Bean Yellow Dwarf Virus replicons for high-level transgene expression in transgenic plants and cell cultures

A novel stable transgenic plant expression system was developed using elements of the replication machinery of Bean Yellow Dwarf Virus (BeYDV). The system contains two transgenes: 1) The BeYDV replicon vector with an expression cassette flanked by cis-acting DNA elements of BeYDV, and 2) The viral replication initiator protein (Rep) controlled by an alcohol-inducible promoter. When Rep expression was triggered by treatment with ethanol, it induced release of the BeYDV replicon from stably integrated T-DNA and episomal replication to high copy number. Replicon amplification resulted in substantially increased transgene mRNA levels (up to 80-fold) and translation products (up to 10-fold) after induction of Rep expression by ethanol treatment in tobacco NT1 cells and leaves of whole potato plants. Thus, the BeYDV stable transformant replicon system is a powerful tool for plant-based production of recombinant proteins.     

A DNA replicon system for rapid high‐level production of virus‐like particles in plants

Recombinant virus‐like particles (VLPs) represent a safe and effective vaccine strategy. We previously described a stable transgenic plant system for inexpensive production and oral delivery of VLP vaccines. However, the relatively low‐level antigen accumulation and long‐time frame to produce transgenic plants are the two major roadblocks in the practical development of plant‐based VLP production. In this article, we describe the optimization of geminivirus‐derived DNA replicon vectors for rapid, high‐yield plant‐based production of VLPs. Co‐delivery of bean yellow dwarf virus (BeYDV)‐derived vector and Rep/RepA‐supplying vector by agroinfiltration of Nicotiana benthamiana leaves resulted in efficient replicon amplification and robust protein production within 5 days. Co‐expression of the P19 protein of tomato bush stunt virus, a gene silencing inhibitor, further enhanced VLP accumulation by stabilizing the mRNA. With this system, hepatitis B core antigen (HBc) and Norwalk virus capsid protein (NVCP) were produced at 0.80 and 0.34 mg/g leaf fresh weight, respectively. Sedimentation analysis and electron microscopy of transiently expressed antigens verified the efficient assembly of VLPs. Furthermore, a single replicon vector containing a built‐in Rep/RepA cassette without P19 drove protein expression at similar levels as the three‐component system. These results demonstrate the advantages of fast and high‐level production of VLP‐based vaccines using the BeYDV‐derived DNA replicon system for transient expression in plants. Biotechnol. Bioeng. 2009;103: 706–714. © 2009 Wiley Periodicals, Inc.     

Targeted chromosomal insertion of large DNA into the human genome by a fiber-modified high-capacity adenovirus-based vector system

A prominent goal in gene therapy research concerns the development of gene transfer vehicles that can integrate exogenous DNA at specific chromosomal loci to prevent insertional oncogenesis and provide for long-term transgene expression. Adenovirus (Ad) vectors arguably represent the most efficient delivery systems of episomal DNA into eukaryotic cell nuclei. The most advanced recombinant Ads lack all adenoviral genes. This renders these so-called high-capacity (hc) Ad vectors less cytotoxic/immunogenic than those only deleted in early regions and creates space for the insertion of large/multiple transgenes. The versatility of hcAd vectors is been increased by capsid modifications to alter their tropism and by the incorporation into their genomes of sequences promoting chromosomal insertion of exogenous DNA. Adeno-associated virus (AAV) can insert its genome into a specific human locus designated AAVS1. Trans- and cis-acting elements needed for this reaction are the AAV Rep78/68 proteins and Rep78/68-binding sequences, respectively. Here, we describe the generation, characterization and testing of fiber-modified dual hcAd/AAV hybrid vectors (dHVs) containing both these elements. Due to the inhibitory effects of Rep78/68 on Ad-dependent DNA replication, we deployed a recombinase-inducible gene switch to repress Rep68 synthesis during vector rescue and propagation. Flow cytometric analyses revealed that rep68-positive dHVs can be produced similarly well as rep68-negative control vectors. Western blot experiments and immunofluorescence microscopy analyses demonstrated transfer of recombinase-dependent rep68 genes into target cells. Studies in HeLa cells and in the dystrophin-deficient myoblasts from a Duchenne muscular dystrophy (DMD) patient showed that induction of Rep68 synthesis in cells transduced with fiber-modified and rep68-positive dHVs leads to increased stable transduction levels and AAVS1-targeted integration of vector DNA. These results warrant further investigation especially considering the paucity of vector systems allowing permanent phenotypic correction of patient-own cell types with large DNA (e.g. recombinant full-length DMD genes).     

