1.Aggressive lymphoma.
Chinese Journal of Hematology 2013;34(2):177-177
2.Co-transfection of tPA gene and c-myc antisense oligodeoxynucleotides for the prevention of intimal hyperplasia of rabbit auto-transplantion artery
Zhongjun WU ; Weiwei WU ; Lin YU ; De SHI ; Shusen ZHENG
Chinese Journal of General Surgery 2001;0(07):-
Objective To observe the effects of co-transfection of proto-oncogene c-myc antisense oligodeoxynucleotides(c-myc-AODN) and tissue-type plasminogen activator(tPA) gene on intimal hyperplasia of auto-transplantion artery in rabbit. Methods The left and right external iliac artery(length 1.0 cm) of rabbits were cross transplanted. The artery grafts and sutures were respectively soaked in Lipofection, c-myc-AODN, pBudCE4.1/tPA, c-myc-AODN and pBudCE4.1/tPA solution for 15 minutes. Each group were divided into five subgroups(n=5, in each subgroup) according to the sacrifice times(3, 7, 14, 28 and 56 d after operation). Specimens were harvested for pathology, chromogenic substrate test, 3H-TdR incorporation test and immunochemisty coloration study. Result The intimal area, stenosis ratio, 3H-TdR incorporation, PCNA positive cell in c-myc-AODN adding tPA co-transfection group were significantly lower than that of control group(P0.01), and that were lower than c-myc-AODN transfection group and tPA gene transfection group(P0.05). Conclusion Vascular local co-transfection of tPA gene and c-myc-AODN effectively inhibits the proliferation of vascular smooth muscle cell(VSMC) and hyperplasia of intima of the transplanted artery.
4.Inhibitory Effect of Co-Transfection of tPA Gene and PCNA-ASODN on Restenosis of Autograft Artery in Rabbits
Zhongjun WU ; Yu LI ; De SHI ; Shusen ZHENG
Chinese Journal of Bases and Clinics in General Surgery 2003;0(05):-
Objective To observe the inhibitory effects of local co-transfection of tissue-type plasminogen activator(tPA) gene and proliferating cell nuclear antigen antisense oligodeoxynucleotides(PCNA-ASODN) on the intima proliferation and restenosis of autograft artery in rabbits. Methods One hundred and twenty male Zelanian rabbits were randomly divided into four groups(n=30, in each group): control group, PCNA-ASODN group, tPA group and tPA+PCNA-ASODN group. The left and right external iliac arteries (length 1.0 cm) were transplanted reciprocally. The transplanted arteries were respectively soaked in lipofection, PCNA-ASODN, pBudCE4.1/tPA and pBudCE4.1/tPA+PCNA-ASODN solution about 15 minutes. The transplanted arteries were sutured with 9-0 sutures soaked in PCNA-ASODN and pBudCE4.1/tPA solution. Each group were divided into five subgroups(n=6, in each subgroup) according to the sacrifice time (3 d, 7 d, 14 d, 28 d and 56 d after operation). On every sacrifice time point, the vascular specimens were harvested. The thrombocyte assembling and thrombus forming lining vessel wall were observed by scanning electron microscope. The pathological morphology of transplanted arteries were observed under microscope(HE). The intimal areas and stenosis ratio(%) of transplanted arteries were calculate and analyzed statistically among groups by computer system. The mRNA expression of tPA gene in transplanted ressel wall was detected with vevere transcription-PCR(RT-PCR). The number of PCNA positive cells in transplanted vessel wall was counted by SP immunochemisty. Results The mRNA expression of tPA gene in the transplan-ted vessel wall in tPA and tPA+PCNA-ASODN groups was higher than that of the other two groups (P
5.A study on biological activity of co-expression plasmid of human tissue plasminogen activator and vascular endothelial growth factor 165
Zhongjun WU ; Yi ZHU ; De SHI ; Shusen ZHENG
Chinese Journal of General Surgery 1997;0(04):-
Objective To observe the co-expression plasmid of tissue plasminogen activator (tPA) and vascular endothelia growth factor165 (VEGF165) in vascular endothelial cell (VEC) and to study the effect of the product on the proliferation of VEC and fibrinolysis activity. Methods pBudCE4.1/tPA-VEGF165 was transfected into VECs by using lipofection. The expression of tPA and VEGF165 at mRNA level was detected by RT-PCR and expression at protein level was detected by Western blot. The fibrinolysis activity of VEC culture solution of transfecting tPA and VEGF165 genes were detected by fibrin plate technique. The VEC and VSMC were cultured with VEC culture solution of transforming tPA and VEGF165 genes, the proliferation of VEC and VSMC were evaluated with 3?H-TdR incorporation and flow cytometry (FCM). Results The expression of tPA and VEGF165 in the transfected VECs was detected. The fibrinolysis activity of transfected VEC culture solution was also detected. tPA and VEGF165 products in VECs elevated proliferation of VEC, while there was no effect on the proliferation of VSMC. Conclusion The tPA and VEGF165 eukaryotic co-expression plasmid could express in transfected VECs, and the expression products have biology activity.
