Objective : To explore the effect and mechanism of CD151 on vascular permeability by regulating vesicle internalization and recycling. Methods: Wild-type mice and CD151 knockout mice were divided into WT-con group, WT-model group, KO-con group and KO-model group, with 6 mice in each group. WT-model group and KO-model group were intraperitoneally injected with LPS to prepare sepsis ALI model, and WT-con group and KO-con group were intraperitoneally injected with phosphate buffer saline(PBS) as a control. 24 h after modeling, pulmonary vascular permeability was measured by Miles test. The siRNA silencing CD151 expression(si-CD151) and negative control si-NC were transfected into EA.hy 926 cells. The permeability of endothelial cell layer to FITC-dextran at different time points was observed under basic conditions and vascular endothelial growth factor-A(VEGF-A) stimulation conditions. Transcriptome sequencing of endothelial cells in si-CD151 group and si-NC group; the distribution and internalization of CD151 in each group were measured using immunofluorescence. Western blot and real-time quantitative RT-qPCR were used to detect the expression of VE-cadherin in si-CD151 groupand other groups. The distribution and internalization of VE-cadherin in each group were measured using immunofluorescence. Results : Miles experiment results indicated that dye exudation in lung tissue of WT-model group was significantly higher than that of WT-con group(P<0.01). The dye exudation in the lung tissue of KO-model group increased compared with WT-model group(P<0.05). The results of endothelial cell layer permeability test showed that the permeability of FITC-dextran in si-CD151 group was significantly higher than that in control group after VEGF-A stimulation for 30, 60 and 120 min(P<0.05). Transcriptome sequencing results suggested that CD151 in endothelial cells was closely related to vesicle-mediated transport. Compared with other groups, protein and mRNA levels of VE-cadherin in CD151 knockdown endothelial cells was significantly lower(allP<0.01). The immunofluorescence assay demonstrated that after VEGF-A stimulation, the decrease of CD151 expression significantly impaired the expression of VE-cadherin at cell-cell contacts and reduced the CD151-VE-cadherin colocalization in the perinuclear region compared with other groups. Conclusion The absence of CD151 affects the internalization and recycling of endothelial cell vesicles, affects the expression and internalization of VE-cadherin, and then influences vascular permeability.

The features of myocardial strains from speckle-tracking echocardiography (STE) have not been well defined in fulminant myocarditis (FM) patients. In this study, changes in the left ventricular ejection fraction (LVEF) and global and layer-specific myocardial strains over time were monitored. We aimed to determine the echocardiographic patterns of FM and ascertain their significance in FM treatment. Twenty patients who were clinically diagnosed with FM and received mechanical life support were prospectively enrolled. Conventional echocardiographic measurements were obtained, and serial strain echocardiography was performed from admission to hospital discharge until LVEF recovery (> 50%). Global/regional peak systolic longitudinal strains (GLS/RLS) and layer-specific longitudinal strains were quantified, and their changes with time were monitored in 14 FM patients. All patients had severely impaired cardiac function. Steep improvement in LVEF and GLS were observed within 6 days. Layer-specific strain analysis showed that reduction at admission or recovery at discharge in the endocardium and epicardium strains were equal. In conclusion, FM patients who received mechanical circulatory supports exhibited steep improvement in ventricular function within 6 days. The patchy and diffused distribution pattern of reduced RLS and equally and severely impaired strain in the endocardium and epicardium are valuable features in the diagnosis of FM.

AIM:Mitochondrial DNA (mtDNA) copy number variation (CNV), which reflects the oxidant-induced cell damage, has been observed in a wide range of human diseases .However, whether it correlates with heart failure , which is closely related to oxidative stress, has never been elucidated before .We aimed to systematically investigate the association between leukocyte mtDNA CNV and heart failure risk and prognosis .METHODS: A total of 1 700 hospitalized patients with heart failure and 1 700 age-and gender-matched community population were consecutively enrolled in this observational study , as well as 1 638 ( 96.4%) patients were fol-lowed prospectively for a median of 17 months (12~24 months).The relative mtDNA copy number in leukocyte of peripheral blood or cardiac tissue was measured in triplicate by quantitative real-time PCR method .RESULTS:Patients with heart failure possessed much lower relative mtDNA copy number compared with control subjects (P<0.01), especially for the patients with ischemic etiology (P<0.01).Patients with lower mtDNA copy number exhibited 1.7 times higher risk of heart failure ( P<0.01).Long-term follow-up (median 17 months) showed that decreased mtDNA copy number was significant associated with both increased cardiovascular deaths (P<0.01) and cardiovascular rehospitalization (P<0.01).After adjusted for the conventional risk factors and medications , lower mtDNA copy number were still significantly associated with 50% higher cardiovascular mortality (P <0.05).CONCLUSION:
mtDNA copy number depletion is an independent risk factor for heart failure and predicted higher risk of cardiovascular deaths in patients with heart failure .

