Integrating retroviral cassette extends gene delivery of HSV-1 expression vectors to dividing cells

Retroviral vectors have long been used in a wide variety of gene transfer applications but have certain drawbacks, such as small cargo size, limited tropism, and low titers. HSV expression vectors overcome these disadvantages, but, because they persist in target cells as nonreplicative episomes, they are not retained in all the progeny of dividing cells. Chimeric HSV/AAV products that can mediate transgene integration in human mitotic cells have been constructed, but, to date, genetic modification of dividing cells in animal models using HSV products has not been possible. Here, we report the construction of hybrid HSV/retroviral vectors that exhibit up to 50-fold higher transgene integration efficiency compared to vectors containing only HSV-1 components. Efficient integration of a retroviral transgene cassette encoding pac in human cells required expression of the Moloney murine leukemia virus gag-pol genes, but in murine cells, could also be mediated by endogenous activities, albeit at a lower level. Gene delivery was equally efficient in BHK21, a cell line resistant to retroviral infection, and transgene retention and expression were observed to be stable for least one month in Hs683 human glioma cells. These vectors have wide applications for the genetic modification of many cell types.     

Transgene expression facilitated by the v-src splice acceptor can impair replication kinetics and lead to genomic instability of Rous sarcoma virus-based vectors

Rous sarcoma virus (RSV) can be used for the simple generation of high-titer replication-competent retroviral (RCR) vectors. Retroviruses undergo frequent genomic recombination, however, and vectors with reduced replication kinetics are rapidly overgrown by mutant forms. Vector design is hence critical to vector efficacy. In this study, two different designs of RSV-based RCR vectors were evaluated. Vectors in which transgene expression was facilitated by the v-src splice acceptor were revealed to have greatly reduced replication kinetics and genomic stability in comparison to vectors in which transgene expression was mediated by an internal ribosome entry site in the 3′ untranslated region.     

Functional characterization of transgene integration patterns by halo fluorescence in situ hybridization: electroporation versus retroviral infection

Gene transfer techniques are essential for bioengineering and gene therapy. Retroviral vectors constitute an important tool in this context as integrase-catalyzed genomic anchoring is one of the best defined results of nonhomologous recombination, occurring at loci with favorable expression properties. On the basis of a retroviral expression cassette, this study focuses on differences regarding the genomic targets after its transfer by either retroviral infection or electroporation. Fluorescence in situ hybridization (FISH) of clones generated by infection revealed for the majority an association of the transgene with the nuclear matrix while this was true only for a minority of single copy clones if the same construct was transferred by electroporation. Our results demonstrate that the process of integration is distinct for both gene transfer routes and confirm that retroviral survival strategies favor integration next to scaffold/matrix attachment regions. These results may be one key to explain recent consequences of gene therapy trials that have led to the deregulation of endogenous genes.     

A helper-dependent capsid-modified adenovirus vector expressing adeno-associated virus rep78 mediates site-specific integration of a 27-kilobase transgene cassette

Random integration of viral gene therapy vectors and subsequent activation or disruption of cellular genes poses safety risks. Major efforts in the field are aimed toward targeting vector integration to specific sites in the host genome. The adeno-associated virus (AAV) Rep78 protein is able to target AAV integration to a specific site on human chromosome 19, called AAVS1. We studied whether this ability could be harnessed to achieve site-specific integration of a 27-kb transgene cassette into a model cell line for human hematopoietic cells (Mo7e). To deliver rep78 and the transgene to Mo7e cells, we used helper-dependent adenovirus (Ad) vectors containing Ad serotype 35 fiber knob domains (HD-Ad). An HD-Ad vector containing the rep78 gene under the control of the globin locus control region (LCR) (Ad.LCR-rep78) conferred Rep78 expression on Mo7e cells. Upon coinfection of Ad.LCR-rep78 with an HD-Ad vector containing a 27-kb globin-LCR-green fluorescent protein (GFP) transgene cassette flanked by AAV inverted terminal repeats (ITRs) (Ad.AAV-LCR-GFP), transduced cells were cloned and expanded (without selection pressure), and vector integration was analyzed in clones with more than 30% GFP-positive cells. Vector integration into the AAVS1 region was seen in 30% of analyzed integration sites, and GFP expression from these integrants was stable over time. Of the remaining integration sites, 25% were within the genomic globin LCR. In almost 90% of sites, transgene integration occurred via the Ad ITR. This indicates that rescue of the AAV ITR-flanked transgene cassette from Ad.AAV-LCR-GFP is not required for Rep78-mediated integration into AAVS1 and that free ends within the vector genome can be created by breaks within the Ad ITRs, whose structure is apparently recognized by cellular "nicking" enzymes. The finding that 55% of all analyzed integration sites were either within the AAVS1 or globin LCR region demonstrates that a high frequency of targeted integration of a large transgene cassette can be achieved in human hematopoietic stem cell lines.     

