OBJECTIVE To examine the possibility of human sodium iodide symporter (hNIS) protein expression in lung cancer cells. METHODS Human lung A549 cancer cells were thawed and cultured in vitro. The cells were divided in...OBJECTIVE To examine the possibility of human sodium iodide symporter (hNIS) protein expression in lung cancer cells. METHODS Human lung A549 cancer cells were thawed and cultured in vitro. The cells were divided into an experimental group transfected with a recombinant pcDNA3-hNIS plasmid and a control group transfected only with a pcDNA3 plasmid. The recombinant plasmid vector encoding the hNIS gene (pcDNA3-hNIS) was amplified, purified and identified. The hNIS gene was followed by DNA sequencing. A Western blot and an immunohistochemical assay were applied to detect the hNIS protein expression in the transfected human lung A549 cancer cells. RESULTS Restriction enzyme digestion and DNA sequencing results showed the size and direction of the inserted gene in the recombinant pcD- NA3-hNIS plasmid was correct. The Western blot method and immunohistochemical analysis showed a positive NIS protein expression in the experimental group. The NIS protein was detected mainly in the cell membranes showing a positive rate up to 70.6% with no expression of the NIS protein in the control group. There was a significant difference between two groups (P=0.000). CONCLUSION The hNIS gene was transfected effectively into human lung A549 cancer cells mediated by Lipofectamine 2000, and was expressed with its protein in vitro.展开更多
The human C17orf25 gene (Accession No. AF177342) is one of thirteen genes cloned from a region displaying a high score of loss of heterozygosity within chromosome 17pl3.3 in human hepatocellular carcinoma in China[l]....The human C17orf25 gene (Accession No. AF177342) is one of thirteen genes cloned from a region displaying a high score of loss of heterozygosity within chromosome 17pl3.3 in human hepatocellular carcinoma in China[l]. To unveil the underlying mechanisms for the transcription regulation of this gene and understand its implication to the hepatocellular carcinogenesis, we looked into the relevant aspects by both bioinformatic and experimental executions. We found: 1, The abundant expression of the C17orf25 gene was evident in all the cell lines and tissue samples tested, showing little hepatoma-selectivity; 2, Its transcription starts at a single site, locating at -60 from the translation initiation codon; 3, A 58 bp fragment containing the transcription start, extending from -112 to -55, represents the minimal promoter; 4, The consensus sequence within this fragment recognized by SP1 contributes predominantly to the activity of the minimal promoter; 5, The bioinformatic analysis suggests that the C17orf25 gene may encode a protein in the family of the glyoxalase. Our data has provided some deep insight into both function and regulation of the C1 7orf25 gene in the context of the normal liver and hepatocellular carcinoma.展开更多
Magnesium (Mg^2+) is abundant in plant cells and plays a critical role in many physiological processes. A 10-member gene family AtMGT (also known as AtMRS2) was identified in Arabidopsis, which belongs to a eukar...Magnesium (Mg^2+) is abundant in plant cells and plays a critical role in many physiological processes. A 10-member gene family AtMGT (also known as AtMRS2) was identified in Arabidopsis, which belongs to a eukaryote subset of the CorA superfamily, functioning as Mg^2+ transporters. Some family members (AtMGT1 and AtMGT10) function as high-affinity Mg^2+ transporter and could complement bacterial mutant or yeast mutant lacking Mg^2+ transport capability. Here we report an AtMGT family member, AtMGT9, that functions as a low-affinity Mg^2+ transporter, and is essential for pollen development. The functional complementation assay in Salmonella mutant strain MM281 showed that AtMGT9 is capable of mediating Mg^2+ uptake in the sub-millimolar range of Mg^2+. The AtMGT9 gene was expressed most strongly in mature anthers and was also detectable in vascular tissues of the leaves, and in young roots. Disruption of AtMGT9 gene expression resulted in abortion of half of the mature pollen grains in heterozygous mutant +/mgt9, and no homozygous mutant plant was obtained in the progeny of selfed +/mgt9 plants. Transgenic plants expressing AtMGT9 in these heterozygous plants can recover the pollen phenotype to the wild type. In addition, At- MGT9 RNAi transgenic plants also showed similar abortive pollen phenotype to mutant +/mgt9. Together, our results demonstrate that AtMGT9 functions as a low-affinity Mg^2+ transporter that plays a crucial role in male gametophyte development and male fertility.展开更多
