Analysis of adeno-associated virus-mediated ex vivo transferred human β-globin gene in bone marrow engrafted mice

Adeno-associated virus (AAV)-2 was developed as a useful vector for human gene therapy. In this report, we analyzed the integration and expression of AAV-mediated ex vivo transferred human beta-globin gene in bone marrow (BM) reconstituted mice. Recombinant AAV (rAAV) containing human beta-globin gene was packaged by infecting individual G418-resistant BHK-21 cell clones integrated with the plasmid AV53HS432Deltabeta2.0Neo with recombinant herpes simplex virus, which can express rep and cap genes of wild-type AAV. The titer of rAAV was determined using slot blot hybridization with a result of 10(13) virus particles/ml (genome copy number). Low-density mononuclear cells were isolated from fetal livers of embryos from pregnant C57BL/6 mice at 14-16 days of gestation and were infected with rAAV. The transduced hematopoietic cells were then reinfused into lethally irradiated C57BL/6 recipient mice via tail vein injection. To analyze the provirus in short-term and long-term BM reconstituted mice, PCR/Southern blot and RT-PCR were performed to identify the integrity of the provirus and to detect the expression of human beta-globin gene, respectively. Genomic DNA was extracted from spleen nodules of BM reconstituted mice 12 days after transplantation. Human beta-globin gene was detected in 1 out of 6 nodules using PCR combined with Southern blot. Human beta-globin gene was also detected in the BM and thymus of mouse Y6161, in the thymus and spleen of mouse Y6162 and in the BM of mice Y6211 and Y6212. RT-PCR revealed low levels of expression of human beta-globin gene in the BM of mouse Y6211. Our results suggested that the efficiency of AAV-mediated human beta-globin gene integration into hematopoietic stem/progenitor cells was very low. It is necessary to perform further research on AAV biology before applying gene therapy that requires integration of a foreign gene into host chromosomes.     

Cloning of rat TARC cDNA and analysis of tissue-specific mRNA expression

Thymus and activation-regulated chemokine (TARC) is one that selectively controls the migration of type 2-helper T lymphocytes into inflammatory lesions. TARC is a CC chemokine, and plays an essential role in recruiting CC chemokine receptor 4-positive Th2 cells to allergic lesions. We cloned TARC cDNA from rat thymus using RT-PCR. The rat TARC clone contained a full-length open reading frame encoding 93 amino acids that showed 83% and 66% homology with mouse and human homologs, respectively. The expression of TARC mRNA was mainly in the lymphoid organs, for example, the thymus, spleen, and lymph node. The recombinant TARC was expressed in Escherichia coli and purified in an active form. In addition, the purified rat TARC with S-tagged specifically binds to human CCR4 in CD4.CCR4-transfected HOS cells by Cell-binding assay using flow-cytometry. The TARC cDNA clones obtained in this study will be valuable for future studies on allergic diseases in rats.     

Cloning of rat TARC cDNA and analysis of tissue-specific mRNA expression

Thymus-and activation-regulated chemokine (TARC) is one that selectively controls the migration of type 2-helper T lymphocytes into inflammatory lesions. TARC is a CC chemokine and plays an essential role in recruiting CC chemokine receptor 4-positive Th2 cells to allergic lesions. We cloned TARC cDNA from rat thymus using RT-PCR. The rat TARC clone contained a full-length open reading frame encoding 93 amino acids that showed 83 and 66% homology with mouse and human homologs, respectively. The expression of TARC mRNA was mainly in the lymphoid organs, for example, the thymus, spleen, and lymph node. The recombinant TARC was expressed in Escherichia coli and purified in an active form. In addition, the purified rat TARC with S-tagged specifically binds to human CCR4 in CD4/CCR4-transfected HOS cells by cell-binding assay using flow cytometry. The TARC cDNA clones obtained in this study will be valuable for future studies on allergic diseases in rats.     

The treatment of glioblastoma multiforme through activation of microglia and TRAIL induced by rAAV2-mediated IL-12 in a syngeneic rat model

Background

Microglial cells are the predominant immune cells in malignant brain tumors, but tumors may release some factors to reduce their defensive functions. Restoration of the anti-cancer function of microglia has been proposed as a treatment modality for glioblastoma. We examined the effect of intra-cranially administered recombinant adeno-associated virus encoding interleukin-12 (rAAV2/IL12) on transfection efficiency, local immune activity and survival in a rat model of glioblastoma multiforme.