Multi-tasking of nonstructural gene products is required for bean yellow dwarf geminivirus transcriptional regulation

Mastreviridae, of the family geminiviridae, possess a monopartite genome and are transmitted by leafhoppers. Bean yellow dwarf dirus (BeYDV) is a mastrevirus which originated from South Africa and infects dicoyledenous plants, a feature unusual for mastreviridae. Previously, the nonstructural proteins Rep and RepA were examined with respect to their independent roles in BeYDV replication. This was achieved by placing both gene products under independent constitutive promoter control and examining their effects on replication-competent constructs. In the current study, Rep and RepA are examined further for their roles in regulating BeYDV gene expression using a series of replication-incompetent constructs. While both Rep and RepA are found to behave as equally potent inhibitors of complementary-sense gene expression, they differ considerably with respect to their abilities to transactivate virion-sense gene expression. Furthermore, RepA is identified as playing more than one role in this transactivation process. A nuclear localization domain is identified in Rep which is absent in RepA, and Rep-RepA interactions are examined under in vivo conditions. The study concludes with an investigation into the expression strategies of the BeYDV capsid protein.     

High level protein expression in plants through the use of a novel autonomously replicating geminivirus shuttle vector

We constructed a novel autonomously replicating gene expression shuttle vector, with the aim of developing a system for transiently expressing proteins at levels useful for commercial production of vaccines and other proteins in plants. The vector, pRIC, is based on the mild strain of the geminivirus Bean yellow dwarf virus (BeYDV-m) and is replicationally released into plant cells from a recombinant Agrobacterium tumefaciens Ti plasmid. pRIC differs from most other geminivirus-based vectors in that the BeYDV replication-associated elements were included in cis rather than from a co-transfected plasmid, while the BeYDV capsid protein (CP) and movement protein (MP) genes were replaced by an antigen encoding transgene expression cassette derived from the non-replicating A. tumefaciens vector, pTRAc. We tested vector efficacy in Nicotiana benthamiana by comparing transient cytoplasmic expression between pRIC and pTRAc constructs encoding either enhanced green fluorescent protein (EGFP) or the subunit vaccine antigens, human papillomavirus subtype 16 (HPV-16) major CP L1 and human immunodeficiency virus subtype C p24 antigen. The pRIC constructs were amplified in planta by up to two orders of magnitude by replication, while 50% more HPV-16 L1 and three- to seven-fold more EGFP and HIV-1 p24 were expressed from pRIC than from pTRAc. Vector replication was shown to be correlated with increased protein expression. We anticipate that this new high-yielding plant expression vector will contribute towards the development of a viable plant production platform for vaccine candidates and other pharmaceuticals.     

Role for highly regulated rep gene expression in adeno-associated virus vector production.

Recent success achieving long-term in vivo gene transfer without a significant immune response by using adeno-associated virus (AAV) vectors (X. Xiao, J. Li, and R. J. Samulski, J. Virol. 70:8098-8108, 1996) has encouraged further development of this vector for human gene therapy. Currently, studies focus on the generation of high-titer vectors by using the two-plasmid helper-vector system in adenovirus (Ad)-infected cells. To examine the effects of the AAV replication (rep) genes on recombinant AAV (rAAV) vector production, we have constructed a series of AAV helper plasmids that contain strong heterologous promoters in place of the endogenous p5 promoter. Although high-level rep gene expression was achieved, rAAV DNA failed to replicate in the absence of Ad infection. Moreover, unregulated overexpression of Rep78/68 led to substantially lower rAAV yields in the presence of Ad (10(4-5) versus 10(7-8)). In contrast, under similar conditions, reduced Rep78/68 expression resulted in much higher rAAV yields (10(9)). Molecular characterization showed that overexpression of the rep gene decreased rAAV DNA replication and severely inhibited capsid (cap) gene expression. Interestingly, a reduced rep level enhanced cap gene expression and supported normal rAAV DNA replication. These studies suggest a critical role for regulated rep gene expression in rAAV production and have facilitated the development of a new AAV helper plasmid that increases vector production eightfold over currently used constructs.     