Objective: The aim of the study was to observe the transfection efficacy of hepatitis B virus envelope (HBVE) and evaluate its ability as a gene transfer vector for liver cancer cells. Methods: To obtain HBVE, the...Objective: The aim of the study was to observe the transfection efficacy of hepatitis B virus envelope (HBVE) and evaluate its ability as a gene transfer vector for liver cancer cells. Methods: To obtain HBVE, the supematant fluid of HepG 2.2.15 cells was mixed with a PEG8000 solution for concentration and was inactivated by β-propiolactone. The acquired HBVE was used to pack plRES2-EGFP to test its package ability. Then, we examined its quantity and quality with ELISA, PCR, SDS-PAGE and electron microscopy. The plRES2-EGFP was packed with HBVE and obtained the product HBVE-GFP. The plRES2-EGFP was packed with liposome and obtained the product liposome-GFP. HBVE-GFP and liposome-GFP were used to transfer HepG 2 cells to study the transfection efficiency. HBVE-GFP was used to transfer HepG 2, A549, HeLa and FB cells to study the targeting ability. The green fluorescent protein (GFP) expression was observed under a fluorescent microscope. The rate of GFP positive cells was determined by flow cytometry. Results: 1. The acquired HBVE could retain the surface protein HBsAg + pre S1 + pre S2 and had no virus DNA. It had good package ability for plRES2-EGFP. 2. Transfection efficiency: The GFP could be observed in both the liposome group and HBVE group under the fluorescent microscope. But the HBVE group had a higher fluorescent intensity than liposome group. The transfection rate of liposome group was 49.97% + 2.37% while the HBVE group was 70.65% + 3.15% and the fluorescent intensity of the HBVE group was 3-4 times (P = 0.000) for liposome group with the determination of flow cytometry. 3. Targeting ability: The GFP could be observed in the four groups under the fluorescent microscope. The HepG 2 group had the highest fluorescent intensity among the four groups. The transfection rate of HepG 2 group was 71.35% + 0.03% which was highly expressed than other groups (P = 0.000) and the fluorescent intensity of the HepG 2 group was 2-3 times (P = 0.000) for the other 3 groups with the determination of flow cytometry. Conclusion: HBVE can be constructed successfully with the methods of PEG8000 and β-propiolactone from the supernatant fluid of HepG 22.15 cells. The HBVE can be a candidate gene transfer vector for liver cancer cells.展开更多
AIM: To investigate the expression and methylation status of the secreted frizzled-related protein 2 (SFRP2) in esophageal squamous cell carcinoma (ESCC) and ex- plore its role in ESCC carcinogenesis.METHODS: Se...AIM: To investigate the expression and methylation status of the secreted frizzled-related protein 2 (SFRP2) in esophageal squamous cell carcinoma (ESCC) and ex- plore its role in ESCC carcinogenesis.METHODS: Seven ESCC cell lines (KYSE 30, KYSE150, KYSE410, KYSE510, EC109, EC9706 and TE-1) and one immortalized human esophageal epithelial cell line (Het- 1A), 20 ESCC tissue samples and 20 paired adjacent non-tumor esophageal epithelial tissues were analyzed in this study. Reverse-transcription polymerase chain reaction (RT-PCR) was employed to investigate the expression of SFRP2 in cell lines, primary ESCC tumor tissue, and paired adjacent normal tissue. Methylation status was evaluated by methylation-specific PCR and bisulfite sequencing. The correlation between expres- sion and promoter methylation of the SFRP2 gene was confirmed with treatment of 5-aza-2'-deoxycytidine. To assess the potential role of SFRP2 in ESCC, we es-tablished stable SFRP2-transfected cells and examined them with regard to cell proliferation, colony formation, apoptosis and cell cycle in vivo and in vitro.RESULTS: SFRP2 mRNA was expressed in the im- mortalized normal esophageal epithelial cell line but not in seven ESCC cell lines. By methylation-specific PCR, complete methylation was detected in three cell lines with silenced SFRP2 expression, and extensive methylation was observed in the other four ESCC cell lines. 