Methods

F344 rats were injected with rAAV2/IL12 and implanted with syngeneic RG2 cells (glioblastoma cell line). Intracerebral interleukin-12 and interferon-γ concentrations were determined by ELISA. Activation of microglia was determined by expressions of ED1 and tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) which were evaluated by Western blotting and immunohistochemistry. The proliferation of cancer cells was evaluated with Ki67 immunohistochemistry and apoptosis of cancer cells with TUNEL.

Results

The brains treated with rAAV2/IL-12 maintained high expression of interleukin-12 and interferon-γ for at least two months. In syngeneic tumor model, brains treated with rAAV2/IL12 exhibited more infiltration of activated microglia cells as examined by ED1 and TRAIL stains in the tumor. In addition, the volume of tumor was markedly smaller in AAV2/IL12-treated group and the survival time was significantly longer in this group too.

Conclusion

The intra-cerebrally administered rAAV2/IL-12 efficiently induces long lasting expression of IL-12, the greater infiltration of activated microglia cells in the tumor associated improved immune reactions, resulting in the inhibited growth of implanted glioblastoma and the increased survival time of these rats.     

Hybrid resistance to parental mast cell precursors in the skin of (WB X C57BL/6)F1-W/Wv mice

When bone marrow cells of (WB X C57BL/6)F1-+/+ (WBB6F1-+/+) and WB-+/+ (WB) mice were directly injected into the skin of genetically mast cell-deficient WBB6F1-W/Wv mice, mast cell clusters appeared at the injection sites. However, the number of WB bone marrow cells necessary for appearance of mast cell clusters was significantly larger than when bone marrow cells of WBB6F1-+/+ mice were used. When WB bone marrow cells were mixed either with WB thymus cells or with silica particles, the proportion of injection sites at which mast cell clusters appeared increased to the level that was observed after the injection of the same number of WBB6F1-+/+ bone marrow cells. When suckling WBB6F1-W/Wv mice of less than or equal to 18 days of age were used as recipients, bone marrow cells of WBB6F1-+/+ and WB mice produced mast cell clusters with a comparable efficiency. Both syngeneic thymus cells and silica particles are known to abrogate the hybrid resistance that is observed in the spleen against parental hematopoietic stem cells. The hybrid resistance in the spleen is not detectable in suckling mice, either. Thus, the poor growth of mast cell precursors in the skin and the poor growth of hematopoietic stem cells in the spleen seem to be regulated by the same mechanism.     

Reduced expression of INK4a/ARF genes in stem-like sphere cells from rat sarcomas

The presence of cancer stem cells, in both hematopoietic and solid malignancies, has been recently linked to their pathogenesis. We aimed to identify the characteristics and stem-like properties of sphere-colony forming cells in rat osteosarcoma and malignant fibrous histiocytoma cell lines. The results showed that both cell lines possessed an ability to form spherical, clonally expanding colonies in anchorage-independent, serum-starved conditions in N2/1% methylcellulose medium. The sphere cells showed stem-like properties with the ability to self-renew, and expressed the stem cell-related STAT3 and Bmi1 genes. Interestingly, spheres from both sarcomas remarkably decreased the expression of INK4a/ARF locus genes, p16(INK4a) and p19(ARF), which could be related to the resistance against cell senescence and apoptosis. Spheres showed strong tumorigenicity with metastatic potential in vivo via the inoculation into syngeneic rats, suggesting the presence of these populations might contribute to the tumor development such as metastasis via the resistance to apoptotic stimuli.     

Influence of maternal-fetal histocompatibility and MHC zygosity on maternal microchimerism

To investigate the relationship between maternal-fetal histocompatibility and maternal microchimerism, we developed a sensitive quantitative PCR assay for the neomycin resistance gene (neoR), and, in a mouse model system, used neoR as a noninherited maternal allele marker of maternal cells to detect and quantitate maternal microchimerism in tissues of neoR(-/-) N2 backcross progeny of (neoR(+/-))F(1) females mated with neoR(-/-) males. Using this approach, we obtained evidence for the presence of chimeric maternal cells in the brain, spleen, and thymus of all weanling and adult mice so tested. The numbers of chimeric maternal cells present in the spleen did not differ significantly from those in the thymus regardless of age or maternal-fetal histocompatibility. At all ages, brain tissue had higher level of maternal microchimerism than lymphoid tissue in mice MHC identical with their mothers, but the levels were similar in mice MHC disparate with their mothers. The levels of chimeric maternal cells in both brain and lymphoid tissue of mice with homozygous syngenicity and maternal allogenicity were similar, and tended to be higher than tissue-specific levels in mice with either combined maternal-fetal allogenicity or heterozygous syngenicity. Thus, MHC homozygous progeny had higher levels of maternal microchimerism than MHC heterozygous progeny. We conclude that normal mice possess small numbers of maternal cells in spleen, thymus, brain, and probably most other tissues, and that maternal-fetal histocompatibility influences the levels of these cells by mechanisms related to MHC zygosity of the progeny.     

