Objective To investigate the expression of syndecan-1 protein in gastric carcinoma and normal gastric mucosa tissues, and find out the correlation between the expression of syndecan-1 protein and the clinicopathologic characteristics of gastric carcinoma. Methods The expression of syndecan-1 protein was detected by immunohistochemistry (ABC) in 60 cases of gastric carcinoma, including gastric carcinoma tissues and normal gastric mucosa tissues. Results Syndecan-1 protein expressed in all of the 60 normal gastric mucosa tissues, however, only 10 of 60 gastric carcinoma tissues (16.67%) showed positive expression. The positive rate of syndecan-1 expression in normal gastric mucosa tissues was higher than that in gastric carcinoma tissues, and this difference was statistically significant (χ2=65.88, P<0.05). The expression level of syndecan-1 protein in gastric carcinoma tissues with lymph node metastasis was lower than that without lymph node metastasis, and this difference was also statistically significant (χ2 =18.62, P<0.05). In addition, syndecan-1 expression was not correlated with patients’ age and position of tumor (Pgt;0.05), but correlated with the diameter, invasion depth and TNM stage of tumor (Plt;0.05). Conclusion The positive expression of syndecan-1 protein is low in gastric carcinoma tissue and has b correlation with tumor stage and lymph node metastasis.
Objective To investigate the relation between CD44v6 and lymph node metastasis and prognosis of gastric carcinoma. Methods The expression of CD44v6 in 100 cases of advanced human gastric carcinoma was detected by immunohistochemical twostep method. Its relation with clinical pathology and prognosis was analyzed. Results CD44v6 expression occurred in 64%(64/100) of all gastric carcinomas; with the increase of depth of cancer invasion and local lymph node metastasis, the expression of CD44v6 elevated. Conclusion CD44v6 plays an important role in lymph node metastasis of human gastric carcinoma. It may be used as a new indicator to predict metastatic potential and prognosis of gastric carcinoma.
Objective To investigate an inhibitive effect of the chitosan nanoparticles with the proliferation cell nuclear antigen (PCNA)-antisense oligo deoxy nucleotides (ASODN) on the intimal cell proliferation after the vein grafting.Methods Fiftyfour male SD rats, weighing 450-600g, were randomly divided in the experimental group and the control group of 27 rats each. In the experimental group, the chitosan nanoparticles with PCNAASODN were infused into the anastomosis segment of the right jugular artery and vein; then, the anastomosis segment was transplanted to the jugular artery on the same side. The rats in the control group were infused with normal saline by the same procedures. There were 24 rats in each group which used to experiment. The hemodynamic data were obtained from the Doppler ultrasound examinations at 1, 2, 3 and 4 weeks. The specimens were taken. Immunohistochemistry, Westernblot, and bloodvesselwall histopathology were performed at the different week points. Results There was no significant difference in the thrombogenesis rate between the experimental group and the control group (3/27 vs. 3/27,P>0.05). During the 4 week observation, PCNA Westernblot showed that the PCNA level was lower in the grafted vein and the anastomosis segment in the experimental group than in the control group. The indexes of the PCNA postive proliferating cells in the intimal area (0.13%±0.11%,0.79%±0.28%,0.45%±0.29%, 0.43%±0.25%) and the medial area (1.90%± 0.84%,2.11%±0.98%,2.48%±0.77%,2.17%±0.36%) were significantlydecreased at 1,2,3 and 4 weeks in the experimental group when compared with those in the control group(P<0.05). The lumen areas in the grafted vein (88.71±16.96,95.98±21.44,88.48±32.81,97.86±34.11 μm 2) and the anastomosis segment (41.49±3.34,45.15±11.65,46.27±8.90,51.62±8.85 μm 2) were significantly greater in the experimental group than in the control group (P<0.05). The ratios of the initmal area to the medial area in the grafted vein (22.73%±3.11%,32.40%±4.55%,45.14%±3.19%,45.70%±5.01%) and the anastomsis segment (41.49%±3.34%,45.15%±11.65%,46.27%±890%,51.62%±8.85%) were significantly smaller in the experimental group than in the control group(P<0.05). The maximum velocities (Vmax) of the blood flow inthe grafted vein and the anastomsis segment were almost the same in the two groups at 1 week, but had different changes at the next 3 weekpoints. In the control group, the Vmax of the blood flow gradually increased and at 3 weeks it reached the peak point; however, at 4 weeks it decreased. In the experimental group,the Vmax of the blood flow gradually decreased, and at 3 weeks it decreased to the lowest point; however, at 4 weeks it increased. So, at 4 weeks the Vmax of the blood flow in the grafted vein and the anastomsis segment was almost the samein the two groups. There was no significant difference in the Vmax of the bloodflow between the two groups (P>0.05), but in the same group there wasa significant difference at the different time points. Conclusion The chitosan nanoparticles with PCNAASODN can effectively inhibit the intimal cell proliferation after the grafting of the blood vessel, so that the neointimal thickening can be prevented.