1. Shanghai multi-organ solution in preservation of rat liver: An experimental study
Academic Journal of Second Military Medical University 2010;28(2):122-126
Objective: To observe the preservative effect of Shanghai-mutil-organ (SMO) solution on rat liver and to assess the feasibility of SMO solution in preserving isolated human livers. Methods: SD rats were randomly divided into 3 groups according to the preservation solutions: SMO group, UW ( University of Wisconsin Solution) group, and HTK (Histidinetryptophan-ketoglutarate solution) group. The simple cold storage liver model was established with isolated rat liver and the liver samples from each group were preserved with the 3 solutions for 8 h, 16 h, 24 h and 36 h. The energy metabolism was analyzed in all the samples and the morphological changes and hepatocytes apoptosis were observed after different preservation periods. Results: The liver tissue contents of ATP, TAN, and AEC in SMO group were significantly higher than those in HTK group at 16 h, 24 h, and 36 h (P<0.05); the contents in SMO group were similar to those in UW group. Histological examination showed that the tissue damage in SMO group was milder than that in HTK group; the damages in SMO group and UW group were similar except that the swelling of cells in SMO group was severer than that in UW group. Apoptosis index in SMO group was lower than that in HTK group at 24 h and 36 h(P< 0.05); there was no significant difference in apoptosis index between SMO group and UW group. Conclusion: SMO solution has a similar preservative effect on rat liver to that of UW solution, only with more severe cell swelling than the latter. The effect of SMO solution is better than that of HTK solution.
3.Updates on study of glioma stem cells.
Zhi-hua ZHOU ; Liang YI ; Xiu-wu BIAN
Chinese Journal of Pathology 2007;36(3):201-203
AC133 Antigen
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Animals
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Antigens, CD
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metabolism
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Cell Differentiation
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Cell Proliferation
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Drug Resistance, Neoplasm
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Glioma
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pathology
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Glycoproteins
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metabolism
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Humans
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Neoplastic Stem Cells
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metabolism
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pathology
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physiology
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Neovascularization, Pathologic
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etiology
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pathology
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Peptides
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metabolism
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Radiation Tolerance
4.Role of RANTES in evolution of alloreactive CD4+ memory T cells adoptive transfer-induced cardiac allograft acute rejection
Xiaobiao ZHOU ; Zhonggui SHAN ; Hua LIANG ; Shuiwei QIU ; Zhi LIN
Chinese Journal of Organ Transplantation 2012;(11):680-683
Objective To observe the intluence ot chemokine RANTES influence on cardiac allograft acute rejection caused by alloreactive memory CD4+ T cells (Tm) adoptive transfer.Methods Heterotopic heart transplantation (HTx) from Balb/c donors to C57BL/6 recipients was performed by anastomosis of the vessels of the neck.Mice undergoing heterotopic heart transplantation received either adoptive transfer of 1 × 106 CD4+ Tm from the spleen of alloantigen-primed C57BL/6 mice or no cells (control group).After the cardiac transplantation,the mean survival time (MST),mean histologic rank of rejection,relative gene expression and serum concentration of RANTES in the cardiac grafts.Results (1) The percentage of CD4+ Tm was 26.83% at the spleen of alloantigenprimed mice; (2) The MST was 5.17 ± 0.17 days in the CD4+ Tm+ HTx group versus 7.76 ± 0.21 days at the HTx group (control group) (P<0.01); (3) The histological tests revealed that mean histologic rank of rejection activity in the sections of cardiac allografts on the day 5 post grafting was grade 3.92 ± 0.08 in the HTx+ CD4+Tm group versus grade 2.67 ± 0.14 in HTx group (P<0.01) ;(4) The relative gene expression level of RANTES was 2.6 ± 0.21 in the CD4+ Tm + HTx group,significantly higher than in the control group (P<0.01) ; (5) The serum concentration of RANTES in the CD4+ Tm+ HTx group was 223.6 ± 16.79 pg/mL,higher than in the control group (120.7 ±9.47 pg/mL,P<0.01).Conclusion Alloreactive CD4+ Tm contribute to the increased expression and secretion of RANTES,and cardiac allograft acute rejection was more extensive in the CD4 + Tm + HTx group.