Functional analysis of mononuclear cells infiltrating into tumors. II. Differential ability of mononuclear cells obtained from various tissues to produce helper factors that are involved in the generation of cytotoxic cells

The requirement of CGF in the generation of cytotoxic cells against syngeneic tumor cells (T-9) and in the rejection of transplanted T-9 cells has been investigated. Spleen cells obtained from sensitized rats showed strong cytotoxicity against 51Cr-labeled T-9 cells upon incubation with CGF for 48 hr. Human recombinant IL 2 and rat IFN failed to generate cytotoxic cells from spleen cells of sensitized rats. CGF are produced by spleen cells upon inoculation of T-9 cells into sensitized rats as a host in vivo immune response. Production of CGF preceded the appearance of cytotoxic cells in regional lymph node and tumor tissues. In those rats, inoculated tumor cells were eventually rejected. In contrast, spleen cells failed to produce CGF upon inoculation of T-9 cells in unsensitized rats. Cytotoxic cells were not detected in unsensitized rats, and inoculated tumor grew in those rats. Thus, CGF is likely to be involved in the generation of cytotoxic cells and in the rejection of inoculated syngeneic tumor cells. A Mono Q anion-exchange column with an FPLC system allowed the chromatographic separation of CGF from IL 1, IL 2, IL 3, and CSF.     

Cellular specificity of the cure for neonatal osteopetrosis in the ia rat

Osteopetrosis in the ia/ia rat is known to be the result of reduced bone resorption due to abnormal osteoclasts. Studies in this mutant have shown that mononuclear cells from normal littermates could cure the skeletal sclerosis and result in the formation of normal osteoclasts when transplanted into ia/ia rats. This investigation was pursued in an attempt to determine the cellular source of this cure by transplanting various populations of cells from 21-day-old normal rats to unrelated newborn ia/ia recipients. The effects of treatment were evaluated radiographically and by measuring the size of the tibial marrow cavity. The cellular suspensions that were effective in curing the disease were the Ficoll-Hypaque isolate of spleen, bone marrow, and newborn livers. The Ficoll-Hypaque isolates of lymph node, thymus, and blood, and the adherent pool of peritoneal cells and splenic cells did not produce a cure in the ia/ia recipients. These results suggest that the cellular source of the cure is a stem cell. This conclusion is further substantiated by the finding that Thy 1.1 antigen (a stem cell marker in the rat) is expressed on a majority of the cells from the donor sources that affected a cure.     

2型腺相关病毒转导人胎肝造血细胞及其介导的β珠蛋白基因的表达

β地中海贫血是一种因β珠蛋白基因缺陷导致的遗传性贫血性疾病,基因治疗是唯一有望治愈该病的方法.2型腺相关病毒(adeno-associated virustype2,AAV2)是一种非致病性病毒,作为一种基因治疗载体,其应用潜力日益受到关注.目前还未见AAV2转导人早期胎肝造血细胞及其介导β珠蛋白基因在动物体内表达的实验报道.有研究表明,AAV2转导人造血干细胞的效率,因各实验室包装和纯化rAAV2的方法不同而存在差异,其中辅助病毒的污染被认为是一重要原因.制备了无辅助病毒污染的rAAV2,经体外检测其滴度,纯度及功能后,再转导人早期胎肝造血细胞,将被转导的胎肝造血细胞移植入受亚致死量剂量照射的8只BALB/C裸鼠体内,检测rAAV2介导的β珠蛋白基因在裸鼠体内的表达.结果显示:制备的无辅助病毒污染的rAAV2具有较高的滴度、纯度,并能够在体外介导β基因的表达;在8只受试BALB/C裸鼠中,RT-PCR在2只BALB/C裸鼠骨髓中检测到β珠蛋白基因的表达.提示,rAAV2能够转导人早期胎肝细胞并介导β珠蛋白基因的表达,但同时也存在表达量较低的缺点,应用于β地中海贫血的基因治疗还需要对AAV2生物学特性做深入的研究.     

