the highest (84.6). The permeability of the blood-brain barrier model increased after the action of adenosine, and its change trend was consistent with the effect of hypoxic lung cancer cell culture solution. Conclusion Hypoxia can induce the lung cancer cell to release adenosine, the increased adenosine can reduce the expression of tight junction protein ZO-1 in blood brain barrier, which leads to the increase of permeability of blood-brain barrier and eventually lead to brain metastasis of lung cancer.
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Objective To explore the impact of Hedgehog protein on human retinal microvascular endothelial cell(HRMEC) and its signaling pathway. Methods The cultured HRMECs were divided into normal control group,0. 5μmol/L agonist group and 1. 0μmol/L agonist group,and were cultured in medium with final concentration of 0,0. 5 and 1. 0μmol/L Hedgehog agonist,respectively;HRMECs cultured in high glucose medium were divided into high glucose control group,1. 5μmol/L inhibitor group and 2. 5μmol/L inhibitor group. Erismodegib,the Smoothed inhibitor with final concentration of 0,1. 5 and 2. 5 μmol/L was added into corresponding group,respectively. MTS method and Transwell cell migration method were used to detect the proliferation( A490 value) and relative mobility of HRMEC. The phosphorylation of PLCγ1, Akt and Erk proteins were detected by Western blot. Results The relative expression of Hedgehog protein in the high glucose control group was 6. 24±0. 11,which was significantly higher than 1. 00±0. 00 in the normal control group(t=667. 573,P<0. 001). The A490 value was 1. 349±0. 050 and 1. 422±0. 053,and the relative mobility rate was 2. 34±0. 14 and 3. 59±0. 32 in the 0. 5μmol/L agonist group and the 1. 0μmol/L agonist group, respectively, which were significantly higher than 1. 203 ± 0. 101 and 1. 00 ± 0. 00 in the normal control group(all at P<0. 01). The A490 value was 0. 849±0. 010 and 0. 737±0. 030,and the relative mobility rate was 0. 43 ± 0. 02 and 0. 27 ± 0. 01 in the 1. 5 μmol/L inhibitor group and the 2. 5 μmol/L inhibitor group, respectively,which were significantly lower than 1. 000±0. 040 and 1. 00±0. 00 in the high glucose control group(all at P<0. 01). The phosphorylation ratios of PLCγ1,Akt and Erk in the 0. 5μmol/L agonist group and the 1. 0μmol/L agonist group were significantly higher than those in the normal control group ( all at P<0. 01 ) . The phosphorylation ratios of PLCγ1,Akt and Erk in the 1. 5μmol/L inhibitor group and the 2. 5μmol/L inhibitor group were significantly lower than those in the high glucose control group ( all at P<0. 01 ) . Conclusions High glucose induces the expression of Hedgehog protein in HRMEC. Hedgehog protein may regulate the function of HRMEC by regulating the phosphorylation of PLCγ1,Akt and Erk in G Protein-coupled receptors pathway.
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Objective@#To explore the impact of Hedgehog protein on human retinal microvascular endothelial cell(HRMEC)and its signaling pathway.@*Methods@#The cultured HRMECs were divided into normal control group, 0.5 μmol/L agonist group and 1.0 μmol/L agonist group, and were cultured in medium with final concentration of 0, 0.5 and 1.0 μmol/L Hedgehog agonist, respectively; HRMECs cultured in high glucose medium were divided into high glucose control group, 1.5 μmol/L inhibitor group and 2.5 μmol/L inhibitor group.Erismodegib, the Smoothed inhibitor with final concentration of 0, 1.5 and 2.5 μmol/L was added into corresponding group, respectively.MTS method and Transwell cell migration method were used to detect the proliferation(A490 value)and relative mobility of HRMEC.The phosphorylation of PLCγ1, Akt and Erk proteins were detected by Western blot.@*Results@#The relative expression of Hedgehog protein in the high glucose control group was 6.24±0.11, which was significantly higher than 1.00±0.00 in the normal control group(t=667.573, P<0.001). The A490 value was 1.349±0.050 and 1.422±0.053, and the relative mobility rate was 2.34±0.14 and 3.59±0.32 in the0.5 μmol/L agonist group and the 1.0 μmol/L agonist group, respectively, which were significantly higher than 1.203±0.101 and 1.00±0.00 in the normal control group(all at P<0.01). The A490 value was 0.849±0.010 and 0.737±0.030, and the relative mobility rate was 0.43±0.02 and 0.27 ±0.01 in the 1.5 μmol/L inhibitor group and the 2.5 μmol/L inhibitor group, respectively, which were significantly lower than 1.000±0.040 and 1.00±0.00 in the high glucose control group(all at P<0.01). The phosphorylation ratios of PLCγ1, Akt and Erk in the 0.5 μmol/L agonist group and the 1.0 μmol/L agonist group were significantly higher than those in the normal control group(all at P<0.01). The phosphorylation ratios of PLCγ1, Akt and Erk in the 1.5 μmol/L inhibitor group and the 2.5 μmol/L inhibitor group were significantly lower than those in the high glucose control group(all at P<0.01).@*Conclusions@#High glucose induces the expression of Hedgehog protein in HRMEC.Hedgehog protein may regulate the function of HRMEC by regulating the phosphorylation of PLCγ1, Akt and Erk in G Protein-coupled receptors pathway.