Over-expression of CD151 was found to be associated with metastasis and poor prognosis of prostatic carcinoma. This study was designed to examine the mechanism by which CD151 promotes the proliferation and migration of prostatic cancer cells. The pAAV-CD151, pAAV-GFP and pAAV-CD151-AAA mutant plasmids were constructed and used to transiently transfect PC3 cells (a prostatic carcinoma 3 cell line) by the mediation of Fugene HD. Then, the cells were assigned to control group, pAAV-GFP group, pAAV-CD151 group, and pAAV-CD151-AAA group respectively. Cell proliferation was evaluated by using the 3-[4,5-dimet-hylthiazol-2-yl]-2,5, diphenyltetrazolium bromide (MTT) method. Cell migration assay was performed by using Boyden chambers. The formation of CD151-integrin α3/α6 complex was determined by the method of co-immunoprecipitation. The protein expression levels of CD151 and extracellular signal-regulated kinase (ERK) were measured by Western blotting. The results showed that transfection of pAAV-CD151 or pAAV-CD151-AAA mutant increased the expression of CD151 protein in PC3 cells. Co-immunoprecipitation showed that more CD151-integrin α3/α6 complex was formed in the pAAV-CD151 group than in the control group, the pAAV-GFP group and the pAAV-CD151-AAA mutant group. Furthermore, the proliferative and migrating capacity of PC3 cells was substantially increased in the pAAV-CD151 group but inhibited in the pAAV-CD151-AAA mutant group. CD151 transfection increased the expression of phospho-ERK. Taken together, it was concluded that CD151 promotes the proliferation and migration of PC3 cells through the formation of CD151-integrin complex and the activation of phosphorylated ERK.
Cell Line, Tumor ; Cell Movement ; Cell Proliferation ; Humans ; Integrin alpha3 ; metabolism ; Integrin alpha6 ; metabolism ; Male ; Prostatic Neoplasms ; metabolism ; pathology ; Tetraspanin 24 ; metabolism

Over-expression of CD151 was found to be associated with metastasis and poor prognosis of prostatic carcinoma. This study was designed to examine the mechanism by which CD151 promotes the proliferation and migration of prostatic cancer cells. The pAAV-CD151, pAAV-GFP and pAAV-CD151-AAA mutant plasmids were constructed and used to transiently transfect PC3 cells (a prostatic carcinoma 3 cell line) by the mediation of Fugene HD. Then, the cells were assigned to control group, pAAV-GFP group, pAAV-CD151 group, and pAAV-CD151-AAA group respectively. Cell proliferation was evaluated by using the 3-[4,5-dimet-hylthiazol-2-yl]-2,5, diphenyltetrazolium bromide (MTT) method. Cell migration assay was performed by using Boyden chambers. The formation of CD151-integrin α3/α6 complex was determined by the method of co-immunoprecipitation. The protein expression levels of CD151 and extracellular signal-regulated kinase (ERK) were measured by Western blotting. The results showed that transfection of pAAV-CD151 or pAAV-CD151-AAA mutant increased the expression of CD151 protein in PC3 cells. Co-immunoprecipitation showed that more CD151-integrin α3/α6 complex was formed in the pAAV-CD151 group than in the control group, the pAAV-GFP group and the pAAV-CD151-AAA mutant group. Furthermore, the proliferative and migrating capacity of PC3 cells was substantially increased in the pAAV-CD151 group but inhibited in the pAAV-CD151-AAA mutant group. CD151 transfection increased the expression of phospho-ERK. Taken together, it was concluded that CD151 promotes the proliferation and migration of PC3 cells through the formation of CD151-integrin complex and the activation of phosphorylated ERK.

Our previous studies demonstrated that CD151 gene promoted neovascularization in ischemic heart model. To improve the delivery efficacy and target specificity of CD151 gene to ischemic heart, we generated an adeno-associated virus (AAV) vector in which CD151 expression was controlled by the myosin light chain (MLC-2v) promoter to achieve the cardiac-specific expression of CD151 gene in ischemic myocardium and to limit unwanted CD151 expression in extracardiac organs. The function of this vector was examined in rat ischemic myocardium model. The protein expression of CD151 in the ischemic myocardium areas, liver and kidney was confirmed by using Western blot, while the microvessels within ischemic myocardium areas were detected by using immunohistochemistry. The results showed that MLC-2v significantly enhanced the expression of CD151 in ischemic myocardium, but attenuated its expression in other organs. The forced CD151 expression could increase the number of microvessels in the ischemic myocardium. This study demonstrates the AAV-mediated and MLC-2v regulated CD151 gene is highly expressed in the ischemic myocardium and cardiac-specific delivery that is more efficiently targets CD151 to the ischemia myocardium after myocardial infarction.

