Molecular design for recombinant adeno-associated virus (rAAV) vector production

Applied Microbiology and Biotechnology - Recombinant adeno-associated virus (rAAV) vectors are increasingly popular tools for gene therapy applications. Their non-pathogenic status, low...     

A novel recombinant adeno-associated virus vector packaging system with HSV-1 amplicon providing helper functions

A novel packaging system for producing recombinant adeno-associated virus (rAAV) vector was described. Instead of the conventional method for rAAV production by two-plasmid co-transfection followed by superinfection with adenovirus 5, an HSV-1 amplicon system expressing AAV-2 rep and cap genes from their native promoters was used to provide complete helper functions for rAAV replicating and packaging. This HSV-1 ampticon stock consisted of two kinds of infectious HSV-1 virions, a replicating-defective HSV-1 amplicon pseudovirus harboring multi-copies of AAV-2 rep and cap gene and a temperature-sensitive HSV-1 mutant strain ts-KOS. High-titer rAAV was generated with this new packaging system. This packaging system gives a simple and scaleable process for rAAV production.     

A novel and highly efficient production system for recombinant adeno-associated virus vector

Recombinant adeno-associated virus(rAAV) has proven to be a promising gene delivery vector for human gene therapy. However, its application has been limited by difficulty in obtaining enough quantities of high-titer vector stocks. In this paper, a novel and highly efficient production system for rAAV is described. A recombinant herpes simplex virus type 1(rHSV-1) designated HSV1-rc/△UL2, which expressed adeno-associated virus type2(AAV-2) Rep and Cap proteins, was constructed previously. The data confirmed that its functions were to support rAAV replication and packaging, and the generated rAAV was infectious. Meanwhile, an rAAV proviral cell line designated BHK/SG2, which carried the green fluorescent protein(GFP) gene expression cassette, was established by transfecting BHK-21 cells with rAAV vector plasmid pSNAV-2-GFP. Infecting BHK/SG2 with HSV1-rc/△UL2 at an MOI of 0.1 resulted in the optimal yields of rAAV, reaching 250 transducing unit(TU) or 4.28×104 particles per cell. Therefore, compared with the conventional transfection method, the yield of rAAV using this "one proviral cell line, one helper virus" strategy was increased by two orders of magnitude. Large-scale production of rAAV can be easily achieved using this strategy and might meet the demands for clinical trials of rAAV-mediated gene therapy.     

A novel and highly efficient production system for recombinant adeno-associated virus vector

Recombinant adeno-associated virus (rAAV) has proven to be a promising gene delivery vector for human gene therapy. However, its application has been limited by difficulty in obtaining enough quantities of high-titer vector stocks. In this paper, a novel and highly efficient production system for rAAV is described. A recombinant herpes simplex virus type 1 (rHSV-1) designated HSV1-rc/AUL2, which expressed adeno-associated virus type2 (AAV-2) Rep and Cap proteins, was constructed previously. The data confirmed that its functions were to support rAAV replication and packaging, and the generated rAAV was infectious. Meanwhile, an rAAV proviral cell line designated BHK/SG2, which carried the green fluorescent protein (GFP) gene expression cassette, was established by transfecting BHK-21 cells with rAAV vector plasmid pSNAV-2-GFP. Infecting BHK/SG2 with HSV1-rc/AUL2 at an MOI of 0.1 resulted in the optimal yields of rAAV, reaching 250 transducing unit (TU) or 4.28×104 particles per cell. Therefore, compared     

Self-amplification system for recombinant adeno-associated virus production

A recently reported system for recombinant adeno-associated virus (rAAV) production does not require infection of a helper virus and depends on the transfection with a huge amount of three plasmids: AAV-vector, AAV-helper, and adenovirus-helper plasmids. Toward simplifying rAAV production, as a first step, we tested the use of the rAAV itself instead of the AAV-vector plasmid as a source of rAAV DNA and determined the optimal timing of infection and dose of the input rAAV. When 293 cells were infected just after transfection with 100 particles/cell of rAAV, irrespective of the purity, CsCl-purified or crude, up to 2000 particles/cell of rAAV were produced (9- to 20-fold self-amplification), a yield comparable to that obtained by an adenovirus-free transfection. These results indicate that infection of rAAV can greatly reduce the amount of plasmid DNA for a large-scale transfection. This strategy will also be useful when applied to packaging cell lines inducibly expressing Rep and Cap proteins.     