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Objective To investigate the effects of downregulated pregnane X receptor (PXR)on expression and activity of P-glycoprotein(P-gp)in mouse brain microvascular endothelial cells (mBMEC)exposed to glutamate (GLU)to mimic conditions during seizures. Methods The bEnd.3 cells,were cultured in vitro and treated with culture medium containing 0 μmol,10 μmol,50 μmol,100 μmol GLU for 30 min and exposed to 100 μM GLU for different durations (0 min,15 min,30 min). With PXR knockdown using siRNA,the cells were divided into NC siRNA plus GLU group and siRNA-PXR plus GLU group. Western blotting was used to detect the protein expressions of P-gp and PXR in each group. Immunofluorescence assay was used to detect localization of PXR in cells. The expression of P-gp mRNA was detected by RT-qPCR. Rhodamine123 (Rh123)accumulation assay was used to study the activity of the P-gp in cells.Results PXR and P-gp protein expressions in the 50 μmol and 100 μmol GLU group were significantly higher than that in the blank group(P<0.05),especially maximal expressions occurred in the 100 μmol GLU group. GLU exposures as short as 15 min and 30 min significantly increased PXR expressions(all P<0.05);P-gp expression in the 30 min groups was higher than that in the blank group (P<0.05 ). The data of immunofluorescence analysis suggested that the PXR nuclear accumulation increased in the 100 μM GLU group, compared with the blank group(P<0.05). Compared with NC siRNA plus GLU group,the protein level of PXR was decreased by approximately 37%[(1.00 ± 0.00)vs(0.63 ± 0.18);t=3.41,P=0.02]and the levels of P-gp protein and mRNA were respectively decreased by 43%[(1.00 ± 0.00)vs (0.57 ± 0.09);t=7.94,P=0.00] and 52%[(1.00 ± 0.04)vs (0.48 ± 0.08);t =10.98,P=0.00]in the siRNA-PXR plus GLU group. The fluorescence intensity of intracellular Rh123 in the GLU group (0.72 ± 0.01)was lower than that in the blank group [(1.00 ± 0.03);t =9.66,P=0.00]. The fluorescence intensity of Rh123 in the GLU plus verapamil (P-gp inhibitor)group (1.07 ± 0.04)was higher than that in the GLU group (t= -11.93,P=0.00). The fluorescence intensity of Rh123 in the siRNA-PXR plus GLU group (0.91 ± 0.03)was higher than that in the NC siRNA plus GLU group[(0.69 ± 0.05);t= -7.52,P=0.00]. Conclusions Downregulation of PXR expression results in the inhibition of P-gp expression and activity in the mBMEC exposed to GLU to mimic seizures. PXR may play an important role in the regulation of seizure-induced expression and activity of P-gp in the blood-brain barrier.
