Quantitative polymerase chain reaction as a reliable method to determine functional lentiviral titer after ex vivo gene transfer in human mesenchymal stem cells

BACKGROUND: Human mesenchymal stem cells (hMSCs) are a promising target for ex vivo gene therapy and lentiviruses are excellent gene transfer vehicles in hMSCs since they achieve high transduction rates with long-term gene expression. Nevertheless, senescence of hMSCs may limit therapeutic applications due to time-consuming cell selection and viral titration. Here, we describe a fast and reliable method to determine functional lentiviral titer by quantitative polymerase chain reaction (qPCR) after highly efficient ex vivo gene transfer in hMSCs. METHODS: Lentivirus production was tested with different types of packaging systems. Using p24 ELISA remaining viral particles were detected in the cell culture supernatant. The lentiviral gene transfer efficiency was quantified by FACS analysis. Lentiviral titers were determined by qPCR of expressed transgenes. RESULTS: Third-generation self-inactivating vectors showed highly efficient gene transfer in hMSCs. No viral antigen was detected in the cell culture supernatant after four media changes, suggesting the absence of infectious particles after 4 days. We observed a linear correlation between virus dilution and level of transgene expression by qPCR analysis, therefore allowing viral titering by quantification of transgene expression. Finally, we demonstrated that transduced hMSCs retained their stem cell character by differentiation towards adipogenic, osteogenic and chondrogenic lineages. CONCLUSIONS: Quantification of transgene copy numbers by qPCR is a fast and reliable method to determine functional lentiviral titer after ex vivo gene transfer in hMSCs.     

Human mesenchymal stem cells (hMSCs) expressing truncated soluble vascular endothelial growth factor receptor (tsFlk-1) following lentiviral-mediated gene transfer inhibit growth of Burkitt's lymphoma in a murine model

BACKGROUND: Efficient gene transfer to bone marrow derived mesenchymal stem cells (MSC) would provide an important opportunity to express potent anticancer agents in the tumour microenvironment because of their contribution to the tumour stroma. METHODS: HIV-based lentiviral vectors were pseudotyped with four different envelope proteins; amphotropic murine leukaemia virus (ampho), murine leukaemia virus (10A1), feline endogenous virus (RD114), and the vesicular stomatitis virus glycoprotein (VSVG). These pseudotypes were examined for transduction efficiency in human bone marrow derived MSC. The effect of lentiviral expression of truncated soluble vascular endothelial growth factor decoy receptor (tsFlk-1) in MSC on growth of Raji cells was determined, both in vitro and in vivo. RESULTS: All lentiviral vectors produced significant levels of transduction at an multiplicity of infection (MOI) of 1, those bearing the RD114 envelope glycoprotein consistently produced higher transduction levels (mean 70 +/- 6%) compared with the other pseudotyped lentiviral vectors, although there was significant inter-donor variation. Stable transgene expression was achieved after multiple rounds of transduction with VSVG-pseudotyped particles, without alteration in the differentiative capacity of transduced cells. Co-injection of MSC stably expressing tsFlk-1 with Raji Burkitt's lymphoma cells significantly impaired subcutaneous tumour growth in immunodeficient mice when compared to controls where either unmanipulated MSC or GFP-expressing MSC were used. CONCLUSIONS: Human MSC are easily transduced by pseudotyped lentiviral particles but there is inter-donor variation in transduction efficiency. Gene-modified MSC expressing a gene of therapeutic potential can moderate growth of haematological malignancies.     

Mobilization-based chemotherapy-free engraftment of gene-edited human hematopoietic stem cells

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In vivo gene marking of rhesus macaque long-term repopulating hematopoietic cells using a VSV-G pseudotyped versus amphotropic oncoretroviral vector

