Objective To investigate the role and possible mechanism of P120 catenin involving in the hemodynamic changes by inducing vascular endothelial cells injury through an in vitro experiment. Methods The hemodynamic environment under the different hemodynamic conditions at the vascular bifurcations was simulated through a T-shaped flow chamber system designed by ourselves. The human umbilical vein endothelial cells (HUVEC)cultured in vitro were stimulated and used the HUVEC cells of the small interfering RNA (SiRNA)after P120ctn gene fragments being knocked out. After loading flow rate of 250 and 500 ml/ min respectively and acting on for 12 h,the HUVEC morphology,growth pattern,and expression of P120ctn and other proteins were observed. Results (1)Normal HUVEC:500 ml/ min was loaded for 12 h,the cells were fused excessively at the impinging point,the cell gaps became narrowed,the cell density decreased and the morphology was elongated in the high wall shear stress (WSS)and wall
shear stress gradient (WSSG)regions. A part of cells migrated downstreamly,and their arrangement direction was consistent with the direction of impinging flow. Compared with the unloaded impinging flow field,after the 2 kinds of impinging flows being loaded for 12 h,the expression levels of P120ctn,vascular endothelial calcium (VEC),Kaiso,α-catenin,and other proteins were decreased. The expression level of matrix metalloproteinase 2 (MMP-2)was increased. There were significant differences (all P < 0. 05). (2)HUVEC after P120ctn being knocked out:Under the impact of the impinging flow,the cell growth time was reduced to 60 min. 250 ml/ min being loaded for 60 min,the impinging point and its surrounding cells still maintained the polygon,but some cells in the high WSS and high WSSG regions began to move downstreamly and aggregated,the cell arrangement mode partly arranged along with the direction of the flow;500 ml / min being loaded for 60 min,the cell density in the high WSS and high WSSG regions were decreased significantly and the morphology was elongated. A large number of cells migrated downstreamly and aggregated. The arrangement mode was parallel and consistent with the direction of the impinging flow. Compared with the unloaded impinging flow field,after the 2 kinds of velocities being loaded for 60 min,the expression levels of VEC,Kaiso,α-catenin proteins were decreased. The expression level of MMP-2 was increased,There were significant differences (all P < 0. 05) Conclusions The hemodynamic change may induce the changes in vascular endothelial cell morphology,growth pattern,and expression of P120ctn and other related proteins, leading to the decrease of vascular endothelial cell adhesion connection stability and the expression changes of related proinflammatory factors. The knockout of P120ctn may result in a further decrease of the vascular endothelial cell adhesion connection stability.

Clinical features and related information on diagnosis and treatment of 45 cases of Castleman's disease (CD) were retrospectively analyzed.Based on the clinical classification, localized CD (LCD) was found in 26 cases, multicentric CD (MCD) was found in 19 cases.Most cases of LCD presented the symptoms of compression, while MCD had complicated and non-specific clinical manifestations, making the early diagnosis more difficult.All 26 cases with LCD underwent surgery, among which only 2 cases relapsed.Sixteen out of 19 patients with MCD were treated with glucocorticoids or combined chemotherapy, and 14 cases achieved complete or partial remission.The results show that patients with CD have variant manifestation and the diagnosis depend on CT scan or histopathology examination.Most LCD can be cured by complete surgical resection, and MCD can achieve remission by the treatment with glucocorticoids or combined chemotherapy.

Objective To explore the differentially expressed proteins during erythroid differentiation .Methods The murine erythroleukemia ( MEL) cell were treated by DMSO , and the comparative proteomic was systematically analyzed and identified on different differentiating time points .ratio of cell differentiation and viability were detected by benzidine staining, MTT assay and Ter119 immunofluorescence.Using two-dimensional gel electrophoresis combined with mass spectrometry technology and bioinformatics analysis , we conducted a comparative proteomic analysis on MEL cells during the process of induced differentiation to screen and identify differential proteins .Results The MEL cells induced by 1.2%DMSO for 0 hour, 6hours, 12hours, 24hours, 36hours, 48hours, 72 hours, 96 hours, 120 hours were collected for proteomic analysis, by two-dimensional gel electrophoresis combined with mass spectrometry .A total of 87 kinds of proteins were successfully identified .MEL cells exposed to DMSO at a final concentration of 1.2% for 120 hours reached the highest differentiation rate of 67%.MTT assay showed that 1.0%, 1.2%, 1.4% DMSO had no inhibiting effect on cell vitality.Conclusion DMSO may induce MEL cells to differentiate and have no inhibiting effect on cell vitality .The 87 kinds of differentially expressed proteins from two-dimentional gel electrophoresis may be divided into twelve categories ;the most three parts are 41%enzyme protein, 15%structural protein and 13%regulatory protein.