Cell lines inducibly expressing the adeno-associated virus (AAV) rep gene: requirements for productive replication of rep-negative AAV mutants.

The adeno-associated virus (AAV) rep gene codes for a family of nonstructural proteins which are required for AAV gene regulation and DNA replication. In addition, rep has been implicated in a variety of activities outside the AAV life cycle which have been difficult to study, since attempts to achieve separate and constitutive expression of rep in stable cell lines have failed so far. Here we report the generation of two cell lines which inducibly express Rep78 under the control of the glucocorticoid-responsive mouse mammary tumor virus promoter. In addition, one of the cell lines constitutively expresses relatively high levels of Rep52. Both cell lines showed similar plating efficiencies with and without induction of Rep78 expression, which rules out cytotoxic effects of Rep78. The cell lines efficiently support DNA replication of a rep-negative AAV genome and initiate the formation of AAV particles. However, despite the correct sizes and stoichiometry of the three capsid proteins, the AAV particles were noninfectious. This was found to be due to a defect in the accumulation of single-stranded AAV DNA. Transient transfection of single expression constructs for constitutive, high-level expression of individual Rep proteins (either Rep78, Rep68, Rep52, or Rep40) complemented this defect. Infectious rep-negative AAV progeny was produced at varying efficiencies depending on the rep expression construct used. These data show that functional expression of full-length Rep in recombinant cell lines is possible and that the state of Rep expression is critical for the infectivity of AAV progeny produced.     

Extrachromosomal DNA isolated from tomato big bud and Candidatus Phytoplasma australiense phytoplasma strains

The nucleotide sequences of two extrachromosomal elements from tomato big bud (TBB) and one extrachromosomal element from Candidatus Phytoplasma australiense (Ca. P. australiense) phytoplasmas were determined. Both TBB plasmids (3319 and 4092 bp) contained an open reading frame ( approximately 570 bp) with homology to the rolling circle replication initiator protein (Rep). This gene was shorter than the rep genes identified from other phytoplasma plasmids, geminiviruses and bacterial plasmids. Both TBB extrachromosomal DNAs (eDNAs) encoded a putative DNA primase (dnaG) gene, a chromosomal gene required for DNA replication and which contains the conserved topoisomerase/primase domain. We speculate that the replication mechanism for the TBB phytoplasma eDNA involves the dnaG gene instead of the rep gene. The Ca. P. australiense eDNA (3773 bp) was shown to be circular and contained four open reading frames. The rep gene was encoded on ORF 1 and had homology to both plasmid (pLS1) and geminivirus-like domains.     

In vitro resolution of adeno-associated virus DNA hairpin termini by wild-type Rep protein is inhibited by a dominant-negative mutant of rep.

An adeno-associated virus (AAV) genome with a Lys-to-His (K340H) mutation in the consensus nucleotide triphosphate binding site of the rep gene has a dominant-negative DNA replication phenotype in vivo. We expressed both wild-type (Rep78) and mutant (Rep78NTP) proteins in two helper-free expression systems consisting of either recombinant baculoviruses in insect cells or the human immunodeficiency virus type 1 long terminal repeat promoter in human 293 cell transient transfections. We analyzed nuclear extracts from both expression systems for the ability to complement uninfected HeLa cell cytoplasmic extracts in an in vitro terminal resolution assay in which a covalently closed AAV terminal hairpin structure is converted to an extended linear duplex. Although both Rep78 and Rep78NTP bound to AAV terminal hairpin DNA in vitro, Rep78 but not Rep78NTP complemented the terminal resolution assay. Furthermore, Rep78NTP was trans dominant for AAV terminal resolution in vitro. We propose that the dominant-negative replication phenotype of AAV genomes carrying the K340H mutation is mediated by mutant Rep proteins binding to the terminal repeat hairpin.     