BACKGROUND: Gene transfer efficiency into primitive hematopoietic cells may be limited by their expression of surface receptors allowing vector entry. Vectors pseudotyped with the vesicular stomatitis virus (VSV-G) envelope do not need receptors to enter cells, and therefore may provide superior transduction efficiency. METHODS: Using a competitive repopulation model in the rhesus macaque, we examined in vivo gene marking levels of blood cells transduced with two vectors: (i) a VSV-G pseudotyped retrovirus and (ii) a conventional amphotropic retrovirus. The VSV-G vector, containing the human glucose-6-phosphate dehydrogenase (G6PD) gene, was constructed for treatment of severe hemolytic anemia caused by G6PD deficiency. Three myeloablated animals were transplanted with peripheral blood CD34+ cells, half of which were transduced with the VSV-G vector and the other half with the amphotropic vector. RESULTS: In all animals post-transplantation, levels of in vivo marking in circulating granulocytes and mononuclear cells were similar: 1% or less with both vectors. In one animal, the human G6PD enzyme transferred by the VSV-G vector was expressed in erythrocytes, early after transplantation, at a level of 45% of the endogenous rhesus G6PD protein. CONCLUSIONS: In a clinically relevant animal model, we found similar in vivo marking with a VSV-G pseudotyped and a standard amphotropic oncoretroviral vector. Amphotropic receptor expression may not be a limiting factor in transduction efficiency, but VSV-G pseudotypes possess other practical advantages that may make them advantageous for clinical use.     

含GDNF基因的慢病毒载体的构建和其在人胚胎神经干细胞中的表达

利用含胶质源性神经营养因子(Glial cell derived neurotrophic factor, GDNF)基因的慢病毒(Lentivirus)载体转染了人胚胎来源的神经干细胞, 探讨了转染后GDNF在神经干细胞中的体外表达水平及其影响因素。首先GDNF基因被克隆入慢病毒载体, 通过瞬时转染法包装出病毒上清, 经滴度鉴定后分别按拷贝数分别为 1、2.5、5、10转染神经干细胞。转染后细胞经过潮霉素筛选得到均一表达GDNF的神经干细胞体系。其后分别利用酶联免疫吸附(ELISA)方法和Real-time PCR方法测定不同转染组细胞在不同时间点GDNF的蛋白分泌水平和基因表达水平。实验中构建了表达GDNF基因的慢病毒载体, 包装出的病毒上清在体外培养条件下成功转染了神经干细胞, 经潮霉素筛选可以得到均一的持续表达分泌GDNF的人胚胎皮层神经干细胞体系。实验结果表明转染拷贝数可以影响GDNF的分泌水平, 相同条件下转染拷贝数越高, GDNF分泌量越多, 其基因表达水平越高。因此, 含GDNF的慢病毒载体可以成功转染人胚胎来源的神经干细胞, 使其持续表达GDNF, 转染过程中可以通过拷贝数在一定水平上控制GDNF的蛋白分泌水平和基因表达水平。     

Lentiviral transgenesis

Transgenic animals are relevant for many fields of modern biomedicine and agriculture. However, the inefficiencies of the presently available techniques – DNA microinjection and retroviral gene transfer – have led to an explosion of costs for transgenics especially in farm animals. The recent success in transferring genes to early embryos of different species (mouse, rat, pig, cattle) by viral vectors derived from lentiviruses, has established lentiviral transgenesis as an exciting alternative to the classical method of DNA microinjection. In addition, lentiviral vectors can be used to transfer genes into embryonic stem cells. Due to its high efficacy and versatility, lentiviral transgenesis should have a big impact on transgenic research.     

A new red fluorescent protein that allows efficient marking of murine hematopoietic stem cells

Background

Genetic marking of hematopoietic stem cells (HSCs) with multiple fluorescent proteins (FPs) would allow analysis of their features, including interaction with adjacent cells. However, there are few red FPs that are comparable to green FPs in terms of low toxicity and high fluorescent intensity. This study has evaluated the usefulness of Kusabira Orange (KO) originated from the coral stone Fungia concinna as a red FP for marking of HSCs

Methods

A vector used was the MSCV‐type retroviral vector, DΔNsap that has the PCC4 cell‐passaged myeloproliferative sarcoma virus derived long terminal repeat devoid of a binding site for YY1 and the primer‐binding site derived from the dl587rev, respectively. The vector was cloned with the codon‐optimized KO cDNA for higher expression in mammalian cells (huKO) and converted to the corresponding retroviruses pseudotyped with the vesicular stomatitis virus G envelope protein, then transduced into c‐KIT⁺Sca‐1⁺Lineage^? cells obtained from C57BL/6 (Ly5.1) mice followed by transplantation into lethally irradiated Ly5.2 mice.

Results

Approximately 70% of donor‐derived cells highly expressed huKO at 16 weeks post‐transplantation. Furthermore, the high expression of huKO was also detected in serially transplanted mice, suggesting that expression of huKO per se had little deleterious effect on murine hematopoiesis. In double marking experiments, huKO‐expressing hematopoietic cells were easily distinguished from those expressing EGFP by flow cytometery and fluorescent microscope analysis.

