Objective To investigate the influence of vascular endothelial growth factor (VEGF) antagonist bevacizumab on the growth of human choroidal melanoma (CM) OCM-1 cell xenografts in nude mice, and to explore the probable mechanism.Methods OCM-1 cells were subcutaneously implanted on 18 nude mice to establish ectopic model of human CM. The nude mice with the tumor of 5 mm in diameter were randomly divided into three groups: untreated group (group A), normal saline (NS) group (group B), drug treated group (group C). Bevacizumab was intraperitoneally injected for 14 consecutive days in group C, and the same volume of NS was used at a same way in group B. The volume and weight of implanted tumor as well as inhibitory rates of drug on tumor were calculated, ki67 and survivin proteins were measured with immunohistochemistry, and the mRNA expression of VEGF and survivin were assessed by RT-PCR.Results The volume and weight of tumor was (598.86plusmn;321.81) mm3, (0.66plusmn;0.15) g; (1 715.15plusmn;278.16) mm3, (1.54plusmn;0.39) g and (1 750.23plusmn;206.36) mm3, (1.54plusmn;0.31) g in groups C, A and B, respectively. There were significant differences between group C and A (F=34.53, P=0.00) and group C and group B (F=8.69, P=0.01). The inhibitory rate of these three groups were 57.14%, 5.31%, 6.25%, respectively, and the proliferation index (PI) of ki67 in these three groups were (51.85plusmn;1.32)%, (46.30plusmn;1.39)%, (27.90plusmn;0.90)%, respectively, there were significant differences in ki67 PI between C group and A or B group (H=15.17, P=0.00). The expression of survivin mRNA was (0.49plusmn;0.02), (0.82plusmn;0.05) and (0.61plusmn;0.05) in groupss C, A and B, respectively, there were significant differences between C group and A or B group (F=15.17, P<0.05) . The expression of VEGF mRNA was (0.32plusmn;0.08), (0.73plusmn;0.07), (0.80plusmn;0.04) in groups C, A and B, significant difference was found between group C and A or B group (F=12.05,P<0.05). Conclusion Bevacizumab can inhibit the growth of human CM in nude mice probably by inhibiting the activity of VEGF and downregulating survivin expression of the tumor as well as inhibiting the growth of the tumor.
Objective To observe the inhibition effect of curcumin on the proliferation of rabbit retinal pigment epithelial (RPE) cells and investigate its mechanism. Methods The 4th generation of RPE cells were selected and divided into curcumin group and blank control group. The concentration of curcumin included 10, 15, and 20 mu;g/ml. The MTT assay was used to evaluate the inhibition effect on the proliferation of RPE cells at the 24th, 48th, 72nd and 96th hour after cultured with curcumin (10, 15, and 20 mu;g/ml). The IC50 value of curcumin at different time points were calculated by Linear Regression. Flow cytometry was used to detect the effect on the cell cycle at the 72nd hour after cultured with curcumin (15 mu;g/ml); the expression and apoptosis of proliferating cell nuclear antigen (PCNA) were also determined at the 24th,48th, and 72nd hour after cultured with curcumin (15 mu;g/ml) respectively. The configuration of RPE cells were observed by transmission electron microscope. Results The IC50 value of curcumin at the 24th,48th, 72nd and 96th hour was 29.31, 17.50, 13.24, and 10.99 mu;g/ml respectively. Cell cycel analysis indicated that curcumin blocked cells in G0/G1 phase. At the 24th, 48th, and 72nd hour after cultured with curcumin (15 mu;g/ml), the expression of PCNA of RPE cells were 565.04plusmn;23.60, 473.61plusmn;36.88, and 396.15plusmn;32.45; the apoptosisrate were (12.83plusmn;0.13)%,(32.27plusmn;4.51)%,(56.81plusmn;8.67)%, respectively. The differeces of curcumin groups compared with the control group were significant (P<0.05). Apoptosis of RPE cells was observed under transmission electron microscope. Conclusions Curcumin can inhibite the proliferation of RPE cells by inhibit the synthesization of PCNA and inducing the apoptosis of RPE cells. Curcumin may become a potential drug to prevent and treat PVR.
ObjectiveTo observe the expression in vitro and the influence of adenovirus-mediated recombinant Tum5 gene to the proliferation, migration and tubing of Rhesus RF/6A cell under high glucose. MethodsTo construct the adenovirus vector of recombinant Tum5 gene (rAd-Tum5), and then infected RF/6A cell with it. The Flow Cytometry was used to detect the infection efficiency. RF/6A cells were divided into normal group, high glucose (HG)-control group (HG group), empty expression vector group (HG+rAd-GFP), and HG+rAd-Tum5 group. Western blot was used to detect the expression of Tum5. The CCK-8 test was applied to detect the proliferation of RF/6A cell, the Transwell test was applied to detect the migration and the Matrigel test was applied to detect the tubing of RF/6A cell under high glucose. The proliferation, migration and tubing of RF/6A were tested respectively by CCK-8 test, Transwell test and Matrigel test. ResultsThe adenovirus vector of recombinant Tum5 gene was successfully constructed. The infection efficiency of rAd-Tum5 in RF/6A cell was 50.31% and rAd-GFP was 55.13% by the Flow Cytometry. The results of Western blot indicated that Tum5 was successfully expressed in RF/6A cell. The result of CCK-8 test, Transwell test and Matrigel test indicated that there were statistical differences between all groups in proliferation, migration and tubing of the RF/6A cell (F=44.484, 772.666, 137.696;P < 0.05). The comparison of each group indicated that the HG group was higher than normal group (P < 0.05). There were no statistical differences between HG group and HG+rAd-GFP group (P > 0.05). However, the HG+rAd-Tum5 group was less than HG group (P < 0.05), and the same to HG+rAd-GFP (P < 0.05). ConclusionThe adenovirus vector of recombinant Tum5 gene can inhibit the proliferation, migration and tubing of RF/6A cell under high glucose.