Site-specific integration of an adeno-associated virus vector plasmid mediated by regulated expression of rep based on Cre-loxP recombination

Recombinant adeno-associated virus (AAV) type 2 has attracted attention because it appears to have the potential to serve as a vector for human gene therapy. An interesting feature of wild-type AAV is its site-specific integration into AAVS1, a defined locus on chromosome 19. This reaction requires the presence of two viral elements: inverted terminal repeats and Rep78/68. Accordingly, current AAV vectors lacking the rep gene lack the capacity for site-specific integration. In this report, we describe the use of Cre-loxP recombination in a novel system for the regulated, transient expression of Rep78, which is potentially cytotoxic when synthesized constitutively. We constructed a plasmid in which the p5 promoter was situated downstream of the rep coding sequence; in this configuration, rep expression is silent. However, Cre circularizes the rep expression unit, directly joining the p5 promoter to the 5' end of the rep78 coding sequence, resulting in expression of Rep78. Such structural and functional changes were confirmed by detailed molecular analysis. A key feature of this system is that Rep expression was terminated when the circular molecule was linearized and integrated into the chromosome. Using this regulated expression system, we attempted site-specific integration of AAV vector plasmids. A PCR-based assay and analysis of fluorescence in situ hybridization showed that the AAV vector sequence was integrated into chromosome 19. Sequence analysis also confirmed that transient expression of Rep78 was sufficient for site-specific integration at the AAVS1 locus, as is observed with integration of wild-type AAV.     

Mutation of a consensus purine nucleotide binding site in the adeno-associated virus rep gene generates a dominant negative phenotype for DNA replication.

Adeno-associated virus (AAV) contains a multifunctional nonstructural gene, rep, which is required for AAV DNA replication and has pleiotropic effects on positive and negative regulation of gene expression. All of the parvovirus nonstructural genes contain a region of highly conserved amino acid homology. Within this conserved region is the consensus sequence for a purine nucleotide binding site. We constructed a mutant AAV having a mutation in this site by converting lysine 340 to histidine. The resulting mutant AAV genome, pNTC23, overproduced the mutant Rep proteins, indicating that these proteins are autoregulated. Furthermore, the mutant gene was unable to replicate but was able to inhibit in trans wild-type AAV DNA replication. Thus, pNTC23 represents a dominant negative mutant of AAV. These results suggest that rep has separate functional domains important for DNA replication.     

Analysis of the terminal repeat binding abilities of mutant adeno-associated virus replication proteins.

The adeno-associated virus (AAV) Rep78 and Rep68 proteins play essential roles in viral DNA replication, trans activation of viral gene expression, and suppression of oncogene-mediated cellular transformation. By using an extensive set of linker insertion and deletion mutations in the replication gene, we mapped the regions of the Rep78 protein that mediate binding to the AAV origin of replication in vitro. Deletions that removed amino acid codons 25 to 62, 88 to 113, 125 to 256, and 346 to 400 abolished binding. Alterations in several other regions of the protein affected the binding affinity of the mutant proteins. All of the mutant proteins that support AAV DNA replication or p40 trans activation bound to the terminal repeat sequence, thus verifying the importance of binding for these functions. Several mutant rep genes that failed to suppress oncogene-mediated cellular transformation produced proteins that were capable of binding to the AAV terminal repeat sequences.     

Negative and positive regulation in trans of gene expression from adeno-associated virus vectors in mammalian cells by a viral rep gene product.