Conclusions

Overall, the results obtained from the present study suggest that huKO can be used as a valuable and versatile red fluorescent marker for HSCs. Copyright © 2008 John Wiley & Sons, Ltd.

     

Production of lentiviral vectors by transient expression of minimal packaging genes from recombinant adenoviruses

BACKGROUND: The potential of lentiviral vectors for clinical gene therapy has not yet been evaluated. One of the reasons is the cytotoxicity of lentiviral packaging genes which makes the generation of stable producer cell lines difficult. Therefore, a novel packaging system for lentiviral vectors based on transient expression of packaging genes by recombinant adenoviruses was developed. METHODS: Adenoviral vectors expressing VSV-G, codon-optimized HIV-1 gag-pol, and codon-optimized SIV gag-pol under the control of a tetracycline-regulatable promoter (adenoviral lenti-pack vectors) were constructed and the production levels of this vector system were evaluated. RESULTS: The generated adenoviral lenti-pack vectors could be grown to high titers when transgene expression was suppressed and no evidence for instabilities was obtained. Cells stably transfected with a SIV-based vector construct were converted into lentiviral vector producer cells by infection with the adenoviral lenti-pack vectors. Lentiviral vector titers obtained were as high as vector titers obtained by transient cotransfection experiments. A protocol was developed that allowed preparation of lentiviral vector stocks with undetectable levels of contaminating adenoviral lenti-pack vectors. CONCLUSIONS: The adenoviral lenti-pack vectors described should provide a convenient alternative approach to inducible packaging cell lines for large-scale lentiviral vector production. Transient expression of cytotoxic lentiviral packaging genes by the adenoviral lenti-pack vectors circumvents loss of titers during prolonged culture of packaging cell lines. The design of the adenoviral lenti-pack vectors should reduce the risk of transfer of packaging genes to target cells and at the same time provide flexibility with respect to the lentiviral vector constructs that can be packaged.     

慢病毒载体感染成年食蟹猴骨髓间充质干细胞

骨髓间充质干细胞(Mesenchymal stem cells,MSCs)具有增殖和多向分化潜能,临床应用广泛,近年来备受关注。另一方面,MSCs易于转导和表达外源基因,是理想的基因工程细胞。非人灵长类(NHPs)和人类具有非常相近的遗传背景,NHPs模型在评价药物疗效和移植治疗等方面具有不可替代的价值。本研究采用密度梯度离心法分离成年食蟹猴骨髓单核细胞(Marrow mononuclear cells,MNCs),贴壁培养MSCs。同时构建表达绿色荧光蛋白(Green fluorescent protein,GFP)的慢病毒载体,感染成年食蟹猴MSCs。结果显示,体外培养的成年食蟹猴MSCs均感染猴泡沫病毒(Simian foamy virus,SFV),体外培养成年食蟹猴MSCs必须添加抗病毒药物Tenofovir。但由于食蟹猴MSCs感染SFV,以及培养中添加了抗病毒药物Tenofovir,慢病毒载体的感染效率明显降低(10%)。本研究通过停用抗病毒药,在细胞复苏后6d转染慢病毒,可大幅提高慢病毒的感染效率(50%)。为成年食蟹猴MSCs作为基因工程细胞应用于实验和临床研究提供了技术保证。     

Development and characterization of a minimal inducible packaging cell line for simian immunodeficiency virus-based lentiviral vectors

Background

Lentiviral vectors allow gene transfer into non‐dividing cells. Further development of these vector systems requires stable packaging cell lines that enable adequate safety testing.

Methods

To generate a packaging cell line for vectors based on simian immunodeficiency virus (SIV), expression plasmids were constructed that contain the codon‐optimized gag‐pol gene of SIV and the gene for the G protein of vesicular stomatitis virus (VSV‐G) under the control of an ponasterone‐inducible promoter. Stable cell lines expressing these packaging constructs were established and characterized.

Results

The RT activity and vector titers of cell clones stably transfected with the inducible gag‐pol expession plasmid could be induced by ponasterone by more than a factor of 1000. One of these clones was subsequently transfected with the ponasterone‐inducible VSV‐G expression plasmid to generate packaging cells. Clones of the packaging cells were screened for vector production by infection with an SIV vector and subsequent induction by ponasterone. In the supernatant of selected ponasterone‐induced producer clones vector titers of more than 1×10⁵ transducing units/ml were obtained. Producer cell clones were stable for at least five months, as tested by vector production.