Our previous studies demonstrated that CD151 gene promoted neovascularization in ischemic heart model.To improve the delivery efficacy and target specificity of CD1 51 gene to ischemic heart,we generated an adeno-associated virus (AAV) vector in which CD151 expression was controlled by the myosin light chain (MLC-2v) promoter to achieve the cardiac-specific expression of CD 151 gene in ischemic myocardium and to limit unwanted CD151 expression in extracardiac organs.The function of this vector was examined in rat ischemic myocardium model.The protein expression of CD151 in the ischemic myocardium areas,liver and kidney was confirmed by using Western blot,while the microvessels within ischemic myocardium areas were detected by using immunohistochemistry.The results showed that MLC-2v significantly enhanced the expression of CD151 in ischemic myocardium,but attenuated its expression in other organs.The forced CD151 expression could increase the number of microvessels in the ischemic myocardium.This study demonstrates the AAV-mediated and MLC-2v regulated CD151 gene is highly expressed in the ischemic myocardium and cardiac-specific delivery that is more efficiently targets CD151 to the ischemia myocardium after myocardial infarction.

Objective To investigate the effect of CD151 gene therapy on improving myocardial function in swines with myocardial infarction. Methods CD151, antisense CD151 and green fluorescent protein (GFP) were constructed into the recombinant adeno-associated virus (rAAV). Swines were divided into 4 groups: rAAV-GFP group (6 swines), rAAV-CD151 group (6 swines), rAAV-antiCD151 group (6 swines) and control group (6 swines). The swines were performed with coronary artery ligation and intramuscularly injection with rAAV. Eight weeks after vector administration, western blot was used to detect gene expression of CD151. 13N-labeled NH3 positron emission tomography (PET) was used to evaluate myocardial perfusion. Echocardiography was used to assess myocardial function. Results Compared with the control group and the rAAV-GFP group, the rAAV-CD151 group showed higher CD151 protein expression. Compared with the rAAV-GFP group, the defect size of myocardium was decreased[( 11.3±2.4)% vs. (21.1±2.6)%, t= -5.67,P<0.01] and left ventricular ejection fraction (EF), left ventricular fractional shortening (FS), the ratio of anterior lateral wall thickening (△ALWT) and ratio of interventricular septum thickening (△IVST) were significantly improved in rAAV-CD151 group 8 weeks after vector administration [(65.7±4.6)% vs. (54.7±5.3)%, (36.0±2.9)% vs. (27.6±3.1)%,(55.4± 4.9)% vs. (36.8±7.8)%, (35.2±6.0)% vs. (26.7±4.4)%, t=3.98, 3.35, 3.34, 9.27, all P< 0.05]. The level of diastolic ALWT and diastolic IVST was also increased in rAAV CD151 group compared with rAAV-GFP group ( P<0.05).Compared with rAAV-CD151 group, parameters of myocardial function in rAAV-antisense CD151 group were not improved (P<0.05). Conclusions rAAV-CD151 can effectively transfeet the myocardium, increase the expression ofCD151 protein, promote the blood perfusion of myocardium and improve the ventricular function after myocardial infarction.

sfection could promote the expression of integrin α3β1/α6β1. The mechanism of regulating integrin α3β1/α6β1 may lie in allosterism of an extracellullar CDI51 site (QRD194-196) and C -terminal Ves. transportation target motif(YRSL245-248).

Objective To evaluate the delivery of recombinant adeno-associated virus(rAAV)-mediated CD151 gene in promoting neovascularization and coronary collateralization in swines after myocardial infarction.Method Twenty-six chinese minipigs(clean,provided by breeding pig farm of Huazhong Agricultural University) were randomly divided into four groups:(1)normal control group(n=4):swines without surgery.(2)rAAV-GFP group(n=7):The acute myocardial infarction models were produced in swines by ligating the left anterior descending coronary artery(LAD).The success criteria of the models was that ST-segment elevations in leatds I and aVL maintained for 20 minutes.The rAAV-GFP was injected into the left ventricular anterior wall(divided into 10 points,1×10 11 pfu/point).(3)rAAV-CD151 group(n=7):The operation method was the same as rAAV-GFP group.The rAAV-CD151 was injected into the left ventrieular anterior wall(divided into 10 points).(4) rAAV-antiCD151 group(n=8):The operation method was the same as rAAV-GFP group.The rAAV-antiCD151 was injected into the left ventricular anterior wall(divided into 10 points).Eight weeks after coronary artery liga-tion,the expression of CD151 was measured by western blot.Coronary angiography was done to evaluate collateral circulation of the infarct zone of myocardium.The infurct size was determined by staining with triphenyl-tetrazolium chloride(TTC).Statistical analysis wan carried out by using one-way analysis of variances.Results High level of CD151 protein expression was detected.Coronary angiography showed better collateral circulation in the rAAV-CD151 group.The percentage of infarct size was sinificanly lower in the rAAV-CD151 group (12.82±2.26)% than that in the other two groups,and that was higber in rAAV-anti-CD151 group(32.52±3.47)% than that in the rAAV-GFP group(23.14%±2.83%,both P＜0.05).Conelusions CD151 in vivo gene transferred to swines with acute myocardial infarction promotes neovascularization and thereby improves collateral circulation.