6.Inhibitory effects of local transfection of vascular endothelial growth factor 165 gene on intimal hyperplasia of artery in rabbits after operation injury
Zhongjun WU ; De SHI ; Shusen ZHENG ; Dewei LI
Chinese Journal of Pathophysiology 2000;0(08):-
AIM: To observe the effects of local transfection of vascular endothelial growth factor 165 (VEGF165) gene on inhibiting intimal hyperplasia and restenosis of artery in rabbits after operation injury, and its possible mechanisms. METHODS: Microsurgery injury was used to establish the intimal injury model of right external iliac artery in rabbits. 105 male New Zealand rabbits were randomly divided into 3 groups (35 rabbits in each group). Group A was physiological saline control group, group B was pBudCE4.1-transfected group, group C was pBudCE4.1/VEGF165-transfected group. The physiological saline, pBudCE4.1 and pBudCE4.1/VEGF165 transfection solutions were injected into injured vessel walls of above-mentioned groups. The injured vascular specimen was harvested for pathologic examination, electric microscope observation, RT-PCR examining and immunohistochemical staining. RESULTS: Rabbit intimal thickness and area of vessel walls in group C at every time point after operation were significantly less than those in group A and group B (P
7.The change of periphery and central lymphocyte subsets at the crest-time of experimental autoimmune encephalomyelitis mice
Nana XI ; Rongyuan ZHENG ; Xiaofeng SHANG ; Tan WANG ; Jin Lü ; De XU ; Zhenggang WU ; Guoqian CHEN
Chinese Journal of Immunology 2010;26(3):236-240
Objective:To observe the change of periphery and centra lymphocyte subsets at the crest-time of MOG_(35-55) induced EAE disease in mice,and to explore the alteration of cellular immunity and humoral immunity in the invasion process in EAE.Methods:MOG_(35-55) was used to establish EAE model in femina C57BL/6 mice.The behavioral changes and the histological scores were recorded after the mice were immuned .The changes of CD3~+CD4~+,CD3~+CD8~+,CD4~+CD25~+ and B220~+ on periphery and centra lymphocytes in spleen,brain and spinal cord were analyzed by flow cytometry.Results:The CD3~+CD4~+,CD3~+CD8~+,CD4~+CD25~+ and B220~+ lymphocytes were detected in the brain and spinal cord of EAE group mice,but they were not detected in CFA control group.The CD3~+CD4~+ and CD3+CD8+lymphocytes in the spleen of EAE crest-time group were lower than those in CFA control group(P<0.05).The B220~+ lymphocytes were obviously higher than in the CFA control group (P<0.01).And CD4~+CD25~+ lymphocytes were slight higher than the CFA control group.Conclusion:At the crest-time during EAE,the CD3~+CD4~+,CD3~+CD8~+lymphocytes of spleen reduced obviously,B220~+ lymphocytes increased markedly,and the CD4~+CD25~+ lymphocytes just have the increasing trend.It indicates that cellular immunity and humoral immunity coregulated the patho-process at the crest-time of EAE,T lymphocytes and B lymphocytes all played important roles in the pathogenesy of EAE.
