Objective To determine whether the transforminggrowth factor β1 (TGF-β1) is a key regulatory molecule required for an increase or a balance of extracellular matrix (ECM) and DNA synthesis in the goat passaged nucleus pulposus (NP) cells. Methods The NP cells isolated from the goat intervertebral discs were cultured in vitro for a serial of passages and transfected with the replicationincompetent adenoviral vectors carrying the human TGF-β1 (hTGF-β1) or lacZ genes. Then, they were cultured in monolayer or alginate bead 3dimensional (3-D) systems for 10 days.The changes in the production and the molecular components of ECM that occurredin the NP cells transfected with Ad/hTGF-β1 or the controls were evaluated by Westernblot and absorbance of glycosaminoglycan (GAG)-Alcian Blue complexes. Differences of DNA synthesis in the variant cells and culture systems were assessed by fluorometric analysis of the DNA content. ResultsA quantitation in the variant culture systems indicated that in monolayers the NP cells at Passage 3 transfected with Ad/hTGF-β1 had a much higher cell viability and more DNA synthesis(P<0.05); however, in the alginate 3-D culture system, the NP cells transfected with Ad/hTGF-β1 did not have any significant difference from the controls(P>0.05). The Western blotting analysis ofthe protein sample isolated from the variant cells for TGF-β1, type Ⅱ collagen, and Aggrecan expression indicated that in the monolayers and alginate 3-D culture systems the NP cells at Passage 3 transfected with Ad/hTGF-β1 revealed much higher protein levels than the controls(P<0.05); whereas the type Ⅰcollagen content was much lower than the controls (P<0.05), but a significatly increased ratio of type Ⅱ/type Ⅰ collagen was found in both of the cell culture systems(P<0.05). The GAG quantification also showed a positive result in both the cell culture systems and the NP cells at Passage 3 transfected with Ad/hTGF-β1 had a much higher GAG content than the controls(P<0.05). Conclusion To a greaterextent, hTGF-β1 can play a key role in maintaining the phenotype of the NP cells and can still have an effect of the phenotypic modulation after a serial of the cell passages. The NP cells that are genetically manipulated to express hTGF-β1 have a promising effect on the restoration of the intervertebral disc defects. The NP cells transfected with Ad/hTGF-β1 cultured in the 3-D alginate bead systems can show a nearly native phenotype.
Objective To construct the recombined DNA pcDNA3.1-hBMP-2 and transfect into human marrow stromal stem cells (MSCs) in vitro, and to explore theeffects of transfection on cellular proliferation and expression of vascular endothelial growth factor (VEGF). Methods The expression of human bone morphogenetic protein 2(hBMP-2) in these cells after transfection was determined by in situ hybridization and immunohistochemical analysis and Western blot analysis. The changes of cell proliferation were observed by flow cytometry. The effects of BMP-2 gene transfection on expression of VEGF in the cells were analyzed by in situ hybridization of VEGF cDNA probe. Results Stable expressionof hBMP-2 in pcDNA3.1-hBMP-2 transfected MSCs was confirmed in the levels of mRNA and protein.Cellular proportion in S period increased, which indicated that the synthesis of cell DNA increased. The expression of VEGF in the cells increased obviously. Conclusion With the help of lipofectamine, the pcDNA3.1-hBMP-2 were transfected into human MSCs successfully. hBMP-2 plays an important role in promoting cellular proliferation and vascular generation during bone repair.
【Abstract】ObjectiveTo construct eukaryotic expression vector pSecTag2/HygroB-CD59 of human CD59 and transfect NIH3T3 cells after encapsulated by chitosan. MethodsThe human CD59 fragments were obtained by PCR form CD59-pGEM-T Easy Vector, cloned into the eukaryotic expression vector pSecTag2/HygroB, identified by restriction endonuclease’s digestion and DNA sequencing. After the particles of pSecTag2/HygroB-CD59 were encapsulated by chitosan, the NIH3T3 cells were transfected by chitosanCD59 nanoparticles and detected CD59 expression by immunohistochemistry stain. ResultsThe CD59 fragment was 312 bp. Its sequence was as same as CD59 cDNA in Genbank. After having been transfected by chitosan-CD59 nanoparticles in 24 hours, the 3T3 cells showed diffusely positive in the cytoplasms by anti-CD59 immunohistochemistry. ConclusionThe eukaryotic expression vector of human CD59 is constructed and transfected to NIH3T3 cells after encapsulated by chitosan. It will be very helpful for further study on transgenic livers.
【Abstract】 Objective To review the research progress of possible mechanism of indoleamine 2, 3-dioxygenase(IDO) in immunological regulation and function of transplantation immunity. Methods The advances in the IDO location, immunological regulatory mechanism and function of transplantation immunity were introduced based on the recent related l iterature. Results IDO played an immunoregulatory role by locally depleting tryptophan in tissue microenvironment which resulted in immunosuppression of allogeneic T-cell prol iferation. IDO cDNA was del ivered to chromosome in interesting cells by gene transfection and stimulated to express, which was associated with a prolongation in allograft survival in vivo . Conc lu sion IDO offers a new way in transplantation immunity, and this provid novel method for elevating allograft survival rate.
