ObjectiveTo investigate the inhibitory effect of lentivirus-mediated polypyrimidine bundle binding protein-associated splicing factor (PSF) on retinal neovascularization (RNV) in mice model of oxygen-induced retinopathy (OIR).MethodsOne hundred and twelve 5-day-old C57BL/6J mice were randomly divided into normal control group, simple OIR model group, OIR model + lentivirus empty vector treatment group (Vec group) and OIR model + PSF lentivirus treatment group (PSF group), with 16, 32, 32 and 32 mice, respectively. When the mice were 7 days old, the mice in the normal control group were fed in a routine environment, and the mice in the OIR model group, Vec group and PSF group were established OIR model. The mice in the Vec group and PSF group were given an intravitreal injection of 1 μl of lentiviral vector and PSF lentivirus (titer 1×1011 TU/ml) at the age of 12 days. No injection was performed in the normal control group and simple OIR group. RNV was evaluated by counting the number of pre-retinal neovascular cells and analysis of non-perfusion area by immunofluorescent staining of the mouse retina. Real-time quantitative PCR was applied to detect the mRNA expression of nuclear factor erythroid 2-related factor 2 (Nrf2) and hemeoxygenase-1 (HO-1). Western blot analysis was applied to detect the protein expression of Nrf2, HO-1 and PSF. Results Of the normal control group, simple OIR model group, Vec group and PSF group, the number of pre-retinal neovascular cell nuclei were 0.00, 14.36±5.50, 15.67±4.96, 8.13±2.09, the non-perfusion area were 0.00%, (35.71±2.81)%, (36.57±4.53)%, (15.33±4.75)%, respectively. The differences of the number of pre-retinal neovascular cell nuclei and non-perfusion area among 4 groups were significant (F=24.87, 165.70; P<0.05). Compared with the normal control group, there were more pre-retinal neovascular cell nucleis and larger non-perfusion area in the simple OIR model group and Vec group (P<0.05). Compared with the simple OIR model group and Vec group, there were lower pre-retinal neovascular cell nucleis and smaller non-perfusion area in the PSF group (P<0.05). Real-time quantitative PCR and Western blot showed that the mRNA expression of Nrf2, HO-1 (F=53.66, 83.54) and protein expression of Nrf2, HO-1 and PSF (F=58.38, 52.69, 24.79) among 4 groups were significant (P<0.05). The mRNA expression of Nrf2, HO-1 and protein expression of Nrf2, HO-1 and PSF in the simple OIR model group and Vec group decreased significantly than those in the normal control group (P<0.05). The mRNA expression of Nrf2, HO-1 and protein expression of Nrf2, HO-1 and PSF in the PSF group were increased significantly than those in the simple OIR model group and Vec group (P<0.05). model group and Vec group (P<0.05).ConclusionIntravitreal injection of lentivirus-mediated PSF inhibits RNV in mice model of OIR possibly through up-regulating the expression of Nrf2 and HO-1.
Objective To observe the effect of shRNA interference lentivirus vector targeting rat Sirt1 gene on the expression of Sirt1 in retinal ganglion cell (RGC). Methods Four short hairpin (sh) RNA interference sequences targeting rat Sirt1 gene were designed. The target sequences of Oligo DNA were synthesized and annealed to double strand DNA, which was subsequently connected with pGLV3 lentivirus vector to build the lentiviral vector. The positive clones were identified by polymerase chain reaction (PCR) and DNA sequencing. The lentiviral vector construct and lentiviral packaging plasmids were co-transfected into 293T cells, then the titer of lentivirus were determined. The RGC were divided into 6 groups including blank group, negative control group and si-Sirt1-1, si-Sirt1-2, si-Sirt1-3, si-Sirt1-4 groups. Real-time PCR and Western blotting were used to detect the expression of Sirt1 mRNA and protein in the RGC cells. Results PCR and DNA sequencing analysis confirmed that the shRNA sequence was successfully inserted into the lentivirus vector. The concentrated titer of virus suspension was 8×108 TU/ml after the recombinant lentiviral vector successfully transfected and harvested in 293T cells. Comparing with NC group, the expression of Sirt1 mRNA and protein were significantly decreased in the si-Sirt1-1, si-Sirt1-2, si-Sirt1-3 and si-Sirt1-4 groups (F=27.682, 1 185.206; P=0.000, 0.000). The si-Sirt1-2 group had the strongest effect in reducing the expression of Sirt1 mRNA and protein. Conclusion The 4 lentiviral vectors harboring RNAi targeting rat Sirt1 gene can effectively down regulate the expression of Sirt1 mRNA and protein in RGC cells.