A helper virus-free packaging system for recombinant adeno-associated virus vectors

Adeno-associated virus (AAV) is a human parvovirus that is currently receiving widespread attention for its potential use as a gene therapy vector. Construction of the recombinant AAV vector (rAAV) involves replacing most of the viral genome with a transgene of interest and then packaging this recombinant genome into an infectious virion. Most current protocols for generating rAAV entail the co-transfection of a vector plasmid and a packaging plasmid that expresses the viral replication and structural genes onto adenovirus (Ad) infected cells growing in culture. Limitations of this procedure include (1) contamination of rAAV with the Ad helper virus, (2) low yields of rAAV and (3) production of replication-competent AAV. In this report we describe new helper plasmids (pSH3 and pSH5) that eliminate the Ad co-infection requirement. The helper plasmids express the AAV rep and cap genes and the Ad E2A, VAI and E4 genes. When the helper plasmids are co-transfected onto human 293 cells with a vector plasmid in the absence of Ad infection, the rAAV vector yield is up to 80-fold greater than those obtained with the pAAV/Ad packaging plasmid. Moreover, replication competent AAV in the rAAV preparations is less than 0.00125%. The major advantages of this system are (1) the absence of infectious adenovirus and (2) the use of only two plasmids, which enhances transfection efficiencies and hence vector production. We believe that this two-plasmid transfection system will allow for more widespread use of the AAV vector system because of its simplicity and high yields. This system will be especially useful for preclinical analyses of multiple rAAV vectors.     

High-titer, serum-free production of adeno-associated virus vectors by polyethyleneimine-mediated plasmid transfection in mammalian suspension cells

Adeno-associated virus (AAV)-based vectors belong to the most promising gene transfer vectors in clinical studies. To provide vector for late-stage clinical trials as well as for a potential commercial phase, a scalable, cGMP-compliant process is required. Nearly all vector production protocols currently approved in Phase I clinical trials rely on AAV production in adherent HEK 293 cells in the presence of serum. In this study, we present a helper- and serum-free production method of AAV vectors in suspension-adapted HEK 293 cells. The method is based on plasmid transfection with 25 kDa linear polyethyleneimine. Compared to existing methods, our system is highly scalable as cells grow in suspension, does not require animal-derived products or the use of an exogenous virus (adenovirus or baculovirus) and yields genomic titers equal to those obtained in adherent HEK 293 cells in the presence of serum. Most importantly, work load and cost could be dramatically reduced in comparison to earlier methods, when comparing the production of equivalent volumes of cell culture media. Thus, our protocol should appeal to both basic research laboratories and cGMP manufacturing units.     

Packaging of human chromosome 19-specific adeno-associated virus (AAV) integration sites in AAV virions during AAV wild-type and recombinant AAV vector production

Adeno-associated virus type 2 (AAV-2) establishes latency by site-specific integration into a unique locus on human chromosome 19, called AAVS1. During the development of a sensitive real-time PCR assay for site-specific integration, AAV-AAVS1 junctions were reproducibly detected in highly purified AAV wild-type and recombinant AAV vector stocks. A series of controls documented that the junctions were packaged in AAV capsids and were newly generated during a single round of AAV production. Cloned junctions displayed variable AAV sequences fused to AAVS1. These data suggest that packaged junctions represent footprints of AAV integration during productive infection. Apparently, AAV latency established by site-specific integration and the helper virus-dependent, productive AAV cycle are more closely related than previously thought.     

Separate control of rep and cap expression using mutant and wild-type LoxP sequences and improved packaging system for adeno-associated virus vector production

Adeno-associated virus (AAV) vectors are a practical choice for gene transfer, and demand for them is increasing. To cope with the necessity in the near future, we have developed a number of approaches to establish packaging cell lines for the production of AAV vectors. In our previous study, a highly regulated expression of large Rep proteins was obtained by using the Cre-loxP switching system. Therefore, in the present study, to regulate Cap expression as well, we developed an inducible expression system for both Rep and Cap proteins by using an additional set of mutant loxP sequences. The mutants possess two base alterations in the spacer region of loxP and recombine specifically with the same counterpart in the presence of Cre. By using two separate plasmids, one with mutant and the other with wild-type loxP sequences, the expression of two different proteins can be induced simultaneously by Cre recombinase. When the LacZencoding plasmid vector was used as a packaging model, a significant packaging titer of 2.1 × 10¹⁰ genome copies per 10-cm dish was obtained. These results indicate the importance of controlling Cap expression, in addition to Rep, to achieve an optimum production rate for AAV vectors.     

重组腺相关病毒规模化生物包装技术

重组腺相关病毒(Recombinant adeno-associated virus,rAAV)的诸多优点使其成为具有巨大潜力的人类基因治疗载体。人类基因治疗临床前和临床研究以及基因治疗产品的市场化要求rAAV载体生产的规模化。自1989年野生型的腺相关病毒序列被Samulski报道以来,rAAV的生产工艺已经从传统的质粒共转染发展到应用包装细胞系和生产细胞系,包装细胞也从人体细胞衍化到昆虫细胞。目前rAAV的生产规模和病毒载体质量都完全可以符合临床应用要求,有效地促进rAAV在基因治疗临床上的广泛运用。以下将着重介绍rAAV规模化生物包装技术的发展趋势,尤其各种规模化生产系统的要点。     