Objective To investigate the possibility of constructing eukaryoticexpression vector for human angiopoietin 1(hAng-1),transfecting it to bonemarrow mesenchymal stem cells (MSCs) so as to repair bone defect. Methods The eukaryotic expression vector pcDNA3-hAng-1 was constructed by recombinant DNA technique, transfected into MSCs by liposome DOTAP, and selected with G418. The hAng-1 expression of mRNA and protein was detected by reverse transcript-PCR and Western Blot. Results After the recombinant eukaryotic expressionvector for hAng-1 was digested with Xho-I and BamH-I, electrophoresis revealed 1.4 kb fragment for hAng-1 gene and 5.4 kb fragment for pcDNA3 vector. In the transfected MSCs, the mRNA and protein expression of hAng-1 gene were detected with reverse transcriptPCR and Western Blot. Conclusion The constructed eukaryotic expression vector hAng-1 could be expressed in the transfected MSCs, thus to provide the basis for bone repair with tissue engineering.
ObjectiveTo construct and identify the recombinant adenovirus vector expressing bone morphogenetic protein 2(BMP-2) and transforming growth factor β3(TGF-β3) genes,to observe the expressions of BMP-2 and TGF-β3 after transfected into bone marrow mesenchymal stem cells (BMSCs) of the Diannan small-ear pigs. MethodsBMP-2 cDNA and TGF-β3 cDNA were amplified by PCR,and were subcloned into the pEC3.1(+) plasmid to obtain pEC-GIE 3.1-BMP-2 and pEC-GIE3.1-TGF-β3 plasmid respectively.They were subcloned into pGSadeno vector by homologous recombination reaction and HEK293 cells were transfected after linearization to obtain Ad-BMP-2 and Ad-TGF-β3.The BMSCs were isolated from the bone marrow of Diannan small-ear pig and cultured.The 3rd passage BMSCs were transfered with Ad-BMP-2(group A),Ad-TGF-β3(group B),Ad-BMP-2+Ad-TGF-β3(group C),and untransfected cells served as a control (group D).The expressions of BMP-2 and TGF-β3 genes and proteins were detected by PCR,immunofluorescence,and Western blot.The chondrogenic differentiation of BMSCs was evaluated by immunohistochemical of collagen type Ⅱ. ResultsThe Ad-BMP-2 and Ad-TGF-β3 were constructed successfully and confirmed by PCR and sequencing.The expression clones of Ad-BMP-2 and Ad-TGF-β3 were packaged into maturated adenovirus successfully,the titer was 5.6×108 and 1.6×108 pfu/mL respectively.The PCR results showed a light band at 310 bp in group A and at 114 bp in group B,and both 310 bp and 114 bp bands in group C,but no band in group D.The image of immunofluorescence showed that there were red fluorescence and green fluorescence expressions in the cytoplasm of BMSCs at 72 hours after transfection in groups A and B,respectively;in group C,both red and green fluorescence expressions were detected,and no red or green fluorescence was detected in group D.The results of Western blot showed that there was a light band at 18×103 in group A and at 50×103 in group B;both 18×103 and 50×103 bands were detected in group C;but no band was detected in group D.The cells were positive for collagen type Ⅱ in groups A,B,and C;group C acquired strong collagen type Ⅱ staining when compared with group A and group B;in group D,the cells were negative for collagen type Ⅱ staining. ConclusionThe recombinant adenovirus vector expressing BMP-2 and TGF-β3 are constructed successfully.The BMP-2 and TGF-β3 genes could be expressed effectively in BMSCs of Diannan small-ear pig after transfection,which could afford modified seeding cells for cartilage tissue engineering.