ObjectiveTo explore the effects on osteogenic differentiation of adipose derived stem cells (ADSCs) by simultaneously down-regulating Noggin combined with up-regulating bone morphogenetic protein 14 (BMP-14) in vitro. MethodsPrimary ADSCs were isolated and expanded in vitro from 5 Sprague Dawley rats (weighing, 250-300 g). ADSCs were transfected with lentiviral (Lv)-enhanced green fluorescent protein in group A (control group), with Lv-BMP-14 in group B, and with Lv-BMP-14 and Lv-Noggin shRNA in group C. BMP-14 and osteogenesis-related genes[collagen type I, alkaline phosphatase (ALP), and osteocalcin (OCN)] mRNA expression levels were detected by real time fluorescence quantitative PCR at 3, 7, and 14 days after transfection. Alizarin red staining for calcium nodules was also employed to assess the osteogenic ability of co-transfected ADSCs. ResultsAt 3 days after transfection, no significant difference was found in BMP-14 mRNA expression among groups P>0.05). At 7 and 14 days after transfection, BMP-14 mRNA expression was significantly higher in group C than groups A and B, and in group B than group A (P<0.05). At 3 days after transfection, collagen type I, ALP, and OCN mRNA expressions of group C were significantly higher than those of groups A and B (P<0.05), but no significant difference was shown between groups A and B P>0.05). At 7 and 14 days, collagen type I, ALP, and OCN mRNA expressions were higher in group C than groups A and B, and in group B than group A, showing significant difference (P<0.05) except collagen type I mRNA expression at 7 days between groups A and B P>0.05). The results of alizarin red staining showed that the amount of calcium nodules presented an increased tendency in the order of group A, group B, and group C. ConclusionBMP-14 is capable of enhancing osteogenic differentiation of ADSCs. A combination of inhibiting Noggin gene expression and enhancing BMP-14 gene expression in ADSCs can significantly strengthen osteogenic differentiation capability, showing significant synergistic effect.
Objective To construct gene-modified hepatic stem cells (WB-F344 cells), which have rat IL-13 gene and can secrete the recombinant rat IL-13 cytokine in the cells. Methods Firstly, the rat IL-13 sequences were synthesized. Then the sequences were amplificated in bacterium coli after recombinated with pWPXL-MOD plasmid. After PCR and sequence identification, the positive clones were packaged into lentivirus. After detecting the virus titer, the WB-F344 cells with constructed lentivirus vector with rat IL-13 gene were cultured, then the valid targets (expression level of the IL-13) were detected by real time-PCR and Western blot in cultured WB-F344 cells on 5 days. Results The valid DNA of rat IL-13 was recombinated and packaged in lentivirus vector. The recombinant gene sequence was correct by checking with gene sequence test. Then the recombinant was introducted into the WB-F344 cells cultures. The best multiplicity of infection (MOI) value for effective transfection was 5. IL-13 had been detected on day 5 after transfection by checking with real-time PCR and Western blot. Conclusion The recombinant rat IL-13 gene with lentivirus vector is constructed and gene-modified WB-F344 cells are cultured successfully, which can be used in next animal experiment.
ObjectiveTo obtain rat hair follicle stem cells (rHFSCs) which can constantly and highly express vascular endothelial growth factor 165 (VEGF165), and to observe the expression of VEGF165 gene in rat HFSCs. MethodsThe cirri skin of 1-week-old Sprague Dawley rat was harvested and digested by using combination of Dispase and type IV collagenases. The bulge was isolated under microscope. The rHFSCs were cultured by tissue block method. After purified by rapid adhering on collagen type IV, the growth curve of different generations rHFSCs was drawn. The cells were identified by immunofluorescence staining and real time quantitative PCR (RT-qPCR) analysis that tested the expression level of correlated genes. Lentivirus of pLV-internal ribosome entry site (IRES)-VEGF165-enhanced green fluorescent protein (EGFP) (experimental group) and pLV-IRES-EGFP empty vector (control group) was packaged by calcium transfected method and the rHFSCs were transfected. The green fluorescent protein expression was observed by inverted fluorescence microscope, and VEGF165 mRNA and protein expressions were detected using RT-PCR and Western blot. ResultsThe rHFSCs which were isolated, cultured, and purified were like the "slabstone", and had strong adhesion ability and colony formation ability. The purified cells were in latent growth phase at 2-3 days; they were in exponential growth phase at 5-6 days. The expressions of cytokeration 15 (CK15), integrin α6, and integrin β1 (markers of HFSCs) were positive by immunocytochemistry. The RT-qPCR analysis showed that CK15, CK19, integrin α6, and integrin β1 expressed highly, but CD34 (a marker of epidermal stem cells) and CK10 (a marker of keratinocyte) expressed lowly. After 14 days, the transfection efficiency was up to 85.76%±1.91%. RT-PCR analysis and Western blot showed that VEGF165 mRNA and protein expressions were positive in experimental group, and were negative in control group. ConclusionThe rHFSCs with high purity and strong proliferation ability can be obtained by using microscope combined with tissue cultivation and rapid cell adhesion on collagen type IV. The rHFSCs with high expression of VEGF165 can be successfully obtained by lentiviral transfection. This method provides good seeding cells for tissue engineering to construct artificial hair follicles, blood vessels, and skins.