Conclusions

The packaging cells described should be suitable for most preclinical applications of SIV‐based vectors. By avoiding regions of high homology between the vector and the packaging constructs, the design of the SIV packaging cell line should reduce the risk of transfer of packaging genes to target cells and at the same time provide flexibility with respect to the SIV vector constructs that can be packaged. Copyright © 2002 John Wiley & Sons, Ltd.

     

Progress and Perspectives in the Development of Lentiviral Vector Producer Cells

After two decades of clinical trials, gene therapy demonstrated effectiveness in the treatment of a series of diseases. Currently, several gene therapy products are approved and used in the clinic. Lentiviral vectors (LVs) are one of the most used transfer vehicles to deliver genetic material and the vector of choice to modify hematopoietic cells to correct primary immunodeficiencies, hemoglobinopathies, and leukodystrophies. LVs are also widely used to modify T cells to treat cancers in immunotherapies (e.g., chimeric antigen receptors T cell therapies, CAR-T). In genome editing, LVs are used to deliver sequence-specific designer nucleases and DNA templates. The approval LV gene therapy products (e.g., Kymriah, for B-cell Acute lymphoblastic leukemia treatment; LentiGlobin, for β-thalassemia treatment) reinforced the need to improve their bioprocess manufacturing. The production has been mostly dependent on transient transfection. Production from stable cell lines facilitate GMP compliant processes, providing an easier scale-up, reproducibility and cost-effectiveness. The establishment of stable LV producer cell lines presents, however, several difficulties, with the cytotoxicity of some of the vector proteins being a major challenge. Genome editing technologies pose additional challenges to LV producer cells. Herein the major bottlenecks, recent achievements, and perspectives in the development of LV stable cell lines are revised.     

Improved baculovirus system for transferring genes into insect and mammalian cells

A new set of eukaryotic expression vectors was constructed on the basis of baculoviruses. EcoRI fragments S, J, and P with the genes for late viral proteins p35 (polyhedrin), p39, and p10 were cloned from genomic DNA of the nuclear polyhedrosis virus. The promoter regions of these genes were used to construct double-and triple-promoter expression vectors. Baculovirus vectors containing an expression cassette with the cytomegalovirus promoter and the green fluorescent protein reporter gene were designed to express the cloned genes in cultured mammalian cells.     

Human pluripotent stem cell-derived myogenic progenitors undergo maturation to quiescent satellite cells upon engraftment

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Molecular Determinants of Vectofusin-1 and Its Derivatives for the Enhancement of Lentivirally Mediated Gene Transfer into Hematopoietic Stem/Progenitor Cells

Gene delivery into hCD34+ hematopoietic stem/progenitor cells (HSPCs) using human immunodeficiency virus, type 1-derived lentiviral vectors (LVs) has several promising therapeutic applications. Numerous clinical trials are currently underway. However, the efficiency, safety, and cost of LV gene therapy could be ameliorated by enhancing target cell transduction levels and reducing the amount of LV used on the cells. Several transduction enhancers already exist, such as fibronectin fragments or cationic compounds. Recently, we discovered Vectofusin-1, a new transduction enhancer, also called LAH4-A4, a short histidine-rich amphipathic peptide derived from the LAH4 family of DNA transfection agents. Vectofusin-1 enhances the infectivity of lentiviral and γ-retroviral vectors pseudotyped with various envelope glycoproteins. In this study, we compared a family of Vectofusin-1 isomers and showed that Vectofusin-1 remains the lead peptide for HSPC transduction enhancement with LVs pseudotyped with vesicular stomatitis virus glycoproteins and also with modified gibbon ape leukemia virus glycoproteins. By comparing the capacity of numerous Vectofusin-1 variants to promote the modified gibbon ape leukemia virus glycoprotein-pseudotyped lentiviral vector infectivity of HSPCs, the lysine residues on the N-terminal extremity of Vectofusin-1, a hydrophilic angle of 140° formed by the histidine residues in the Schiffer-Edmundson helical wheel representation, hydrophobic residues consisting of leucine were all found to be essential and helped to define a minimal active sequence. The data also show that the critical determinants necessary for lentiviral transduction enhancement are partially different from those necessary for efficient antibiotic or DNA transfection activity of LAH4 derivatives. In conclusion, these results help to decipher the action mechanism of Vectofusin-1 in the context of hCD34+ cell-based gene therapy.