Objective To investigate the xenotransplantation model of fetal pig skin precursor tissue and its development after transplantaion. Methods Porcine skin precursor tissue was obtained from the embryo of gestation day 56 (E56), and made into microskin or stamp skin graft. The microskin was transplanted to the dorsal wound in BALB/c nude mice, then covered with human corpse skin. The stamp skin graft was imbedded subcutaneously into the back of nude mice, and microskin was injected subcutaneously into the auricles of nude mice. Their growth and development were observed and they were examined by HE staining at 6th and 12th week after transplantation respectively. Two-sample t test was used to analyze the size of newly grown skin tissue. Results Porcine skin precursor tissue graft in three models above survived and continued growth after transplantation, and growth ability of the dorsal wound transplantation model was significantly stronger than that of the auricle model. Epidermis and hypodermis were detected in newly grown skin tissues. Hair follicles, a few of sebaceous glands, but no sweat glands were observed in auricle model, while many sebaceous glands and sweat glands were observed in the dorsal wound model. Conclusion Transplantation of microskin to dorsal wound is the optimal model of investigating the xenotransplantation of fetal pig skin precursor tissue and its development after transplantion.

The potency and safety of thyroid artery embolization by Pingyangmycin Lipiodol Emulsion(PLE) were observed. The results suggested that PLE is a potential embolization agent in interventional therapy of hyperthyroidism with relative safety and efficacy.

Objective To express human HT036 protein in Escherichia coli(E.coli.)and identify it.Methods The cDNA sequence obtained by PCR was cloned into the prokaryotic expression plasmid pET30a(+).The target protein was expressed in E.coli..induced by IPTG and analyzed by Western blotting.Results The interest gene was identified by restriction endonucleases digestion and DNA sequencing.The protein was highly expressed in E.coli..Conclusion We successfully expressed the HT036 protein.

Aim To investigate the effects of isoliquiri-tigenin(ISL)on C6 glioma cell proliferation and differ-entiation.Methods C6 glioma cells’viability and proliferation were respectively measured by SRB test. Colony formation of C6 glioma cells from different groups was assayed.After culturing the cells from each group,giemsa staining was used to observe cell mor-phology.RT-PCR was applied to detect mRNA expres-sion of GFAP.Western blot was applied to detect the expression of GFAP.Results ISL effectively inhibited the viability of C6 glioma cells when compared with the control group in a concentration-dependent manner (P<0.01).The morphological observation under light mi-croscope showed that:in the control group,most of the undifferentiated C6 cells showed long fusiform and po-lygonal shape.Compared to the control group,the C6 cells treated with ISL revealed alteration in morphology such as astrocytes with smaller smooth,round body and much finer longer,tapering processes.The cloning for-mation rate detection revealed that:the colonies in the control group semerged earlier and were larger than those experimental ones,the cloning formation rate was higher,while almost no effective cells colony emerged in ISL treated groups(P <0.01 ).Western blot and RT-PCR analysis showed that GFAP expression in the ex-perimental groups increased(P <0.01).Conclusion ISL may inhibit the proliferation of C6 glioma cells and induce their differentiation.

Objective Non-invasive detection is the focus of intense research in diagnosis of acute renal allograft rejection currently. Urine protein is considered the cue to reflect the pathological changes in kidney disease. In this study, we explored the urine markers for early acute renal allograft rejection. Methods The urine protein of two patients with acute renal allograft rejection were examined by 2D gel electrophoresis and bioinformatics. We adopted pH 4-7 ready strip IPG and stained the gel with Sypro-Ruby. The digitized 2D maps of urine protein were quantitatively analyzed using 2D-analysis software packages. By analyzing the differential expressions of proteome between different time points (1, 2, 3 days before acute rejection and 7, 14, 21 days after acute rejection), 30 protein spots were selected and analyzed by MALDI-TOF-MS/MS. Results We obtained 2D gel electrophoresis maps of urine protein of the patients with acute renal allograft rejection, which are of good reproducibility and resolution. Sixteen protein spots were identified, resulting in thirteen corresponding proteins. Out of these proteins, we screened three proteins (alpha-1-antichymotrypsin, tumor rejection antigen gp96, Zn-Alpha-2-Glycoprotein) closely related to acute rejection. Conclusion The urine protein spots on 2D gel electrophoresis maps for the patients with acute renal allograft rejection were of obvious difference when detected at different time points of acute rejection. Alpha-1-antichymotrypsin, tumor rejection antigen gp96 and Zn-Alpha-2-Glycoprotein might be the candidate protein markers to diagnose acute renal allograft rejection after renal transplantation.