We previously described use of the human parvovirus, adeno-associated virus (AAV), as a vector for transient expression in mammalian cells of the gene for chloramphenicol acetyltransferase (CAT). In the AAV vector, pTS1, the CAT gene is expressed under the control of the major AAV promoter p40. This promoter is embedded within the carboxyl-terminal region of an open reading frame (orf-1) which codes for a protein (rep) required for AAV DNA replication. We show here that the rep product has additional trans-acting properties to regulate gene expression. First, deletion or frame-shift mutations in orf-1, which occurred far upstream of p40, increased expression of CAT in human 293 (adenovirus-transformed) cells. This increased CAT expression was abolished when such mutant AAV vectors were transfected into 293 cells together with a second AAV vector which could supply the wild-type AAV rep product in trans. Thus, an AAV rep gene product was a negative regulator, in trans, of expression of CAT in uninfected 293 cells. In adenovirus-infected 293 cells, the function of the AAV rep product was more complex, but in some cases, it appeared to be a trans activator of the expression from p40. In HeLa cells, only trans activation by rep was seen in the absence or presence of adenovirus. Neither activation nor repression by the rep product required replication per se of the AAV vector DNA. Thus, trans-acting negative or positive regulation of gene expression by the AAV rep gene is modulated by factors in the host cell and by the helper adenovirus.     

High-level expression of adeno-associated virus (AAV) Rep78 or Rep68 protein is sufficient for infectious-particle formation by a rep-negative AAV mutant.

Adeno-associated virus (AAV) codes for four closely related nonstructural proteins (Rep) required for AAV DNA replication and gene regulation. In vitro studies have revealed that either Rep78 or Rep68 alone is sufficient for AAV DNA replication. Rep52 and Rep40 are not required for DNA replication but have been reported to enhance the efficiency of accumulation of single-stranded progeny DNA. Previous studies on rep-expressing cell lines had indicated that only a subset of the four Rep proteins are required for the production of infectious AAV. We therefore set out to determine the minimal set of Rep proteins sufficient for the generation of infectious AAV. Transient cotransfections in HeLa cells of constructs for high-level expression of individual Rep proteins with a rep-negative AAV genome revealed that either Rep78 or Rep68 alone could complement for a full replication cycle yielding infectious virus. This result was confirmed by transfection studies in the cell line HeM2, which selectively expresses Rep78 at rather low levels under the control of the glucocorticoid-responsive mouse mammary tumor virus long terminal repeat (C. Hölscher, M. Hörer, J. A. Kleinschmidt, H. Zentgraf, A. Bürkle, and R. Heilbronn, J. Virol. 68:7169-7177, 1994). Increasing the level of Rep78 expression by transfection of a glucocorticoid receptor expression construct resulted in a higher level of DNA replication of a cotransfected rep-negative AAV genome and in the production of infectious rep-negative AAV particles. We further report on the generation of a new rep-expressing cell line, HeCM1, which was obtained by stable supertransfection of a construct for constitutive Rep40 expression into HeM1 cells (Hölscher et al., J. Virol. 68:7169-7177). Transfection of rather large amounts of rep-negative AAV DNA led to detectable virus production in HeCM1 cells even in the absence of the cotransfected glucocorticoid receptor expression construct, but higher yields were obtained after increasing the Rep78 level by coexpression of the glucocorticoid receptor. These data demonstrate that all Rep functions required for the productive replication of AAV in HeLa cells are contained within both Rep78 and Rep68.     

A biochemical characterization of the adeno-associated virus Rep40 helicase

The human adeno-associated virus (AAV) has generated much enthusiasm as a transfer vector for human gene therapy. Although clinical gene therapy trials have been initiated using AAV vectors, much remains to be learned regarding the basic mechanisms of virus replication, gene expression, and virion assembly. AAV encodes four nonstructural, or replication (Rep), proteins. The Rep78 and Rep68 proteins regulate viral DNA replication, chromosomal integration, and gene expression. The Rep52 and Rep40 proteins mediate virus assembly. To better understand Rep protein function, we have expressed the Rep40 protein in Escherichia coli and purified it to near homogeneity. Like the other Rep proteins, Rep40 possesses helicase and ATPase activity. ATP is the best substrate, and Mg2+ is the most efficient divalent metal ion for helicase activity. A Lys to His mutation in the purine nucleotide-binding site results in a protein that inhibits helicase activity in a dominant negative manner. Rep40 unwinds double-stranded DNA containing a 3' single-stranded end, or blunt end, unlike the Rep68 and Rep52 enzymes, which have a strict requirement for DNA duplexes containing a 3' single-stranded end. Values for KATP in the ATPase assay are 1.1 +/- 0.2 mM and 1.2 +/- 0.2 mM in the absence and presence, respectively, of single-stranded DNA. Values for Vmax are 220 +/- 10 and 1,500 +/- 90 nmol/min/mg in the absence and presence, respectively, of single-stranded DNA. These studies provide the first enzymatic characterization of the AAV Rep40 protein and elucidate important functional differences between the AAV helicases.     