【 Abstract】 Objective To construct a lentiviral expression vector carrying Nogo extra cellular peptide residues 1-40(NEP1-40) and to obtain NEP1-40 efficient and stable expression in mammalian cells. Methods The DNA fragment ofNEP1-40 coding sequence was ampl ified by PCR with designed primer from the cDNA l ibrary including NEP1-40 gene, and then subcloned into pGC-FU vector with in-fusion technique to generate the lentiviral expression vector, pGC-FU-NEP1-40. The positive clones were screened by PCR and the correct NEP1-40 was confirmed by sequencing. Recombinant lentiviruses were produced in 293T cells after the cotransfection of pGC-FU-NEP1-40, and packaging plasmids of pHelper 1.0 and pHelper 2.0. Green fluorescent protein (GFP) expression of infected 293T cells was observed to evaluate gene del ivery efficiency. NEP1-40 protein expression in 293T cells was detected by Western blot. Results The lentiviral expression vector carrying NEP1-40 was successfully constructed by GFP observation, and NEP1-40 protein expression was detected in 293T cells by Western blot. Conclusion The recombinant lentivirus pGC-FU-NEP1-40 is successfully constructed and it lays a foundation for further molecular function study of NEP1-40.
Objective To investigate the feasibility of recombinant lentivirus (LVs) mediated hyperpolarization- activated cyclic nucleotide-gated cation channel 4 (HCN4) gene transfecting rat bone mesenchymal stem cells (BMSCs) so as to construct the biological pacemaker cells. Methods Sprague Dawley rats at the age of 3-5 weeks were selected to isolate and culture BMSCs using modified whole bone marrow adherent culture method. LVs was used as carrier, and enhanced green fluorescent protein (EGFP) as marker to build LVs-HCN4-EGFP virus liquid. The BMSCs at passage 3 were transfected with LVs-HCN4-EGFP virus liquid (experimental group) and LVs-EGFP null virus liquid (control group). Fluorescence microscope was used to observe the green fluorescent protein expression after 24, 48, and 72 hours of transfection; Western blot method was used to detect the HCN4 protein expression. The electrophysiology was used to detect the pacemaker current in the experimental group. Results After transfection, BMSCs in the experimental group showed normal morphology and good growth; scattered green fluorescence could be seen at 48 hours under fluorescence microscope, with a transfection efficiency of about 10%; the fluorescence expression increased slightly, with the transfection efficiency of 20% to 25% at 72 hours. While no expression of green fluorescence was seen in the control group. Western blot results showed that the same band expression as a relative molecular mass of HCN4 protein were found at 72 hours after transfection in the experimental group, only weak expression of protein band was seen in the control group; the gray value of the experimental group (33.75 ± 0.41) was significantly higher than that of the control group (23.39 ± 0.33) (t=17.524, P=0.013). In the experimental group, the pacemaker current was recorded, and it could be blocked by CsCl, in accordance with the characteristics of pacemaker current. Conclusion The recombinant LVs mediated HCN4 gene is successfully transfected into rat BMSCs, and the expression of HCN4 protein and the pacemaker current can be detected.
ObjectiveTo construct the connective tissue growth factor (CTGF) recombinant interference vector (shRNA) and observe its inhibitory effect on the expression of endogenous CTGF in retinal vascular endothelial cells. Methods The human CTGF shRNA was constructed and the high-titer CTGF shRNA lentivirus particles was acquired via three-plasmid lentivirus packaging system to infect retinal vascular endothelial cells. The optimal multiplicity and onset time of lentivirus infection were identified by tracing down the red florescent protein in interference vector. The cells were classified into three groups: blank control group, infection control group and CTGF knockdown group. The differences in cells migrating ability was observed through Transwell allay. The mRNA and protein expression of CTGF, fibronectin, α-smooth muscle actin (α-SMA) and collagen Ⅰ (Col Ⅰ) were quantified through real-time PCR testing and Western blot system. Data between the three groups were examined via one-way analysis of variance. ResultsThe result showed that an optimal multiplicity of 20 and onset time of 72 hours were the requirements to optimize lentivirus infection. Transwell allay result showed a contrast in the number of migrated cells in the CTGF knockdown group and that in the blank control group and infection control group (F=20.64, P=0.002). Real-time PCR testing showed a contrast in related gene expression (CTGF, fibronectin, α-SMA and Col Ⅰ) in the CTGF knocked-down group and that in the blank control group and infection control group (F=128.83, 124.44, 144.76, 1 374.44; P=0.000, 0.000, 0.000, 0.000). Western blot system showed the statistical significance of the contrasted number of related protein expression (CTGF, fibronectin, α-SMA and Col Ⅰ) in the knockdown group and that in the blank control group (F=22.55, 41.60, 25.73, 161.68; P=0.002, 0.000, 0.001, 0.000). ConclusionThe success in producing CTGF shRNA lentivirus particle suggests that CTGF shRNA lentivirus can effectively knock down CTGF expression.