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@#AIM: To investigate the effects of insulin on syndecan-1 expression, cellular permeability and proliferation in human retinal microvascular endothelial cells. <p>METHODS: Cells were treated with 100nmol/L and 1 000nmol/L insulin for 48h respectively. Expression of protein and mRNA were detected by western blot and quantitative real-time polymerase chain reaction. Cellular proliferation and permeability were examined by methods of methylthiazolyl tetrazolium and horseradish peroxidase. <p>RESULTS: With treatment of insulin, protein and mRNA of syndecan-1 both increased obviously, and the effect of high level insulin was more significant. After treated with insulin, cellular proliferation and permeability both enhanced, and the effects of high level insulin were stronger. <p>CONCLUSION: Insulin can up-regulate syndecan-1 protein and mRNA in cultured human retinal microvascular endothelial cells, and increase cellular permeability and proliferation.
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Objective To observe the effect of heparin on the cellular morphology and the expressions of nitric oxide (NO) and reactive oxygen species (ROS) in renal microvascular endothelial cells (RMVECs) stimulated by lipopolysaccharide (LPS). Methods The three step gradient screen method was used to primarily culture rat RMVECs, and the 3rd and 4th generation cells with excellent growth were collected. The cells were divided into blank control group, 10 mg/L LPS treatment group and 2.5, 5, 10 kU/L heparin pretreatment groups (the corresponding dose of heparin was given 0.5 hour before LPS stimulation). The morphology of the cells at 24 hours after LPS stimulation was observed by transmission electron microscope, the expression of ROS in RMVECs was determined by immunofluorescence at 5, 15, 30, 45 minutes after LPS stimulation, and the expression of NO in RMVECs was determined by nitrate reductase method. Results ① In blank control group, the RMVECs membrane was intact, and the mitochondria and endoplasmic reticulum in cells were clearly visible. The nuclear membrane was complete, and nucleolus was obvious. Cell bubble deformation was obvious at 24 hours after LPS stimulation, especially in the mitochondria and cell membrane. After 10 kU/L heparin pretreatment, the vacuolar degeneration of organelles was significantly reduced, and the cell membrane morphology was stable. ② The increases in ROS and NO in RMVECs could be detected at 5 minutes after LPS stimulation, showed an increase tendency with time prolongation, ROS expression peaked at 30 minutes, NO expression peaked at 45 minutes, which showed significant differences as compared with those of blank control group [30-minute ROS (mean density): 76.2±5.8 vs. 1.5±0.1, 45-minute NO (μmol/L): 70.3±8.6 vs. 1.8±0.1, both P < 0.01]. The expression of ROS and NO production in RMVECs were significantly reduced by heparin, showed a decrease tendency with heparin dose elevation, and the most obvious effect was 10 kU/L of heparin, with significant difference as compared with those of LPS treatment group [30-minute ROS (mean density): 16.8±1.7 vs. 76.2±5.8, 45-minute NO (μmol/L): 11.8±8.6 vs. 70.3±8.6, both P < 0.01]. Conclusions Unfractionated heparin ameliorates LPS induced expressions of NO and ROS in RMVECs and protects the cell morphology. The effect of 10 kU/L heparin is most obvious.
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Objective To investigate the role of human host heme-oxygenase-1 (HO-1) in pathogenesis of cerebral malaria in the in vitro model. Methods The effect of human host HO-1 [human brain microvascular endothelial cell (HBMEC)] on hemoglobin degradation in the co-culture model of HBMEC and ITG Plasmodium falciparum-infected red cells (iRBC) through measurement of the enzymatic products iron and bilirubin. Results Following exposure to the HO-1 inducer CoPPIX at all concentrations, the HBMEC cells apoptosis occurred, which could be prominently observed at 15 μM of 3 h exposure. In contrast, there was no significant change in the morphology in the non-exposed iRBC at all concentrations and exposure time. This observation was in agreement with the levels of the enzymatic degradation products iron and bilirubin, of which the highest levels (106.03 and 1753.54% of baseline level, respectively) were observed at 15 μM vs. 20 μM at 3 h vs. 24 h exposure. For the effect of the HO-1 inhibitor ZnPPIX, HBMEC cell morphology was mostly unchanged, but significant inhibitory effect on cell apoptosis was seen at 10 μM for the exposure period of 3 h (37.17% of baseline level). The degree of the inhibitory effect as reflected by the level of iron produced was not clearly observed (highest effect at 10 μM and 3 h exposure). Conclusions Results provide at least in part, insight into the contribution of HO-1 on CM pathogenesis and need to be confirmed in animal model.