8.Influence of different dialysis membranes on the apoptosis of peripheral blood T lymphocytes of maintenance hemodialysis patients
De-Qiong XIE ; Hua GAN ; Xiao-Gang DU ; Zheng-Rong LI ; Jiang WU ;
Chinese Journal of Nephrology 2005;0(12):-
Objective To investigate the apoptosis of T lymphocytes,the expression of Bcl-2, Fas on the peripheral blood T lymphocytes in end stage renal disease patients;and to explore the characteristics of Th1 /Th2 profile and the influence of dialysis membranes with different permeability on the apoptosis of T lymphocytes of maintenance hemodialysis patients.Methods The study included 10 non-dialyszed (ND)patients,45 maintenance hemodialysis patients with cellulose acetate (CA) membranes(13),low-flux polusulfone(PS-LF) membranes(16),high-flux polusulfone (PS-HF) membranes (16) and 8 healthy volunteers (C).The apoptosis of T lymphocytes,expression of Bcl-2,Fas on peripheral blood T lymphocytes cultured with phytohemagglutinin (PHA) stimulation for 24 hours were measured by flow cytometry and immunohistochemical.ELISA was performed for detecting the levels of IFN-?and IL-4 in culture supematants.Results In ESRD patients,the apoptosis of T lymphocytes was greater than that of group C.Group CA was greater than group PS-HF and group PS-LF (P<0.05).The expression of Bcl-2 on T lymphocytes in ESRD patients was lower than that of group C (P<0.05).There was negative correlation between the T lymphocytes apoptosis and Bcl-2. The expression of Fas on T lymphocytes in ESRD patients was greater than that of group C (P<0.05), and it was positive correlated with T lymphocytes apoptosis.The level of IFN-?of ESRD patients was decreased significantly compared with that in group C (P<0.05),and there was negative correlation between T lymphocytes apoptosis and IFN-?.IL-4 was increased in ESRD patients (P<0.05) and it was positive correlated with T lymphocytes apoptosis.Conclusions The accelerated apoptosis of T lymphocytes in ESRD patients may be related to the expression of Bcl-2 and Fas of T lymphocytes.ESRD patients show a suppressed secretion of IFN-?and an increased secretion of IL-4. T lymphocytes apoptosis of maintenance hemodialysis patients is influenced not only by the biocompatibility but also by the permeability of the dialysis membrane.
9.Expression of P16,CyclinD1 and P53 in hydatidiform mole and its significance
Xue-Qin WU ; Jin-Quan LIANG ; De-Ju JIANG ; Zheng ZHU ;
Chinese Journal of Primary Medicine and Pharmacy 2006;0(09):-
Objective To study the relationship between P16,CyclinD1 and P53 anti-oncogene and the gen- esis of hydatidiform mole.Methods 30 samples of hydatidiform moles and normal early pregnant aborted placenta villi respectively were obtained to detect the P16,CyclinD1 and P53 anti-oncogene expression in two kinds of tissues by using SP immunohistochemical staining.Results Compared with that of normal villi,the expressions of P16,P53 and CyclinD1 anti-oncogene were quite different in hydatidiform moles.The expression of P16 was all positive,while CyclinD1 and P53 were all negative in the chorion of early gestation.A descending tendency of P16 expression was found,while the expression of CyclinD1 showed an ascending tendency.The positive rate of P16,CyclinD1 and P53 expression was significantly different between the groups.It was also observed that there was significant difference between the P16 and the proliferation trophocyte.Conclusion P16,CyclinD1 and P53 anti-oncogene have a close relationship with the genesis of human hydatidiform mole.
10.Application research and design strategy on smart responsive mesoporous silica anti-tumor nanodelivery systems
Biao LI ; Ying-chong CHEN ; Bao-de SHEN ; Wen-ting WU ; Qin ZHENG ; Peng-fei YUE
Acta Pharmaceutica Sinica 2023;57(3):494-505
Malignant tumors are major diseases that endanger human health. Due to their complex and variable microenvironment, most anti-tumor drugs cannot precisely reach the focal tissue and be released in a controlled manner. Intelligent responsive nano carriers have become a hot spot in the field of anti-tumor drug delivery systems. As an excellent nano material, mesoporous silica has the advantages of non-toxic, stable, adjustable pore volume and pore diameter, and easy functional modification on the surface. By virtue of its perceptive response to the tumor microenvironment or physiological changes, it can achieve the targeted drug release or controlled drug release of the drug delivery system in the tissue, making it an ideal carrier for intelligent response drug delivery system. In this paper, we review the design strategies and current research status of smart responsive anti-tumor drug delivery systems based on mesoporous silica, in order to provide a reference for the development of anti-tumor drug nanoformulations.