Tumor cells were highly heterogeneous, resembling the characteristics of human bladder cancers. Malignant cells were shown to infiltrate focal subtunica mucosa, muscular tunic. In both BI-pGEX-5X-1
and BI-pGEX-TK groups, the tumors grew much more slowly than that of the NS group; and tumor necrosis was more pronounced in these VEGFR inhibitor groups (Figures 2B and 2C). Figure 2 Histologic evaluation of the MNU-induced rat bladder cancer. MNU-induced bladder tumor samples were retrieved and subjected to paraffin-embedded sectioning and H & E staining. (A) Normal saline group, (B) Bifutobacterium infantis with empty plasmid group, and (C) Bifutobacterium infantis-PGEX-TK group. Representative samples are shown. Magnification, 100×.
Significant reduction of the total weight of tumor-bearing bladders GF120918 via BI-TK-mediated suicide gene therapy As shown in Table 1, The bladder cancer occur in rat 9 weeks after MNU reperfusion, we used B-type ultrasonic inspection to measure the size of the tumor before treatment, the volume is no statistical significance. the total bladder weight of BI-TK group was significantly lower than that of the NS group (p < 0.01). However, the weight difference between the NS group and the BI-pGEX-5X-1 group was not statistically different (p > 0.05). These results suggest that the BI-TK/GCV tumor-targeting suicide selleck chemicals gene therapy system may significantly inhibit bladder tumor growth. Table 1 Bladder total weight of all SB-3CT tumor-bearing rat ( ± s, n = 18) Groups bladder total weight(mg) NS group 302.33 ± 22.09 PGEX-5X-1- bifutobacterium infantis group 279.55 ± 21.17* PGEX-TK- bifutobacterium infantis group 245.72 ± 13.34* With regard to NS groups, *P < 0.05 Recombinant plasmid baby rat bladder bifidobacterium group was significantly lower than the total weight
with the other groups, significant differences (p < 0.01). there was no significant difference between Saline group with empty plasmid baby Bifidobacterium group (p > 0.05); above results show that babies bifidobacterium – TK/GCV system gene targeting therapy can significantly inhibit bladder tumor growth. Detection of apoptosis in rat bladder tumors Using the in situ TUNEL method, we found that each group exhibted varying degrees of apoptosis-staining positivity (Figure 3). The apoptotic indexes were 14.33 ± 5.29% for the NS group, 15.50 ± 4.34% for BI-pGEX-5X-1 group, and 29.44 ± 6.64% for BI-TK group, respectively. The apoptotic index for BI-TK group was significantly higher than that of BI-pGEX-5X-1 group or the NS group (p < 0.05). These results indicate that BI-TK/GCV suicide gene therapy system can kill bladder cancer cells, possibly through inducing apoptosis. Figure 3 Apoptosis analysis of BI-TK/GCV treated rat bladder cancer. The TUNEL assay was carried out as described in Methods.