5-aza-2'-deoxycytidine could restore the expres- sion of SFRP2 mRNA in the three ESCC cell lines lack- ing SFRP2 expression. SFRP2 mRNA expression was obviously lower in primary ESCC tissue than in adjacent normal tissue (0.939 ± 0.398 vs 1.51 ± 0.399, P 〈 0.01). SFRP2 methylation was higher in tumor tissue than in paired normal tissue (95% vs 65%, P 〈 0.05). The DNA methylation status of the SFRP2 correlated inversely with the SFRP2 expression. To assess the potential role of SFRP2 in ESCC, we established stable SFRP2 transfectants and control counterparts by in- troducing pcDNA3.1/v5 hisA -SFRP2 or pcDNA3.1/v5 hisA -empty vector into KYSE30 cells lacking SFRP2 expression. After transfection, the forced-expression of SFRP2 was confirmed by the RT-PCR. In comparison with the control groups, stably-expressed SFRP2 in KYSE 30 cells significantly reduced colony formation in vitro (47.17% 4± 15.61% vs 17% :1: 3.6%, P = 0.031) and tumor growth in nude mice (917.86:1:249.35 mm3 vs 337.23 ± 124.43 mm3, P 〈 0.05). Using flow cytom- etry analysis, we found a significantly higher number of early apoptotic cells in SFRP2-transfected cells than in the control cells (P = 0.025). The mean cell number in the S and G2-M phases of the cell cycle was also significantly lower in SFRP2-transfected KYSE30 cells compared with mock transfected counterparts. CONCLUSION: Silencing of SFRP2 expression through promoter hypermethylation may be a factor in ESCC carcinogenesis through loss of its tumor-suppressive activity.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 develop an alternative method for assessment of gene delivery systems in vivo.Methods Mouse primary spleen lymphocytes were genetically modified in vitro by a retroviral vector harboring a Gaussia lucifer...Objective To develop an alternative method for assessment of gene delivery systems in vivo.Methods Mouse primary spleen lymphocytes were genetically modified in vitro by a retroviral vector harboring a Gaussia luciferase(Gluc) expression cassette.After implantation of these cells into recipient mice,the expression of Gluc was detected in whole blood or plasma collected.Results As little as 10 μL whole blood drawn from the recipient mice could guarantee prompt reading of Gluc activity with a luminometer.And the reading was found in good correlation with the number of genetically modified spleen lymphocytes implanted to the mice.Conclusions Gluc may be useful as an in vivo reporter for gene therapy researches,and Gluc blood assay could provide an alternative method for assessment of gene delivery systems in vivo.展开更多
Objective : To investigate the effects of the transfection of NHE-1 ribozyme gene on the apoptosis of pulmonary artery smooth muscle cells (PASMC) in vitro. Methods: After NHE-1 ribozyme gene was designed, synthesized...Objective : To investigate the effects of the transfection of NHE-1 ribozyme gene on the apoptosis of pulmonary artery smooth muscle cells (PASMC) in vitro. Methods: After NHE-1 ribozyme gene was designed, synthesized and then cloned into plasmid pLXSN, the recombined plasmid was tansfected into cultured rat PASMC. Expression of NHE-1 mRNA was detected with semi-quantitative RT-PCR. Intracellular pH (pHi) was measured by using fluorescence dye BCECF-AM. Cell cycle was measured with aid of flow cy-tometric DNA analysis. Cell apoptosis was observed with electron microscopy and terminal deoxynucleotidyl transferase-mediated dUTP nick end labelling (TUNED respectively. Results: The NHE-1 mRNA expression level and pHi value were significantly lower in PASMCs transfected with NHE-1 ribozyme gene than those transfected with pLXSN or without transfection. Meanwhile, the apoptosis rate of cells transfected with NHE-1 ribozyme gene was increased significantly. Morphology of cell apoptosis was observed in the cells transfected with NHE-1 ribozyme gene under an electron microscope. Conclusion: The transfection of NHE-1 ribozyme gene induces the apoptosis of PASMCs by inhibiting NHE-1 expression and intracellular acidification.展开更多
