Dependovirus/genetics* ; Microglia ; Cells, Cultured ; Transduction, Genetic

OBJECTIVE: To explore the effects of the rat FVIII light chain (rLC) on the activity of human FVIII heavy chain hHC745 and hHC1690. METHODS: hHC745, hHC1690, human FVIII light chain (hLC) and rLC were cloned into adeno-associated virus serotype 8 (AAV8) expression vectors with CB promoter (ubiquitous expression), respectively, and transfected into 293T cells using a dual-chain strategy of co-expression of HC and LC. The cultured cell supernatant was collected at 48 hours after transfection. The plasmids (pAAV8-CB-hHC745, pAAV8-CB-hHC1690, pAAV8-CB-hLC and pAAV8-CB-rLC) were hydrodynamically injected into hemophilia A (HA) mice via lateral tail vein. Forty-eight hours after injection, the peripheral blood of the mice was collected through retroorbital venous plexus and the plasma was obtained by centrifugation. The activity of FVIII was detected by activated partial thromboplastin time (aPTT) assay, and the antigen expression level of FVIII was determined by enzyme-linked immunosorbent assay (ELISA). The specific activity of FVIII was calculated based on the activity and the antigen expression level. RESULTS: In 293T cells, the coagulation activity of FVIII was significantly enhanced when hHC745 and hHC1690 combined with rLC compared with them combined with hLC. The FVIII activity of hHC745+rLC was about 4.6 times higher than that of hHC745+hLC, while hHC1690+rLC was about 2.9 times higher than that of hHC1690+hLC. The data from ELISA showed that there was no significant difference in FVIII antigen expression when hHC745 and hHC1690 combined with rLC and hLC. The specific activity of hHC745+rLC increased to about 4.1 times compared with hHC745+hLC, while that of hHC1690+rLC increased to about 2.8 times compared with hHC1690+hLC. In HA mice administrated with hydrodynamic injection, the FVIII activity of hHC745+rLC and hHC1960+rLC was significantly higher than that of hHC745+hLC and hHC1690+hLC at comparable expression level. The FVIII activity of hHC745+rLC was significantly higher than that of hHC745+hLC, increasing to about 5.1 times, while, that of hHC1690+rLC increasing to about 2.1 times than hHC1690+hLC. ELISA results also showed that there was no significant difference in FVIII antigen expression when hHC745 and hHC1690 combined with rLC and hLC. The specific activity of hHC745+rLC increased to about 4.2 times compared with hHC745+hLC, while that of hHC1690+rLC increased to about 1.8 times compared with hHC1690+hLC. In addition, the activity of hHC1690 combined with rLC was significantly higher than that of hHC745 combined with rLC. CONCLUSION rLC can significantly enhance the coagulation activity of FVIII when co-expressed with hHC of different length including hHC745 and hHC1690.
Rats ; Humans ; Mice ; Animals ; Dependovirus/genetics* ; Transfection

Dependovirus ; genetics ; Genetic Therapy ; Genetic Vectors ; Humans ; Liver Diseases ; therapy

Assessing the cell-type expression pattern of a certain gene can be achieved by using cell-type-specific gene manipulation. Recently, cre-recombinase-dependent gene-silencing tool, pSico has become popular in neuroscientific research. However, pSico has a critical limitation that gene-silenced cell cannot be identified by fluorescence, due to an excision of the reporter gene for green fluorescence protein (GFP). To overcome this limitation, we newly developed pSico-Red, with mCherry gene as a reporter outside two loxP sites, so that red mCherry signal is detected in all transfected cells. When a cell expresses cre, GFP is excised and shRNA is enabled, resulting in disappearance of GFP. This feature of pSico-Red provides not only cell-type-specific gene-silencing but also identification of cre expressing cells. Using this system, we demonstrated for the first time the neuronal expression of the Bestrophin-1 (Best1) in thalamic reticular nucleus (TRN) and TRN-neuron-specific gene-silencing of Best1. We combined adeno-associated virus (AAV) carrying Best1-shRNA in pSico-Red vector and transgenic mouse expressing cre under the promoter of distal-less homeobox 5/6 (DLX5/6), a marker for inhibitory neurons. Firstly, we found that almost all of inhibitory neurons in TRN express Best1 by immunohistochemistry. Using pSico-Red virus, we found that 80% of infected TRN neurons were DLX5/6-cre positive but parvalbumin negative. Finally, we found that Best1 in DLX5/6-cre positive neurons were significantly reduced by Best1-shRNA. Our study demonstrates that TRN neurons strongly express Best1 and that pSico-Red is a valuable tool for cell-type-specific gene manipulation and identification of specific cell population.
Animals ; Dependovirus ; Fluorescence ; Genes, Homeobox ; Genes, Reporter ; Immunohistochemistry ; Mice ; Mice, Transgenic ; Neurons* ; RNA, Small Interfering