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OBJECTIVE@#To investigate the role of human host heme-oxygenase-1 (HO-1) in pathogenesis of cerebral malaria in the in vitro model.@*METHODS@#The effect of human host HO-1 [human brain microvascular endothelial cell (HBMEC)] on hemoglobin degradation in the co-culture model of HBMEC and ITG Plasmodium falciparum-infected red cells (iRBC) through measurement of the enzymatic products iron and bilirubin.@*RESULTS@#Following exposure to the HO-1 inducer CoPPIX at all concentrations, the HBMEC cells apoptosis occurred, which could be prominently observed at 15 μM of 3 h exposure. In contrast, there was no significant change in the morphology in the non-exposed iRBC at all concentrations and exposure time. This observation was in agreement with the levels of the enzymatic degradation products iron and bilirubin, of which the highest levels (106.03 and 1753.54% of baseline level, respectively) were observed at 15 μM vs. 20 μM at 3 h vs. 24 h exposure. For the effect of the HO-1 inhibitor ZnPPIX, HBMEC cell morphology was mostly unchanged, but significant inhibitory effect on cell apoptosis was seen at 10 μM for the exposure period of 3 h (37.17% of baseline level). The degree of the inhibitory effect as reflected by the level of iron produced was not clearly observed (highest effect at 10 μM and 3 h exposure).@*CONCLUSIONS@#Results provide at least in part, insight into the contribution of HO-1 on CM pathogenesis and need to be confirmed in animal model.
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Objective Scutellarin (SCU), a Chinese traditional medicine, has a protective effect against ischemia-reperfusion (IR) induced myocardial injury, but it is not yet clear whether SCU acts against vascular endothelial IR injury via extracellular signal-regulated kinase 1/2 (ERK1/2).The aim of this study was to explore the effect of SCU on hypoxia-reoxygenation (HR)-induced injury to human cardiac microvascular endothelial cells (HCMECs) and its influence on the ERK1/2 signaling pathway.Methods HCMECs were subjected to normal culture and divided into a normal control, a DMSO, an SCU 1 μmol/L, and an SCU 10 μmol/L group.The model of HR injury was established by exposing the HCMECs to 12-h hypoxia and 12-h reoxygenation after treated with DMSO or SCU at 1 and 10 μmol/L for 2 hours.Then, the survival rate of the HCMECs was detected by MTT and trypan blue staining, the concentration of malondialdehyde (MDA) in the cells measured, and the expressions of the p-ERK1/2, ERK2 and GAPDH proteins determined by Western blot.Results SCU at 1 and 10 μmol/L significantly increased the survival rate of the normally cultured HCMECs ([110.40±2.34] and [122.00±1.25] %) as compared with that of the normal control (100%) (P<0.05), while HR injury markedly decreased the vitality of the HCMECs ([68.00±4.06] %) in comparison with that of the blank control (100%) (P<0.05).The survival rate of the HCMECs was remarkably higher in the HR+SCU 1 μmol/L and HR+SCU 10 μmol/L groups than in the HR model group ([90.53±3.67] and [92.04±2.32] %) (P<0.05), and so was their vitality in the SCU 10 μmol/L group than in the normal control ([96.78±2.01] vs [90.06±1.85] %, P<0.01), while their survival rate was significantly lower in the HR model than in the blank control ([73.72±4.91] vs [91.83±2.34] %, P<0.01) and remarkably higher in the SCU 10 μmol/L ([87.59±2.64] %) than in the HR model group (P<0.05).The MDA concentration in the HCMECs was markedly increased in the HR model and HR+DMSO groups as compared with the blank control (P<0.01), but decreased in the HR+SCU 1 μmol/L and HR+SCU 10 μmol/L groups in comparison with the HR model group (P<0.05).The expression of the p-ERK1/2 protein was significantly down-regulated in the HR model group as compared with the blank control (P<0.01), but up-regulated in the HR+SCU 10 μmol/L group in comparison with the HR model (P<0.01).Conclusion HR injury reduces the vitality of HCMECs, increases the MDA concentration, and down-regulates the expression of the p-ERK1/2 protein in HCMECs, while SCU acts against ischemia-reperfusion injury to HCMECs by increasing ERK phosphorylation.