Objective To explore the effects of the basic fibroblast growth factor(bFGF) gene transfection on the meniscal fibrochondrocytes with the reconstructed lentivirus and to observe the response of the meniscal fibrochondrocytes to the bFGF gene transfection. Methods The cultured meniscal fibrochondrocytes were isolated from the same 3-monthold New Zealand rabbit. The cultured first-generation meniscal fibrochondrocytes were divided into 3 groups:Group A (experimental group), Group B (control group), and Group C (blank group). Each group comprised the cells in a 24hole flask in which each hole contained 2×104 cells. At the confluence of 60%, the fibrochondrocytes in Group A were cultured with the reconstructed lentivirus carrying the bFGF gene. The fibrochondrocytes in Group B were cultured with the lentivirus carrying no bFGF gene. The fibrochondrocytes in Group C were cultured without any intervention. After 48 h, the cell cycle, the collagen synthesis ability, the expression of bFGF, and the cell proliferation ability in each group were investigated. Results In Group A, the bFGF expression of 870±60 pg/ml was detected in the cells 48 h afterthe co-culture; however, in Group B and Group C, no expression of bFGF was found. After the co-culture for 6 days, the results of the MTT colorimetry revealed that the cells in Group A had an absorbtance of 0.427±0.037, which had a significant difference when compared with that in Group B and Group C (0.320±0.042,0.308±0.034,Plt;0.01). The cell cycle was significantly shorter in GroupA than in Group B and Group C (Plt;0.05); The durations of G1, S and G2M of the cells in Group A were 16.28, 12.60 and 11.04 h, but those in Group B and Group C were 23.61, 16.90, 21.33 h and 21.56, 19.80, 21.41 h, respectively. The disintegration per minute of the cells was significantly greater in Group A than in Group B and Group C (7281.69±805.50 vs 5916.40±698.11 and 5883.57±922.63,Plt;0.05). Conclusion The lentivirus vector can transfer the bFGF gene into the meniscal fibrochondrocytes, resulting in an increase of the cell proliferation and the collagen synthesis.
Objective To investigate a change in the differentiation and biological function of the cultured rat fibroblast (FB) transfected by the myoblast determining gene (MyoD) and the connexin 43 (Cx43) gene and to explore the possible mechanism of the MyoD and Cx43 genes on treatment of ischemic heart disease (IHD). Methods The gene cloning technology was used to construct the eukaryotic expressed plasmid vector pLenti6/V5-DEST-MyoD and pLenti6/V5DEST-Cx43 in which MyoD cDNA or Cx43 cDNA was inserted. The RFL-6 FB cells were transfected with exogenetic MyoD cDNA or Cx43 cDNA via lipofectamine, followed by the Blasticidin (50 μg/ml) selection, according to the lentiviral expression system (ViraPower) protocol. The expression and the biological functions of MyoD and Cx43 in the transfectants were testified by RT-PCR, Western blot, and molecular and immunocytochemical methods. The mophological structure changes of the cells were observed under microscope before and after the transfection. Results The expression of MyoD and Cx43 was detected in the MyoD and Cx43 genes transfected FB with RT-PCR and Western blot. The immunocytochemical methods indicated the expressionsof the MyoD and Cx43 genes, while desmin and αactin were found in these cells. The myotubes were found from the cultures incubated a week in the differentiation medium, in which the transfected cells had a characteristic of the filamentsin their cytoplasm and showed a myoblast morphology. Conclusion MyoD cDNA can induce the cultured FB to differentiate into the myoblasts and Cx43 cDNA can enhance the gap junctional intercellular communication between the cell and the cell. Thus, a further experimental foundation for the therapy of IHD can be provided.
Objective To observe the expression of adenovirus vector coding for mouse endostatin gene(Ad-mES) in lung cancer cells and its antiangiogenic activity in human umbilical vein endothelial cells(ECV304) in vitro.Methods Lewis lung cancer(LLC) cells were transfected with Ad-mES at different multiplicity of infection(MOI).The expression of mES in LLC cells and supernatant after 48 hours was detected by immunohistochemical staining and Western blot respectively.The inhibitory effect of supernatant at different MOI on ECV304 non-stamulated and stimulated by basic fibroblast growth factor(bFGF) was measured by methyl thiazolyl tetrazolium(MTT) assay.Results After transfected for 48 hours,endostatin was identified in the cell plasma of infected LLC and negative result was founded in non-infected LLC.Western blot revealed band of endostatin in 20 kDa in culture supernatant of infected LLC and negative results in non-infected LLC.The inhibitory effects on ECV304 cell proliferation were ber at higher MOI,and the difference was significant between stimulated and non-stamulated cells by bFGF(Plt;0.05).Conclusion Ad-mES can transfect and express endostatin effectively in LLC with biological activity
The study was performed to construct a human cervical cancer cell line C33A which can stably express HPV58E6E7 fusion gene. Firstly, C33A cells were transfected with the recombinant lentivirus LV-HPV58E6E7 which contained HPV58E6E7 fusion gene, and the stably transfected cells (LV-HPV58E6E7/C33A) were screened out by flow cytometry. MTT was used to observe the growth of LV-HPV58E6E7/C33A cells and flow cytometry was carried out to detect the cell cycle. LV-HPV58E6E7/C33A cells were inoculated into the left armpits of nude mice. Then, the transcription and expression of HPV58E6E7 fusion gene was detected by qRT-PCR and Western blot, respectively. The results showed that HPV58E6E7 fusion gene can promote the proliferation of C33A cells. HPV58E6E7 fusion gene can be stably transcripted and expressed in vaccinated nude mice. The conclusion indicated that we successfully established a cervical cancer cell line LV-HPV58E6E7/C33A which can stably express HPV58E6E7 fusion gene. This cell line will provide an antigen cell line for the immune effect detection of HPV58 therapeutic vaccine.