Many researchers are using viruses to deliver genes of interest into the brains of laboratory animals. However, certain target brain cells are not easily infected by viruses. Moreover, the differential tropism of different viruses in monkey brain is not well established. We investigated the cellular tropism of lentivirus and adeno-associated virus (AAV) toward neuron and glia in the brain of cynomolgus monkeys (Macaca fascularis). Lentivirus and AAV were injected into putamen of the monkey brain. One month after injection, monkeys were sacrificed, and then the presence of viral infection by expression of reporter fluorescence proteins was examined. Tissues were sectioned and stained with NeuN and GFAP antibodies for identifying neuronal cells or astrocytes, respectively, and viral reporter GFP-expressing cells were counted. We found that while lentivirus infected mostly astrocytes, AAV infected neurons at a higher rate than astrocytes. Moreover, astrocytes showed reactiveness when cells were infected by virus, likely due to virus-mediated neuroinflammation. The Sholl analysis was done to compare the hypertrophy of infected and uninfected astrocytes by virus. The lentivirus infected astrocytes showed negligible hypertrophy whereas AAV infected astrocytes showed significant changes in morphology, compared to uninfected astrocytes. In the brain of cynomolgus monkey, lentivirus shows tropism for astrocytes over neurons without much reactivity in astrocytes, whereas AAV shows tropism for neurons over glial cells with a significant reactivity in astrocytes. We conclude that AAV is best-suited for gene delivery to neurons, whereas lentivirus is the best choice for gene delivery to astrocytes in the brain of cynomolgus monkeys.
Animals, Laboratory ; Antibodies ; Astrocytes ; Brain* ; Dependovirus* ; Fluorescence ; Haplorhini ; Hypertrophy ; Lentivirus* ; Macaca fascicularis* ; Neuroglia ; Neurons ; Putamen ; Tropism*

We have developed the recombinant adeno-associated virus (AAV) carrying the EGFP gene under the control of the microphtalmia-associated transcription factor-M (MITF-M) promoter region for melanoma-specific expression. MITF-M distal enhancer (MDE) region enhances the specific expression of the reporter gene specifically in cultured melanoma cells. Expression of EGFP protein was very high in AAV-CMV-EGFP infected cells but relatively low in cells infected with AAV-Mitf(Enh/Pro)-EGFP. After an in vitro infection by a recombinant AAV carrying the EGFP gene under the control of human MITF-M promoter, the reporter gene was expressed in MITF-M producing melanoma cell lines (SK-28 and G361), but not in MITF-M non-producing cell lines (HaCat). These results suggest that the utilization of the MITF-M promoter in a recombinant AAV vector could provide benefits in gene therapy applications.
Cell Line ; Dependovirus ; Genes, Reporter ; Genetic Therapy ; Green Fluorescent Proteins ; Humans ; Lifting ; Melanoma ; Promoter Regions, Genetic

Gene therapy plays an important role in Alzheimer's disease (AD). In recent years, the research on gene delivery vector has gradually transferred from adenovirus vector, adeno-associated virus vector and lentivirus vector to liposomes and nanomaterial carrier systems. Graphene, the newest member of nanomaterial carrier system, has attracted extensive attention for its well permeability and biocompatibility. The methods of gene therapy can be divided into direct and indirect method. The stem cell therapy, which is the most-well studied one, belongs to the indirect method. In the gene therapy of AD, the selection of appropriate carrier and method will determine the therapeutic effect.
Alzheimer Disease ; therapy ; Dependovirus ; Gene Transfer Techniques ; Genetic Therapy ; Genetic Vectors ; Humans

OBJECTIVE: To explore infection rate of different adeno-associated virus (AAV) on knee joint cartilage in mice and to find a good gene editing tool for mice chondrocytes of knee joint. METHODS: Forty-five 4-week-old SPF C57BL/6 weighed(14.3±0.2) g were selected. According to different injections(6 μl) for right knee joint, mice were divided into 9 different groups, 5 mice in each group. The groups were such as following:control group (normal saline), Vigene 2 group (AAV2 from vigene biosciences, titer for 1×10¹³ vg/ml), Vigene 5 group (AAV5 from vigene biosciences, titer for 1×10¹³ vg/ml), Vigene 6 group (AAV6 from vigene biosciences, titer for 1×10¹³ vg/ml), Vigene 7 group (AAV7 from vigene biosciences, titer for 1×10¹³ vg/ml), Vigene 8 group (AAV8 from vigene biosciences, titer for 1×10¹³ vg/ml), Vigene 9 group (AAV9 from vigene biosciences, titer for 1×10¹³ vg/ml), Hanbio DJ group(AAV2-DJ from Hanbio, titer for 1×10¹² vg/ml), Hanbio 5 group (AAV5 from Hanbio, titer for 1×10¹² vg/ml). All AAVs were over-expressed green fluorescent protein(GFP). Knee joint specimens were taken and observed injury of cartilage under stereomicroscope at 30 days after injection, then 10 μm thick frozen sections were prepared. Distribution of green fluorescent protein of meniscus and cartilage of knee joint was observed under fluorescence microscope. RESULTS: Stereomicroscope observation indicated that no obvious lesion was observed in knee joint cartilage of mice after intra-articular injection of AAV. According to frozen sections of knee joints, strong green fluorescence was observed in knee joint cartilage in all AAV experimental groups. Compared with other groups, significantly stronger green fluorescence were observed both in AAV2 and AAV7 groups, whose average fluorescence density was 0.077±0.020 and 0.061±0.022. There were significant differences between two groups and other groups. CONCLUSIONS AAV could infect chondrocyte of knee joint in vivo by injecting into knee joint cavity. Higher infection efficiency of AAV2 and AAV7 on knee joint cartilage were observed. Local injection of AAV into knee joint cavity could be used as an effective tool for gene editing of knee joint chondrocyte.
Animals ; Cartilage ; Dependovirus ; Green Fluorescent Proteins ; Knee Joint ; Mice ; Mice, Inbred C57BL

