Objective To construct the zinc finger protein-activating transcription factor (ZFP-ATF) plasmid and evaluate its efficacy in inducing vascular endothelial growth factor (VEGF) expression in EY.HY926 endothelial cells...Objective To construct the zinc finger protein-activating transcription factor (ZFP-ATF) plasmid and evaluate its efficacy in inducing vascular endothelial growth factor (VEGF) expression in EY.HY926 endothelial cells. Methods Firstly, we constructed the ZFP-ATF plasmid, then testified the quantity of VEGF protein in EY.HY926 endothelial cells after transfected with ZFP-ATP plasmid by Western blot, finally, we used the RT-PCR to testify whether the ZFP-ATF can stimulate expression of VEGF splice variants. Results The ZFP-ATF DNA sequences were located the multiclone sites of PVAX1 vector between the site of BamH Ⅰ and Xhol. Western blot result showed VEGF expression in EY.HY926 endothelial cells transfected with ZFP-ATF plasmid was significantly higher than that in cells transfected with VEGF165 (19.95±3.95 vs. 12.15±1.55 μg/μL, P<0.01). RT-PCR result showed VEGF-A mRNA expression level induced by ZFP-ATF was high than that induced by VEGF165. Conclusion ZFP-ATF can up-regulate the VEGF-A expression in comparison with VEGF165, which might have beneficial effects in angiogenesis process.展开更多
Objective: The aim of the study was to investigate inhibitory effects of breast-cancer metastasis suppressor 1 protein (BRMS1) on primary tumor growth and metastasis of human gastric cancer (GC) cells in nude mic...Objective: The aim of the study was to investigate inhibitory effects of breast-cancer metastasis suppressor 1 protein (BRMS1) on primary tumor growth and metastasis of human gastric cancer (GC) cells in nude mice. Methods: We compared the expression of BRMS1 in the primary gastric tumor and metastatic gastric tumor by immunohistochemistry. Expression of BRMS1 also was detected in the GC cells by RT-PCR and Western blot. Three groups of cultured human GC cell line SGC-7901, were maintained: transfected cells with pcDNA3.1(-)B/myc-BRMS1; negative control cells with pcD- NA3.1/myc-his(-)B; and blank control ceils without any transfection. Histologically intact samples of the cells, maintained by passage in the subcutis of nude mice, were transplanted orthotopically into stomach walls of nude mice to establish a nude mouse model of human gastric carcinoma. Their primary tumor growth and metastasis were then observed. Results: The expression of BRMS1 was markedly stronger in the primary gastric tumor compared with metastatic gastric tumor. We also detected BRMS1 gene and protein in the gastric cancer cell tines. Numbers of metastasis tumors significantly differed among mice infected with transfected cells, with negative controls and with blank controls (4.38 ± 0.60, 7.75 ± 0.59, and 7.63± 0.65, respectively; P 〈 0.05). However, there were no significant differences in the size of orthotopic tumors among mice infected with transfected, negative control and blank control cells [(12.02 ± 0.70), (12.71 ± 0.63) and (12.89 ± 0.71) mm, respectively; P 〉 0.05]. Conclusion: BRMS1 suppresses metastasis of GC cells, but does not inhibit growth of gastric tumors.展开更多
Objective To explore the feasibility and efficacy of lentivirus-mediated co-transfection of rat bone marrow mesenchymal stem cells (MSCs) with human vascular endothelial growth factor 165 (hVEGFI65) gene and human...Objective To explore the feasibility and efficacy of lentivirus-mediated co-transfection of rat bone marrow mesenchymal stem cells (MSCs) with human vascular endothelial growth factor 165 (hVEGFI65) gene and human bone morphogenetic protein 2 (hBMP2) gene. Methods The hVEGF165 and hBMP2 cDNAs were obtained from human osteosarcoma cell line MG63 and cloned into lentiviral expression vectors designed to co-express the copepod green fluorescent protein (copGFP). The expression lentivector and packaging Plasmid Mix were co-transferred to 293TN cells, which produced the lentivirus carrying hVEGF165 (Lv-VEGF) or hBMP2 ( Lv-BMP) , respectively. MSCs of Wistar rats were co-transfected with Lv-BMP and Lv-VEGF (BMP + VEGF group), or each alone (BMP group and VEGF group), or with no virus ( Control group). The mRNA and protein expressions of hVEGF165 and hBMP2 genes in each group were detected by real-time PCR and enzyme linked immunosorbent assay (ELISA). Results Lentiviral expression vectors carrying hVEGF165 or hBMP2 were correctly constructed and confirmed by restriction endonucleses analysis and DNA sequencing analysis. A transfer efficiency up to 90% was archieved in all the transfected groups detected by the fraction of fluorescent cells using fluorescent microscopy. From the results generated by real-time PCR and ELISA, VEGF165 and BMP2 genes were co-expressed in BMP + VEGF group. No significant difference of BMP2 expression was detected between BMP + VEGF and BMP groups ( P 〉 0. 05). Similarly, there was no significant difference of VEGF165 expression between BMP + VEGF and VEGF groups ( P 〉 0. 05). Conclusion VEGF165 and BMP2 genes were successfully co-expressed in MSCs by lentivirus-mediated co-transfection, which provided a further foundation for the combined gene therapy of bone regeneration.展开更多
基金Supported by the National Natural Science Foundation of China(81270399and81100226)
文摘Objective To construct the zinc finger protein-activating transcription factor (ZFP-ATF) plasmid and evaluate its efficacy in inducing vascular endothelial growth factor (VEGF) expression in EY.HY926 endothelial cells. Methods Firstly, we constructed the ZFP-ATF plasmid, then testified the quantity of VEGF protein in EY.HY926 endothelial cells after transfected with ZFP-ATP plasmid by Western blot, finally, we used the RT-PCR to testify whether the ZFP-ATF can stimulate expression of VEGF splice variants. Results The ZFP-ATF DNA sequences were located the multiclone sites of PVAX1 vector between the site of BamH Ⅰ and Xhol. Western blot result showed VEGF expression in EY.HY926 endothelial cells transfected with ZFP-ATF plasmid was significantly higher than that in cells transfected with VEGF165 (19.95±3.95 vs. 12.15±1.55 μg/μL, P<0.01). RT-PCR result showed VEGF-A mRNA expression level induced by ZFP-ATF was high than that induced by VEGF165. Conclusion ZFP-ATF can up-regulate the VEGF-A expression in comparison with VEGF165, which might have beneficial effects in angiogenesis process.