Generation of rat blood vasculature and hematopoietic cells in rat-mouse chimeras by blastocyst complementation

Interspecies chimera through blastocyst complementation could be an alternative approach to create human organs in animals by using human pluripotent stem cells.A mismatch of the major histocompatibility complex of vascular endothelial cells between the human and host animal will cause graft rejection in the transplanted organs.Therefore,to achieve a transplantable organ in animals without rejection,creation of vascular endothelial cells derived from humans within the organ is necessary.In this study,to explore whether donor xeno-pluripotent stem cells can compensate for blood vasculature in host animals,we generated rat-mouse chimeras by injection of rat embryonic stem cells(rESCs) into mouse blastocysts with deficiency of Flk-1 protein,which is associated with endothelial and hematopoietic cell development.We found that rESCs could differentiate into vascular endothelial and hematopoietic cells in the rat-mouse chimeras.The whole yolk sac(YS) of Flk-1~(EGFP/ECFP) rat-mouse chimera was full of rat blood vasculature.Rat genes related to vascular endothelial cells,arteries,and veins,blood vessels formation process,as well as hematopoietic cells,were highly expressed in the YS.Our results suggested that rat vascular endothelial cells could undergo proliferation,migration,and self-assembly to form blood vasculature and that hematopoietic cells could differentiate into B cells,T cells,and myeloid cells in rat-mouse chimeras,which was able to rescue early embryonic lethality caused by Flk-1 deficiency in mouse.     

Human Neural Stem Cells with GDNF Site-Specific Integration at AAVS1 by Using AAV Vectors Retained Their Stemness

The neural stem cells (NSCs) have the ability to self-renew, and to migrate to pathologically altered regions of the central nervous system. Glial cell derived neurotrophic factor (GDNF) could protect dopamine neurons and rescue motor neurons in vivo, which has been proposed as a promising candidate for the treatments of degenerative neurological diseases. In order to combine the advantages of neurotrophic factors and stem cells in clinical therapy, we established the modified hNSCs that has site-specific integration of GDNF gene by using recombinant adeno-associated virus (rAAV) vectors. The hNSCs were co-infected by rAAV2-EGFP-GDNF and rAAV2-SVAV2 which provide integrase to specifically integrate GDNF gene into AAVS1 site. The GDNF-hNSCs maintained their original stem cell characteristics and the ability to differentiate into neurons in vitro. In the animal model, the GDNF-hNSCs were specifically transplanted into CA1 area of hippocampi and could migrate to the dentate gyrus region and differentiate into neuronal cells while maintaining GDNF expression. hNSCs with GDNF gene site-specific integration at AAVS1 by using AAV vectors retained their stemness and effectively expressed GDNF, which indicates the potential of employing transplanted hNPCs for treatment of brain injuries and degenerative neurological diseases.     

绿色荧光转基因大鼠模型的建立

目的随着干细胞研究的推进,大鼠干细胞的研究日趋迫切。本研究旨在为活体荧光影像系统、干细胞归巢、细胞移植体内示踪研究,提供绿色荧光蛋白EGFP转基因大鼠模型。方法通过显微注射方式获得EGFP转基因大鼠,采用活体荧光影像系统、激光共聚焦显微镜,对EGFP转基因大鼠各个组织的荧光表达水平进行比较;采用流式细胞术检测转基因大鼠血液和骨髓细胞、骨髓干细胞的荧光标记率,筛选骨髓干细胞高效标记绿色荧光的转基因大鼠。结果建立了心脏、肝脏、肌肉、肺、胰腺、脑、膀胱、胃、肾脏、肠和脾脏组织中,系统性表达EGFP的SD-TgN（ACT-EGFP-1）ZLFILAS转基因大鼠;流式细胞术检测表明,该品系血液细胞绿色荧光标记率为94.4%,骨髓干细胞绿色荧光标记率为97.8%。结论建立了多组织系统性高表达绿色荧光,骨髓干细胞荧光标记率高达95%以上的转基因大鼠,为影像分析,造血干细胞的归巢等研究提供了大鼠模型。     