Objective: To evaluate the effects of adeno-associated virus (AAV) carrying hFⅧ by serotype 8 (AAV8/hFⅧ) on hemophilia A (HA) mice by gene therapy strategy. Methods: pAAV-CB-EGFP, pH22 (serotype 2) and pfΔ6 (adenovirus helper) were used to package AAV into HEK-293 cells in different conditions (ratios of cells to plasmids). The efficiency of transfection and infection were evaluated using immunofluorescence microscope to seek an optimized package condition. pAAV-TTR-hFⅧ, pH 28 (serotype 8) and pfΔ6 were applied to package AAV8/hFⅧ in HEK-293 cells using the optimized package condition. The purified AAV8/hFⅧ were intravenously injected into HA mice and the effects of gene therapy were estimated. Results: The efficiency of package was evaluated according to the amount and intensity of enhanced green fluorescent protein (EGFP) under immunofluorescence microscope. Four package conditions including 10 cm-dish to transfect 10 μg plasmids, 20 cm-dish to 20 μg, 30 μg and 40 μg plasmids were employed, and the condition of 20 cm-dish to transfect 20 μg plasmids reached the highest transfection efficiency at 24 h, 48 h and 72 h after transfection. The small scale AAV-EGFP was packaged using the optimized condition and an AAV crude extract was harvested by a freeze-thaw method. HEK-293 and 16095 cells were infected by the AAV crude extract, and the preferential infection efficiency was recognized in 16095 cells under immunofluorescence microscope. Then, AAV8/hFⅧ was packaged and purified based on the optimized transfection condition, and the high purity of AAV8/hFⅧ was detected by Western blot. Fractions of AAV8/hFⅧ at the dose of 8×10(12) vg/kg were injected into HA mice through tail vein, an eye-bleeding was performed at every two weeks, and the activity of FⅧ was measured by aPTT assay. Results showed that the activity of FⅧ maintained at the therapeutic level and lasted up to 12 weeks after injection. Conclusion: The purified AAV8/hFⅧ based on the optimized package condition could play a role in HA mice gene therapy, and the long-term therapeutic effects of AAV8/hFⅧ were observed in vivo.
Animals ; Dependovirus ; Genetic Therapy ; Genetic Vectors ; HEK293 Cells ; Hemophilia A ; Humans ; Mice

Conventional therapies for hemophilia A (HA) are prophylactic or on-demand intravenous FVIII infusions. However, they are expensive and inconvenient to perform. Thus, better strategies for HA treatment must be developed. In this study, a recombinant FVIII cDNA encoding a human/rat hybrid FVIII with an enhanced procoagulant potential for adeno-associated virus (AAV)-delivered gene therapy was developed. Plasmids containing human FVIII heavy chain (hHC), human light chain (hLC), and rat light chain (rLC) were transfected into cells and hydrodynamically injected into HA mice. Purified AAV viruses were intravenously injected into HA mice at two doses. Results showed that the hHC + rLC protein had a higher activity than the hHC + hLC protein at comparable expression levels. The specific activity of hHC + rLC was about 4- to 8-fold higher than that of their counterparts. Hydrodynamic injection experiments obtained consistent results. Notably, the HA mice undergoing the AAV-delivered hHC + rLC treatment exhibited a visibly higher activity than those treated with hHC + hLC, and the therapeutic effects lasted for up to 40 weeks. In conclusion, the application of the hybrid FVIII (hHC + rLC) via an AAV-delivered gene therapy substantially improved the hemorrhagic diathesis of the HA mice. These data might be of help to the development of optimized FVIII expression cassette for HA gene therapy.
Animals ; Dependovirus/genetics* ; Factor VIII/metabolism* ; Genetic Therapy/methods* ; Hemophilia A/therapy* ; Humans ; Mice ; Rats