基金Supported by a grant from the Jiangxi Provincial Natural Science Foundation of China (No. 0640063)
文摘Objective: The aim of the study was to investigate inhibitory effects of breast-cancer metastasis suppressor 1 protein (BRMS1) on primary tumor growth and metastasis of human gastric cancer (GC) cells in nude mice. Methods: We compared the expression of BRMS1 in the primary gastric tumor and metastatic gastric tumor by immunohistochemistry. Expression of BRMS1 also was detected in the GC cells by RT-PCR and Western blot. Three groups of cultured human GC cell line SGC-7901, were maintained: transfected cells with pcDNA3.1(-)B/myc-BRMS1; negative control cells with pcD- NA3.1/myc-his(-)B; and blank control ceils without any transfection. Histologically intact samples of the cells, maintained by passage in the subcutis of nude mice, were transplanted orthotopically into stomach walls of nude mice to establish a nude mouse model of human gastric carcinoma. Their primary tumor growth and metastasis were then observed. Results: The expression of BRMS1 was markedly stronger in the primary gastric tumor compared with metastatic gastric tumor. We also detected BRMS1 gene and protein in the gastric cancer cell tines. Numbers of metastasis tumors significantly differed among mice infected with transfected cells, with negative controls and with blank controls (4.38 ± 0.60, 7.75 ± 0.59, and 7.63± 0.65, respectively; P 〈 0.05). However, there were no significant differences in the size of orthotopic tumors among mice infected with transfected, negative control and blank control cells [(12.02 ± 0.70), (12.71 ± 0.63) and (12.89 ± 0.71) mm, respectively; P 〉 0.05]. Conclusion: BRMS1 suppresses metastasis of GC cells, but does not inhibit growth of gastric tumors.
基金Supported by Key Program of Shanghai Science and Technology Committee (054119520)
文摘Objective To explore the feasibility and efficacy of lentivirus-mediated co-transfection of rat bone marrow mesenchymal stem cells (MSCs) with human vascular endothelial growth factor 165 (hVEGFI65) gene and human bone morphogenetic protein 2 (hBMP2) gene. Methods The hVEGF165 and hBMP2 cDNAs were obtained from human osteosarcoma cell line MG63 and cloned into lentiviral expression vectors designed to co-express the copepod green fluorescent protein (copGFP). The expression lentivector and packaging Plasmid Mix were co-transferred to 293TN cells, which produced the lentivirus carrying hVEGF165 (Lv-VEGF) or hBMP2 ( Lv-BMP) , respectively. MSCs of Wistar rats were co-transfected with Lv-BMP and Lv-VEGF (BMP + VEGF group), or each alone (BMP group and VEGF group), or with no virus ( Control group). The mRNA and protein expressions of hVEGF165 and hBMP2 genes in each group were detected by real-time PCR and enzyme linked immunosorbent assay (ELISA). Results Lentiviral expression vectors carrying hVEGF165 or hBMP2 were correctly constructed and confirmed by restriction endonucleses analysis and DNA sequencing analysis. A transfer efficiency up to 90% was archieved in all the transfected groups detected by the fraction of fluorescent cells using fluorescent microscopy. From the results generated by real-time PCR and ELISA, VEGF165 and BMP2 genes were co-expressed in BMP + VEGF group. No significant difference of BMP2 expression was detected between BMP + VEGF and BMP groups ( P 〉 0. 05). Similarly, there was no significant difference of VEGF165 expression between BMP + VEGF and VEGF groups ( P 〉 0. 05). Conclusion VEGF165 and BMP2 genes were successfully co-expressed in MSCs by lentivirus-mediated co-transfection, which provided a further foundation for the combined gene therapy of bone regeneration.