文摘OBJECTIVE To examine the possibility of human sodium iodide symporter (hNIS) protein expression in lung cancer cells. METHODS Human lung A549 cancer cells were thawed and cultured in vitro. The cells were divided into an experimental group transfected with a recombinant pcDNA3-hNIS plasmid and a control group transfected only with a pcDNA3 plasmid. The recombinant plasmid vector encoding the hNIS gene (pcDNA3-hNIS) was amplified, purified and identified. The hNIS gene was followed by DNA sequencing. A Western blot and an immunohistochemical assay were applied to detect the hNIS protein expression in the transfected human lung A549 cancer cells. RESULTS Restriction enzyme digestion and DNA sequencing results showed the size and direction of the inserted gene in the recombinant pcD- NA3-hNIS plasmid was correct. The Western blot method and immunohistochemical analysis showed a positive NIS protein expression in the experimental group. The NIS protein was detected mainly in the cell membranes showing a positive rate up to 70.6% with no expression of the NIS protein in the control group. There was a significant difference between two groups (P=0.000). CONCLUSION The hNIS gene was transfected effectively into human lung A549 cancer cells mediated by Lipofectamine 2000, and was expressed with its protein in vitro.
文摘The human C17orf25 gene (Accession No. AF177342) is one of thirteen genes cloned from a region displaying a high score of loss of heterozygosity within chromosome 17pl3.3 in human hepatocellular carcinoma in China[l]. To unveil the underlying mechanisms for the transcription regulation of this gene and understand its implication to the hepatocellular carcinogenesis, we looked into the relevant aspects by both bioinformatic and experimental executions. We found: 1, The abundant expression of the C17orf25 gene was evident in all the cell lines and tissue samples tested, showing little hepatoma-selectivity; 2, Its transcription starts at a single site, locating at -60 from the translation initiation codon; 3, A 58 bp fragment containing the transcription start, extending from -112 to -55, represents the minimal promoter; 4, The consensus sequence within this fragment recognized by SP1 contributes predominantly to the activity of the minimal promoter; 5, The bioinformatic analysis suggests that the C17orf25 gene may encode a protein in the family of the glyoxalase. Our data has provided some deep insight into both function and regulation of the C1 7orf25 gene in the context of the normal liver and hepatocellular carcinoma.
基金Acknowledgments We are grateful to Dr Michael E Maguire (Case Western Reserve University, USA) for providing the Salmonella mutant strain MM281 and advice on tracer uptake. This work was supported by grants from National Natural Science Foundation of China (30370794), Hunan Young Scientist Program (03JJY1003), and Hunan Provincial NSFC (08JJ3088).
文摘Magnesium (Mg^2+) is abundant in plant cells and plays a critical role in many physiological processes. A 10-member gene family AtMGT (also known as AtMRS2) was identified in Arabidopsis, which belongs to a eukaryote subset of the CorA superfamily, functioning as Mg^2+ transporters. Some family members (AtMGT1 and AtMGT10) function as high-affinity Mg^2+ transporter and could complement bacterial mutant or yeast mutant lacking Mg^2+ transport capability. Here we report an AtMGT family member, AtMGT9, that functions as a low-affinity Mg^2+ transporter, and is essential for pollen development. The functional complementation assay in Salmonella mutant strain MM281 showed that AtMGT9 is capable of mediating Mg^2+ uptake in the sub-millimolar range of Mg^2+. The AtMGT9 gene was expressed most strongly in mature anthers and was also detectable in vascular tissues of the leaves, and in young roots. Disruption of AtMGT9 gene expression resulted in abortion of half of the mature pollen grains in heterozygous mutant +/mgt9, and no homozygous mutant plant was obtained in the progeny of selfed +/mgt9 plants. Transgenic plants expressing AtMGT9 in these heterozygous plants can recover the pollen phenotype to the wild type. In addition, At- MGT9 RNAi transgenic plants also showed similar abortive pollen phenotype to mutant +/mgt9. Together, our results demonstrate that AtMGT9 functions as a low-affinity Mg^2+ transporter that plays a crucial role in male gametophyte development and male fertility.