重组腺相关病毒载体基因表达效率与辐射的关系

重组腺相关病毒(rAAV)载体被认为是最有希望的临床应用基因治疗载体之一。rAAV载体基因传递的有效性与病毒衣壳蛋白的免疫原性之间的矛盾是制约该类基因药物开发的关键难题,提高其表达效率是rAAV载体研发的主攻方向之一。研究发现,紫外线、γ射线等辐射可以提高rAAV载体的基因表达效率,其作用效果与辐射种类和剂量、细胞种类和状态、载体感染指数和感染时间等因素有关。其机制可能与DNA损伤反应,特别是DNA双链断裂修复有关。对辐射与rAAV载体的表达效率之间关系的深入了解,为两者的联合应用打开方便之门。本文将对UV、γ射线等辐射提高rAAV载体表达效率的机制、影响因素及其在基因治疗领域的应用进展进行综述。     

Optimized production of high-titer recombinant adeno-associated virus in roller bottles

Adeno-associated viral (AAV) vectors are used for in vivo gene transfer in a number of preclinical models of genetic diseases (including large-animal models) and are currently being tested in clinical trials for treatment of hemophilia B and cystic fibrosis. Protocols for production of AAV vectors in a helper virus-free system are available and are based on transient transfection of HEK-293 cells with multiple plasmids. Scale-up of vector production has been labor intensive and inefficient because of a lack of larger culture vessels suitable for growth of adherent cells, large-scale transfection, and vector production. Here we report efficient production of AAV vector in roller bottles, which represents a 10-fold scale-up from the conventional flask or plate method. Optimized production yielded greater than 10(13) vector genomes per bottle and was as cost effective as published protocols using plates. Successful vector production by this method was dependent on optimization of transfection by calcium phosphate precipitation, of monitoring of cell growth (by measurement of glucose consumption), of cell culture conditions, and CO2/air exchange with the culture vessel.     

抑制Notch-1基因表达的siRNA重组腺相关病毒载体的构建及滴度测定

目的:构建并制备携带靶向干扰Notch-1基因shRNA的重组腺相关病毒载体.方法:设计针对Notch-1的靶DNA序列,构建重组质粒pAAV-MCS2/siRNA-Notch-1,将该质粒和腺相关病毒包装质粒pAAV-RC,腺病毒辅助质粒pHelper共转染QBI-293A细胞,包装成带有Notch-1基因的重组腺相关病毒.结果:PCR鉴定分析结果表明成功构建针对Notch-1的siRNA重组腺相关病毒载体,滴定法测定重组病毒载体基因组得到滴度为1.2x 1012VP/L的高滴度腺相关病毒.结论:成功构建携带Notch-1基因短发夹状干扰RNA的腺相关病毒载体,为探索Notch-1基因在胶质母细胞瘤肿瘤干细胞中的作用提供实验基础.     

Development of multiple cloning site cis-vectors for recombinant adeno-associated virus production

Recombinant adeno-associated virus (rAAV) has become a very popular gene therapy vector in the past several years. A cis-plasmid is used to generate the rAAV stocks. In this plasmid, the entire expression cassette is incorporated between two AAV inverted terminal repeats. The construction of cis-plasmid has been problematic because of the high-frequency recombination of the viral inverted terminal repeats. Here we describe the design and construction of several multiple cloning site cis-plasmids that are driven by five different promoters, including the ubiquitous cytomegalovirus enhancer/chicken beta-actin (CAG), cytomegalovirus (CMV), rous sarcoma virus (RSV), simian virus 40 (SV40), and a muscle-specific promoter (CK6). The application of these multiple cloning site cis-plasmids improves the cloning efficiency. As an example of the utilization of these multiple cloning site vectors, the prokaryotic beta-galactosidase cDNA was cloned in the multiple cloning site cis-plasmids. High-level rAAV-mediated beta-galactosidase expression was achieved in HeLa cells from CAG, CMV, RSV and SV40 promoters, respectively, but notfrom the CK6 promoter. In vivo application in the adult mdx mouse (mouse model for Duchenne muscular dystrophy) muscle revealed efficient transgene expression from CMV and CK6 promoters, followed by CAG and RSV promoters. The SV40 promoter was the least efficient.     

测定重组腺相关病毒基因组滴度的qPCR新方法

腺相关病毒(Adeno-associated virus,AAV)在基因治疗应用中具有很多优势,但是其生物学滴度的测定仍很繁琐,不同实验室使用各自的方法和参照,这些都影响了重组腺相关病毒(rAAV)载体在临床前和临床上的应用.反向末端重复序列(Inverted terminal repeats,ITR)是重组腺相关病毒载体中不可或缺的顺式作用元件,针对ITR2以及ITR2-CMV设计的qPCR检测方法可以快速、准确地得到rAAV2的基因组滴度,由于该方法可以广泛适用,因此对推动AAV滴度检测的标准化有重要意义.