Replication of a geminivirus derived shuttle vector in maize endosperm cells.

A maize (Zea mays L.) endosperm cell culture has been shown to efficiently replicate DNA sequences derived from wheat dwarf virus (WDV), a monopartite monocot geminivirus. To analyze sequences necessary for viral replication and to verify their application for a plant gene expression vector, we have developed a 3.7 kilobase pairs Escherichia coli--plant cell shuttle vector, pWI-11. The p15A origin of replication, functional in E. coli, was introduced into the viral sequences. We have replaced the coding region of the coat protein gene by that of bacterial neomycin phosphotransferase II (NPT II) gene. The resulting NPT II gene fusion can serve as a selectable marker in both plant and E. coli systems. Into a unique cloning site in this pWI-11 vector, we introduced a gene fusion carrying the bacterial beta-glucuronidase (GUS) coding region under control of the cauliflower mosaic virus 35S (CaMV35S) gene promoter and terminator. By transferring these viral sequences into protoplasts derived from maize endosperm cell cultures, we have demonstrated that the plasmid pWI-11 can replicate in maize endosperm cells, that the GUS reporter gene introduced into pWI-11 can be expressed at high level in the transformed cells, and that the replicating viral DNA can be rescued from endosperm cells by transforming E. coli in the presence of kanamycin. The level of GUS gene expression increased progressively in transformed endosperm cells during a prolonged culture period, coinciding with replication of the viral sequences in these cells.     

烟草曲茎病毒复制蛋白基因的原核表达和免疫定位

利用PCR方法从烟草曲茎病毒 (TbCSV)Y35分离物的病株中获得复制蛋白 (Rep)基因 ,将其克隆到原核表达载体pGEX 4T 1上获得重组质粒pGEX Y35Rep。重组质粒导入大肠杆菌BL2 1(DE3)pLysS中 ,IPTG诱导表达后发现部分Rep融合蛋白以可溶性形式表达。利用GST Sepharose 4B亲和层析柱纯化了Rep的融合蛋白 ,免疫家兔获得Rep蛋白的抗体。对TbCSV侵染烟草中Rep蛋白的亚细胞分布研究发现 ,Rep蛋白主要分布于含有细胞核的组份中。利用免疫胶体金技术对感病烟草中Rep蛋白进行了定位 ,发现Rep蛋白存在于细胞核内     

Characterization of the replication region of the Lactobacillus reuteri plasmid pTC82 potentially used in the construction of cloning vector

A 3.2 kb DNA fragment containing the replication region (RR) from pTC82 was cloned, sequenced, and found to contain elements typical of plasmids that replicate via a rolling-circle mechanism of replication (RCR), including double-strand origin (DSO), replication protein gene (rep), and single-strand origin (SSO). The DSO of pTC82 contains two domains showing 55.5% and 84.6% similarities in nucleotide (nt) sequence to the conserved functional elements bind and nic, respectively, which are required for the initiation of the leading strand typical of the pC194-RCR family. Although the predicted rep gene product of pTC82 (Rep82) shares little identity (less than 24%) with other known Reps, a region containing three motifs, characteristic of the pC194-family Reps, was identified, indicating the Rep82 as a novel Rep protein of this family. Downstream of the rep82 gene, strong similarity to the typical palT type-SSO could be detected. This is the first palT type-SSO to be identified from Lactobacillus. Through a series of deletion studies, the minimal replicon of the cloned RR was found to be 2.66 kb in size including the DSO region and rep gene. This RR was further identified as being highly stable in L. reuteri and also bearing a very narrow host-range property, suggesting it to be a good replicon potentially useful in vector construction for developing L. reuteri as a vaccine carrier.