基金Supported by a grant from the National Natural Sciences Foundation of China No 30100189
文摘Objective: The aim of the study was to observe the transfection efficacy of hepatitis B virus envelope (HBVE) and evaluate its ability as a gene transfer vector for liver cancer cells. Methods: To obtain HBVE, the supematant fluid of HepG 2.2.15 cells was mixed with a PEG8000 solution for concentration and was inactivated by β-propiolactone. The acquired HBVE was used to pack plRES2-EGFP to test its package ability. Then, we examined its quantity and quality with ELISA, PCR, SDS-PAGE and electron microscopy. The plRES2-EGFP was packed with HBVE and obtained the product HBVE-GFP. The plRES2-EGFP was packed with liposome and obtained the product liposome-GFP. HBVE-GFP and liposome-GFP were used to transfer HepG 2 cells to study the transfection efficiency. HBVE-GFP was used to transfer HepG 2, A549, HeLa and FB cells to study the targeting ability. The green fluorescent protein (GFP) expression was observed under a fluorescent microscope. The rate of GFP positive cells was determined by flow cytometry. Results: 1. The acquired HBVE could retain the surface protein HBsAg + pre S1 + pre S2 and had no virus DNA. It had good package ability for plRES2-EGFP. 2. Transfection efficiency: The GFP could be observed in both the liposome group and HBVE group under the fluorescent microscope. But the HBVE group had a higher fluorescent intensity than liposome group. The transfection rate of liposome group was 49.97% + 2.37% while the HBVE group was 70.65% + 3.15% and the fluorescent intensity of the HBVE group was 3-4 times (P = 0.000) for liposome group with the determination of flow cytometry. 3. Targeting ability: The GFP could be observed in the four groups under the fluorescent microscope. The HepG 2 group had the highest fluorescent intensity among the four groups. The transfection rate of HepG 2 group was 71.35% + 0.03% which was highly expressed than other groups (P = 0.000) and the fluorescent intensity of the HepG 2 group was 2-3 times (P = 0.000) for the other 3 groups with the determination of flow cytometry. Conclusion: HBVE can be constructed successfully with the methods of PEG8000 and β-propiolactone from the supernatant fluid of HepG 22.15 cells. The HBVE can be a candidate gene transfer vector for liver cancer cells.
基金Supported by National Natural Science Foundation of China,No. 81050016Research Fund for the Doctoral Program of Higher Education of China,No. 200800250003
文摘AIM: To investigate the expression and methylation status of the secreted frizzled-related protein 2 (SFRP2) in esophageal squamous cell carcinoma (ESCC) and ex- plore its role in ESCC carcinogenesis.METHODS: Seven ESCC cell lines (KYSE 30, KYSE150, KYSE410, KYSE510, EC109, EC9706 and TE-1) and one immortalized human esophageal epithelial cell line (Het- 1A), 20 ESCC tissue samples and 20 paired adjacent non-tumor esophageal epithelial tissues were analyzed in this study. Reverse-transcription polymerase chain reaction (RT-PCR) was employed to investigate the expression of SFRP2 in cell lines, primary ESCC tumor tissue, and paired adjacent normal tissue. Methylation status was evaluated by methylation-specific PCR and bisulfite sequencing. The correlation between expres- sion and promoter methylation of the SFRP2 gene was confirmed with treatment of 5-aza-2'-deoxycytidine. To assess the potential role of SFRP2 in ESCC, we es-tablished stable SFRP2-transfected cells and examined them with regard to cell proliferation, colony formation, apoptosis and cell cycle in vivo and in vitro.RESULTS: SFRP2 mRNA was expressed in the im- mortalized normal esophageal epithelial cell line but not in seven ESCC cell lines. By methylation-specific PCR, complete methylation was detected in three cell lines with silenced SFRP2 expression, and extensive methylation was observed in the other four ESCC cell lines. 