5.Pasireotide in tumor diagnosis and treatment by translational medicine
Hua ZHU ; Nina ZHOU ; Feng WANG ; Zhi YANG
Journal of International Oncology 2013;(5):345-347
The somatostatin analogue pasireotide is a new type of protein which is the first therapeutic agent targeted to the pituitary.Pasireotide can prevent adrenocorticotropic hormone release and inhibit the growth of tumor cells after coupling with somatostatin receptor of the target cell membranes.Pasireotide has a high binding affinity for most of somatostatin receptor (SSTR) subtypes and in particular for SSTR5.Pasireotide can paly an important role in the new round of new targets for individualized diagnosis and treatment of tumors through the studies of translational medicine.
6.Effect of SMO preservation solution on apoptosis and energy metabolism in canine kidneys during cold storage
Qiu-Cheng HAN ; Xiong-Wei ZHU ; Zhi-Hua ZHOU ;
Chinese Journal of Organ Transplantation 2005;0(10):-
0.05).The activity of Na~+-K~+ ATPase in SMO group was significantly higher than that in HTK group at 72 h(P
7.Polymorphism of Escherichia coli Isolated from the Fecal
Mei-Ling ZHANG ; Zhi-Hua ZHOU ; Li-Ping ZHAO ;
Microbiology 1992;0(02):-
In this study, three methods for identification of E.coli were compared. The conventional method was employed to select and identify the suspicious E.coli isolates from a fecal sample. PCR based ARDRA analysis was then carried out to distinguish these E.coli isolates, E.coli MG1655 and other bacterial species. All the potential E.coli isolates and E.coli MG1655 had the identical ARDRA banding pattern while the other bacterial species showed the different patterns.The result indicated that the ARDRA analysis was consistent with the traditional method for identification of E.coli and could be the practical method for distinguishing E.coli from other intestinal bacterial species. The ERIC-PCR analysis provided abundant polymorphism between different E.coli isolates, and might be a powerful approach for elucidating the genetic diversity among isolates of the same species.
9.Proliferation and identification of dendritic cells from peripheral blood of patients with bladder cancer in vitro
Dan CAI ; Zhi-Hua WANG ; Zhi-Quan HU ; Xu ZHANG ; Si-Wei ZHOU ; Zhang-Qun YE
Chinese Journal of Urology 2001;0(07):-
Objective To investigate the proliferation and identification of dendritic cells(DC)de- rived from peripheral blood of patients with bladder cancer in vitro.Methods The mononuclear cells were prepared from peripheral blood of patients with bladder cancer by Ficoll-Hypaque centrifugation method,and were induced by the recombinant cytokines hGM-CSF(50 ng/ml),hlL-4(10 ng/ml)and hTNF-?(50 ng/ ml)for 2 weeks.The growth and morphology of DC were observed through the phase contrast or electron mi- croscope,and their pheuotypes were determined by flow cytometry.The capacity of DC to activate T cell-de- pendent anti-tumor immune responses was tested by MTT method.Results The DC cultured in vitro turned into suspensive growth from adhesive situation on the 6th day,then the number of DC increased con- tinuously and the cells showed the irregular morphologic appearance of DC with veiled edges on the 8th day. Flow cytometry showed that the mature DC expressed high levels of specific markers such as CD_(1a),CD_(83), CD_(86)and HLA-DR.T cells activated by DC showed strong cytotoxicity to bladder cancer cell line BIU87 with a killing rate of(48.8?3.7)%,while the killing rate of T cells which were not activated by DC was(25.7?1.5)%;the difference of the rate between them was significant(P<0.01). Conclusions The DC can be cultured from peripheral blood of patients with bladder cancer by induction of rhGM-CSF,rhIL-4 and hT- NF-?in vitro.This may lay an experimental foundation for further research on DC vaccine.
10.Sensitivity and specificity of AMACR expression in diagnosis of prostatic carcinoma.
You-hua SHENG ; Zhi-ming JIANG ; Hui-zhen ZHANG ; Jian-hua ZHOU ; Liang LIU
Chinese Journal of Pathology 2007;36(10):687-688
Adenocarcinoma
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diagnosis
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metabolism
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pathology
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Carcinoma, Signet Ring Cell
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diagnosis
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metabolism
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pathology
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Gene Expression Regulation, Neoplastic
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Humans
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Male
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Neoplasm, Residual
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metabolism
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Prostatic Hyperplasia
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metabolism
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Prostatic Intraepithelial Neoplasia
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metabolism
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Prostatic Neoplasms
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diagnosis
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metabolism
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pathology
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Racemases and Epimerases
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metabolism
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Sensitivity and Specificity