Abstract: Objective To construct a nesprin-siRNA lentiviral vector(LV-siNesprin), transfect it into bone marrow mesenchymal stem cells (MSCs), and observe morphology changes of MSCs. Methods According to the target gene sequence of nesprin, we designed and synthesized four pairs of miRNA oligo, which were then annealed into double-strand DNA and identified by sequencing. MiRNA interference with the four kinds of plasmids (SR-1,SR-2,SR-3, andSR-4) were transfected into rat vascular smooth muscle cells, and reverse transcriptase chain reaction(RT-PCR) and Western blotting were performed to detect the interference effects and filter out the most effective interference sequence. We used the best interference sequence carriers and pDONR221 to react together to get the entry vectors with interference sequence. Then the objective carrier pLenti6/V5-DEST expressing both entry vectors and lentiviral vectors was restructured to get lentiviral expression vector containing interference sequence (LV-siNesprin+green fluoresent protein (GFP)), which was packaged and the virus titer was determined. LV-siNesprin+GFP was transfected to MSCs, and the expression of nesprin protein(LV-siNesprin+GFP group,GFP control group and normal cell group)was detected by Western blotting. The morphology of MSCs nuclear was observed by 4’,6-diamidino-2-phenylindole (DAPI) stain. The proliferation of MSCs (LV-siNesprin+GFP group,GFP control group and normal group) was detected by 3-(4,5-dimethylthia- zol-2-yl)-2,5-diphenyltetrazolium bromide(MTT) after lentivirus transfected to MSCs at 24, 48, 72, and 96 hours. Results The four pairs of miRNA oligo were confirmed by sequencing. Successful construction of LV-siNesprin was confirmed by sequencing. The best interference with miRNA plasmid selected by RT-PCR and Western blotting was SR-3. Lentiviral was packaged, and the activity of the virus titer of the concentrated suspension was 1×106 ifu/ml. After MSCs were transfected with LV-siNesprin, nesprin protein expression significantly decreased, and the nuclear morphology also changed including fusion and fragmentation. The proliferation rate of MSCs in the LV-siNesprin+GFP group was significantly slower than that of the GFP control and normal cell groups by MTT. Conclusion Nesprin protein plays an important role in stabilizing MSCs nuclear membrane, maintaining spatial structure of MSCs nuclear membrane,and facilitating MSCs proliferation.
Objective To study the interferencing and anti-tumor effects of lentiviral vector of siRNA targeting IGF1R and EGFR gene of the liver cancer cell. Methods The complementary DNA containing both sense and antisense Oligo DNA of the targeting sequence was designed, synthesized and connected to the pLVTHM vector, named pLVTHM-IGF1R, into whom the EGFR-siRNA expression frame containing H1 promotor synthesized by RT-PCR was cloned to generate pLVTHM-IGF1R-EGFR-siRNA. The 293T cells were cotransfected by 3 plasmids of pLVTHM-IGF1R-EGFR-siRNA, psPAX2 and pMD2G to enclose LVTHM-IGF1R-EGFR-siRNA, which was amplified in large amount and purified by caesium chloride density gradient centrifugation for measurement of virus titer. SMMC7721 cells infected by LVTHM-IGF1R-EGFR-siRNA were infection group, the untreated SMMC7721 cells and blank vector plasmid LVTHM were two control groups (SMMC7721 cell group and blank vector group). The effect of LVTHM-IGF1R-EGFR-siRNA on IGF1R and EGFR expressions of SMMC7721 cells were detected by RT-PCR and Western blot. The antitumor potential of LVTHM-IGF1R-EGFR-siRNA to SMMC7721 cells was evaluated by Cell Counting Kit-8 assay for cell growth and TUNEL for apoptosis respectively. Results LVTHM-IGF1R-EGFR-siRNA was constructed successfully. Functional pfu titers of LVTHM-IGF1R-EGFR-siRNA was 4.58×109 pfu/ml. Protein and mRNA expression of IGF1R and EGFR of infection group were less than those of blank vector group and SMMC7721 cell group (P<0.05), LVTHM-IGF1R-EGFR-siRNA was more effective to inhibit the proliferation and promote apoptosis of SMMC7721 cells (P<0.05). Conclusion LVTHM-IGF1R-EGFR-siRNA expressing IGF1R-EGFR-siRNA can inhibit the expression of IGF1R and EGFR, and may be used for further investigation of gene therapy of liver cancer.