Responsiveness of Thymus Cells to Syngeneic and Allogeneic Lymphoid Cells

THE thymus is necessary for the normal development of cell-mediated immunity in mice as shown by the immunological defects after neonatal thymectomy¹. Thymus cells themselves can be stimulated by allogeneic lymphoid cells in mixed leucocyte reaction (MLR)² and become killer cells or cytotoxic lymphocytes after stimulation with allogeneic spleen cells in vitro (H. Wagner and M. Feldmann, unpublished work) and in vivo^3,4. This suggests that the thymus as well as peripheral lymphoid tissues contain T cells which can be stimulated by foreign histocompatibility antigen to divide and differentiate into the cytotoxic lymphocytes which mediate cellular immunity. There have been suggestions that thymus cells might be stimulated to divide by “self” antigen, as well as foreign cells: incorporation of ³H-thymidine above background levels has been found in cultures with syngeneic spleen and thymus cells of adult rats⁵, although the experiments do not determine whether thymus or spleen cells have been stimulated. In contrast to these experiments, Howe et al. reported that only thymus cells of neonatal CBA mice reacted to allogeneic and syngeneic spleen cells of adult animals in “one way” MLR cultures^6,7. Whether the reaction of neonatal thymus cells to syngeneic adult spleen cells is recognition of “self” antigens is uncertain, since spleens of adult mice could carry antigens which do not occur in neonatal animals and are therefore “unknown” for neonatal thymus cells. We demonstrate here that neonatal thymus cells do not react to 4-day-old CBA spleen cells, but adult thymus cells do react against both allogeneic and syngeneic adult spleen cells.     

Characterization of rat prothymocyte with monoclonal antibodies recognizing rat lymphocyte membrane antigenic determinants

Utilizing the technique of fluorescence-activated cell sorting and monoclonal antibodies directed at rat membrane antigens, various subpopulations of Lewis bone marrow cells were isolated and subsequently transfused into sublethally irradiated, histocompatible NBr recipient rats by either intravenous or intrathymic inoculation. Recipient rats were sacrificed and cell suspensions from thymus and other lymphoid tissue were examined for the presence of the RT7.1 marker on Lewis thymus-derived lymphocytes by fluorescence-activated cell analysis. From these studies, the population of Lewis bone marrow cells that could reconstitute T cells in the NBr rats was found to be Ox-22 negative, Ox-7 positive, W3/13 positive, and Ox-18 positive. Further analysis characterized the prothymocyte as being Ox-7 upper 20% positive and W3/13 weakly positive. In addition this marrow cell population was able to protect lethally irradiated Lewis rats (9.5 Gy) in 30-day survival tests. These studies have indicated that the prothymocyte either has been derived from the Ox-22 negative, Ox-7 upper 20% positive, and W3/13 positive marrow cells or, like the hematopoietic stem cell, this cell has also been characterized by this phenotype.     

Stimulation of the suppressor activity in relation to hematopoietic cells in the mouse thymus as affected by pertussis vaccine

After a single intraperitoneal injection of formalinized whole-cell pertussis vaccine 5374 into CBA mice a drastic depletion of cells in the thymus accompanied by the enhancement of suppressor T-cells production is observed. T-cells inhibit the endogenous and exogenous colony-formation in the spleen by hematopoietic stem cells (CFUs). Treatment of thymus cells with the anti-I-Jk alloantiserum against a specific marker of suppressor T-cells in the presence of complement removes the inhibitory effect on CFUs proliferation and has a stimulatory action on the capacity of the marrow CFUs to form macroscopic hematopoietic colonies in the spleen compared with control ones. These results suggest probable involvement of I-J-bearing suppressor T-cells in the hematopoietic disorders induced by pertussis vaccine.     

Time-dependent expression of leukotriene B4 receptors in rat collagen-induced arthritis

Leukotriene B4 acts through its receptors, BLT(1) and BLT(2), however, their expression in rheumatoid arthritis is unknown. In this experiment, BLT(1) and BLT(2) mRNA expressions in the synovium of rats with collagen-induced arthritis (CIA) at days 1, 3, 7 and 14 after CIA onset were analyzed by RT-PCR. The expression of two immunological and inflammatory factors, S100A8 and S100A9, in the synovium of the arthritic rats was also determined at the indicated time. At d14, the differential expressions of BLT(1) and BLT(2) in the synovium, spleen, peripheral blood mononuclear cells (PBMC) and thymus of CIA rats were analyzed. The results showed that, in the synovium of the arthritic rats, the BLT(1) mRNA expression increased after CIA onset, reached the highest value between d1 and d3, and declined afterwards while the BLT(2) expression increased with time and reached its peak at d14. Both S100A8 and S100A9 expression reached the peak levels between d1 and d3, and decreased to lower levels between d7 and d14. For the analyzed tissues from CIA rats at d14, BLT(1) mRNA was expressed in the thymus with the highest level, followed by the spleen, PBMC and synovium. BLT(2) mRNA was expressed in the thymus the highest as well, but followed by the synovium, spleen and PBMC. Since BLT(1) and BLT(2) play distinct roles during CIA, this study may provide basis for new therapies targeting BLT(1) and BLT(2), respectively, for the treatment of arthritic inflammation at different stages.