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Objective To investigate the possibility of the involvement of RhoA/mDia1 pathway to cause the expression of phosphorylate ezrin-radixin-moesin (p-ERM) in rat pulmonary micro-vascular endothelial cell (PMVEC) after the stimulation of lipopolysaccharide (LPS).Methods The specimens of lung tissue were taken from healthy male SPF grade SD rat with 100-120 g body weight which was purchased from the laboratory animal center of Anhui province.After culture,the PMVECs were randomly divided into dose-dependent groups (0,0.1,1,10 μg/mL LPS added in PMVECs and cultured for30 min,n =8 in each),time-dependent groups (10 μg/mL LPS added to PMVECs cultured for 0,15,30,60,120 min,n =8 in each) and intervention group (n =8).In the intervention group,PMVECs were cultured with 1 μg/mL C3 transferase in serum free media for 240 min,followed by treatment with 10 μg/mL LPS for 30 min.Meanwhile,two control groups in serum-free DMEM medium were made by adding 10.μg/mL LPS to PMVECs and 1 μg/mL C3 transferase to PMVECs respectively cultured for 30 min (n =8 in each).Western blot was used to detect the level of p-ERM,ERM and mDia1.Data were analyzed with SPSS 16.0 software,while one way analysis of variance (ANOVA) was used to compare multiple sets of variables,the intergroup comparisons were analyzed by the least-significant-difference (LSD) tests,with P <0.05 for the statistically significant difference.Results ERM,p-ERM and mDia1 were presented in rat PMVEC.Stimulation with LPS up-regulated p-ERM,mDia1 in a dose-dependent manner:LPS [0 μg/mL LPS group:(0.520±0.101),0.1 μg/mL LPS group:(0.657 ±0.092),1 μg/mL LPS group:(0.891 ±0.167),10 μg/mL LPS group:(1.227 ±0.106);0 μg/mL group vs.0.1 μg/mL group,P >0.05;the rest P <0.01];and mDia1 [0 μg/mL LPS group:(0.200 ±0.102),0.1 μg/mL LPS group:(0.430 ±0.121),1 μg/mL LPS group:(0.603 ±0.154),10 μg/mL LPS group:(0.887 ±0.204);0.1 μg/mL group vs.1 μg/mL group,P > 0.05;the rest P < 0.05].In time-dependent group,the level of p-ERM protein increased at 15 min (0.670 ±0.149),peaked at 30 min (1.175 ±0.103),then decreased,at 60 min (0.959 ±0.189),90 min (0.842 ±0.129),but kept at higher level at 120 min (0.767 ±0.097) than that in control group (0.471 ±0.157,15 min group vs.120 min group,60 min group vs.90 min group and 90 min group vs.120 min group,P > 0.05;the rest P < 0.05);and the level of mDia1 increased at 15 min (0.779 ±0.035),peaked at 30 min (0.889 ±0.036) then decreased at 60 min (0.648 ±0.019),90 min (0.582 ±0.068),but kept at higher level at 120 min (0.526 ±0.059) than that in control group (0.284±0.118,all P < 0.01).C3 transferase caused a marked attenuation of LPS induced p-ERM expression [control group:(0.339 ± 0.069);C3 + LPS group:(0.438 ± 0.07);C3 control group:(0.352 ± 0.071);LPS control group:(0.634 ± 0.191),C3 + LPS group vs.LPS control group,P =0.01],as the same in mDia1 [control group:(0.449 ±0.122);C3 + LPS group:(0.380 ±0.148);C3 control group:(0.404 ±0.164);LPS control group:(0.622 ±0.174),C3 + LPS group vs.LPS control group,P < 0.01].Conclusions LPS could up-regulated the expression of p-ERM protein,and inhibition of RhoA/mDia1 signal pathway by C3 transferase could down-regulated the p-ERM levels.