5-aza-2'-deoxycytidine could restore the expres- sion of SFRP2 mRNA in the three ESCC cell lines lack- ing SFRP2 expression. SFRP2 mRNA expression was obviously lower in primary ESCC tissue than in adjacent normal tissue (0.939 ± 0.398 vs 1.51 ± 0.399, P 〈 0.01). SFRP2 methylation was higher in tumor tissue than in paired normal tissue (95% vs 65%, P 〈 0.05). The DNA methylation status of the SFRP2 correlated inversely with the SFRP2 expression. To assess the potential role of SFRP2 in ESCC, we established stable SFRP2 transfectants and control counterparts by in- troducing pcDNA3.1/v5 hisA -SFRP2 or pcDNA3.1/v5 hisA -empty vector into KYSE30 cells lacking SFRP2 expression. After transfection, the forced-expression of SFRP2 was confirmed by the RT-PCR. In comparison with the control groups, stably-expressed SFRP2 in KYSE 30 cells significantly reduced colony formation in vitro (47.17% 4± 15.61% vs 17% :1: 3.6%, P = 0.031) and tumor growth in nude mice (917.86:1:249.35 mm3 vs 337.23 ± 124.43 mm3, P 〈 0.05). Using flow cytom- etry analysis, we found a significantly higher number of early apoptotic cells in SFRP2-transfected cells than in the control cells (P = 0.025). The mean cell number in the S and G2-M phases of the cell cycle was also significantly lower in SFRP2-transfected KYSE30 cells compared with mock transfected counterparts. CONCLUSION: Silencing of SFRP2 expression through promoter hypermethylation may be a factor in ESCC carcinogenesis through loss of its tumor-suppressive activity.
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 National High Technology Research and Development Program of China (863 Program) (2007AA021206,2007AA021106)
文摘Objective To develop an alternative method for assessment of gene delivery systems in vivo.Methods Mouse primary spleen lymphocytes were genetically modified in vitro by a retroviral vector harboring a Gaussia luciferase(Gluc) expression cassette.After implantation of these cells into recipient mice,the expression of Gluc was detected in whole blood or plasma collected.Results As little as 10 μL whole blood drawn from the recipient mice could guarantee prompt reading of Gluc activity with a luminometer.And the reading was found in good correlation with the number of genetically modified spleen lymphocytes implanted to the mice.Conclusions Gluc may be useful as an in vivo reporter for gene therapy researches,and Gluc blood assay could provide an alternative method for assessment of gene delivery systems in vivo.
基金National Natural Science Foundation of China (No. 39870352)
文摘Objective : To investigate the effects of the transfection of NHE-1 ribozyme gene on the apoptosis of pulmonary artery smooth muscle cells (PASMC) in vitro. Methods: After NHE-1 ribozyme gene was designed, synthesized and then cloned into plasmid pLXSN, the recombined plasmid was tansfected into cultured rat PASMC. Expression of NHE-1 mRNA was detected with semi-quantitative RT-PCR. Intracellular pH (pHi) was measured by using fluorescence dye BCECF-AM. Cell cycle was measured with aid of flow cy-tometric DNA analysis. Cell apoptosis was observed with electron microscopy and terminal deoxynucleotidyl transferase-mediated dUTP nick end labelling (TUNED respectively. Results: The NHE-1 mRNA expression level and pHi value were significantly lower in PASMCs transfected with NHE-1 ribozyme gene than those transfected with pLXSN or without transfection. Meanwhile, the apoptosis rate of cells transfected with NHE-1 ribozyme gene was increased significantly. Morphology of cell apoptosis was observed in the cells transfected with NHE-1 ribozyme gene under an electron microscope. Conclusion: The transfection of NHE-1 ribozyme gene induces the apoptosis of PASMCs by inhibiting NHE-1 expression and intracellular acidification.