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Objective Intercellular adhesion molecule-1 (ICAM-1) plays an important role in mediating pulmonary infiltration of neutrophils .The aim of the study was to observe the expression of ICAM-1 and its potential regulators MK 2/HuR in pulmonary micro-vascular endothelial cells ( PMVEC ) in mice with acute respiratory distress syndrome ( ARDS) induced by lipopolysaccharide ( LPS) . Methods Ten 6-8 weeks old healthy C57BL/6 mice were randomly divided into an LPS and a control group of equal number , the former injected intraperitoneally with LPS diluted in 100 μL PBS while the latter with PBS only , both at 5 mg per kg of the body weight .At 24 hours after injection , all the mice were sacrificed .Real-time PCR was used to determine the mRNA expressions of HuR and ICAM-1 in the PMVECs, Western bolt employed to detect the protein expressions of MK2, HuR and ICAM-1, and flow cytometry adopted to measure the ICAM-1 expression on the surface of the PMVECs and pulmonary infiltration of neutrophils . Results The W/D ratio in the lung tissue of the mice was significantly lower in the LPS than in the control group (3.61 ±0.28 vs 6.16 ±0.40, P<0.05), while the rate of neutrophil infiltration markedly higher in the former than in the latter ([13.92 ±3.23]%vs [3.24 ±1.24]%, P<0.05).The mRNA and protein expressions of ICAM-1 in the PMVECs were significantly elevated in the LPS group as compared with that in the control (P<0.05), and so was the mRNA expression of HuR (P<0.05).No remarkable changes were observed in the expressions of total MK 2 and HuR proteins, but phosphorylated MK2 (p-MK2) and cytoplasmic HuR were increased in the LPS-stimulated mice. Conclusion Specific blockage or reduction of the HuR expression in PMVECs may lower the expression of ICAM-1, reduce neutrophil infiltration , and lessen pathophysiological changes in mice with ARDS .
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Objective: To investigate the protective effect of glucagon-like peptid-1 (GLP-1) against cardiac microvascular endothelial cell (CMECs) injured by high glucose. Methods: CMECs were isolated and cultured. Superoxide assay kit and dihydroethidine (DHE) staining were used to assess oxidative stress. TUNEL staining and caspase 3 expression were used to assess the apoptosis of CMECs. H89 was used to inhibit cAMP/PKA pathway; fasudil was used to inhibit Rho/ROCK pathway. The protein expressions of Rho, ROCK were examined by Western blot analysis. Results: High glucose increased the production of ROS, the activity of NADPH, the apoptosis rate and the expression level of Rho/ROCK in CMECs, while GLP-1 decreased high glucose-induced ROS production, the NADPH activity and the apoptosis rate and the expression level of Rho/ROCK in CMECs, the difference were statistically significant (. P<0.05). Conclusions: GLP-1 could protect the cardiac microvessels against oxidative stress and apoptosis. The protective effects of GLP-1 are dependent on downstream inhibition of Rho through a cAMP/PKA-dependent manner, resulting in a subsequent decrease in the expression of NADPH oxidase.
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OBJECTIVE@#To investigate the protective effect of glucagon-like peptid-1 (GLP-1) against cardiac microvascular endothelial cell (CMECs) injured by high glucose.@*METHODS@#CMECs were isolated and cultured. Superoxide assay kit and dihydroethidine (DHE) staining were used to assess oxidative stress. TUNEL staining and caspase 3 expression were used to assess the apoptosis of CMECs. H89 was used to inhibit cAMP/PKA pathway; fasudil was used to inhibit Rho/ROCK pathway. The protein expressions of Rho, ROCK were examined by Western blot analysis.@*RESULTS@#High glucose increased the production of ROS, the activity of NADPH, the apoptosis rate and the expression level of Rho/ROCK in CMECs, while GLP-1 decreased high glucose-induced ROS production, the NADPH activity and the apoptosis rate and the expression level of Rho/ROCK in CMECs, the difference were statistically significant (P<0.05).@*CONCLUSIONS@#GLP-1 could protect the cardiac microvessels against oxidative stress and apoptosis. The protective effects of GLP-1 are dependent on downstream inhibition of Rho through a cAMP/PKA-dependent manner, resulting in a subsequent decrease in the expression of NADPH oxidase.