Distance effect of matrix attachment regions on transgene expression in stably transfected Chinese hamster ovary cells

The β-globin matrix attachment regions (MARs) were inserted into the 5′-site of the eukaryotic expression vector cassette and DNA fragments 350 and 750 bp in length were inserted into the site to generate expression vectors with varying distances between the expression cassette and MAR. The vectors containing MARs increased chloramphenicol acetyltransferase (CAT) expression levels compared to the negative control vector lacking the MAR; the highest expression increase was 3.8-fold. A greater MAR-transgene distance (750 bp) correlated with a greater increase in transgene expression when compared to the control vector that lacked separation between the MAR and transgene. CAT gene copy numbers were higher in cells transformed with the vector possessing a smaller MAR-transgene distance (350 bp) than in cells belonging to the other three groups. However, MAR-induced transgene expression levels did not exhibit a direct relationship with gene copy number.     

Long time-course monitoring of ZFP809-mediated gene silencing in transgene expression driven by promoters containing MLV-derived PBS

Expression of Moloney murine leukemia virus (MoMLV)-typed retroviral vectors is strictly suppressed in immature cells such as embryonic stem cells. The phenomenon known as gene silencing is primed by the sequence-specific binding of the zinc finger protein 809 (ZFP809) to the primer-binding site of the vectors. However, it has yet to be determined whether the ZFP809-mediated gene silencing is maintained over a long period. In this study, we established an experimental system that can monitor gene silencing during a long-term cell culture using flow cytometry technology combined with fluorescent reporters for the expression of ZFP809 and the transgene expression driven by the promoters of interest. Time-course analysis using our system revealed that ZFP809 maintains gene silencing effect even at a longtime period. Furthermore, our system was useful for the monitoring of ZFP809-mediated gene silencing regardless of the types of vectors and cell lines.     

Locus control region of the human CD2 gene in a lentivirus vector confers position-independent transgene expression

Vectors derived from murine leukemia virus (MLV) have been used in many human gene therapy clinical trials. However, insertion of the locus control regions (LCRs) derived from the beta-globin gene locus or the CD2 gene into MLV vectors frequently led to vector rearrangement. Since the human immunodeficiency virus (HIV) sequence diverges significantly from the MLV sequence, we tested whether the LCR sequence is more stable in the context of an HIV vector. Clones derived from human fibrosarcoma line HT1080 cells transduced with an HIV vector containing the T-cell-specific CD2 LCR exhibit the same wide range of transgene expression as clones lacking the LCR. In contrast, Jurkat and primary T-cell clones derived from the transduction of the LCR-containing vector show, on average, a three- to fourfold increase in transgene expression relative to that of the control vector. This is consistent with previous observations that the CD2 LCR contains a T-cell-specific enhancer. In addition, the clones derived from the LCR-containing vector have a much lower clonal variation in transgene expression than those derived from the control vector. We also demonstrate that the level of transgene expression is proportional to the vector copy number. These results suggest that the human CD2 LCR sequence is compatible with HIV vector sequences and confers enhanced integration site-independent and copy number-dependent expression of the transgene. Thus, HIV vectors may represent the ideal vehicle to deliver genes controlled by various cis-acting elements such as LCRs.     

The use of recombinase mediated cassette exchange in retroviral vector producer cell lines: predictability and efficiency by transgene exchange

Currently, retroviral vector producer cell lines must be established for the production of each gene vector. This is done by transfection of a packaging cell line with the gene of interest. In order to find a high-titer retroviral vector producer clone, exhaustive clone screening is necessary, as the random integration of the transgene gives rise to different expression levels. We established a virus producing packaging cell line, the 293 FLEX, in which the viral vector is flanked by two different FRT sites and a selection trap. Using Flp recombinase mediated cassette exchange; this vector can be replaced by another compatible retroviral vector. The first step was the tagging of 293 cells with a lacZ reporter gene, which allowed screening and choosing a high expressing chromosomal locus. After checking that, a single copy of the construct was integrated, cassette exchangeability was confirmed with a reporter targeting construct. Subsequently gag-pol and GaLV envelope genes were stably transfected. The lacZ transgene was replaced by a GFP transgene and the 293 FLEX producer cell line maintained the titer, thus validating the flexibility and efficacy of this producer cell line. The tagged retroviral producer cell clone should constitute a highly advantageous cell line since it has a predictable titer and can be rapidly used for different therapeutic applications.     

Positional effects of the matrix attachment region on transgene expression in stably transfected CHO cells

Previous work has shown that the MAR (matrix attachment region) could increase transgene expression in stably transfected CHO (Chinese‐hamster ovary) cells. To study the positional effect of MAR on transgene expression, three expression vectors were constructed which contained the human β‐globin MAR in different sites, including the vector with two MARs flanking the CAT (chloramphenicol acetyltransferase) expression cassette, one MAR at the 5′ or 3′ site. These vectors were transfected into CHO cells. The level of CAT gene expression was most effectively increased by two MARs flanking the CAT expression cassette. This increase was also seen when MAR was inserted at the 5′ site upstream of the expression cassette, whereas the transgene expression level decreased when MAR was inserted at the 3′ site downstream of the expression cassette. We have also shown that the transgene expression level is not directly proportional to the gene copy number, and gene copy number dependency does not exist.     

Infection of cultured embryo cells of the pacific oyster, Crassostrea gigas, by pantropic retroviral vectors

Summary The inability to stably introduce and express foreign genes has hampered basic research in molluscan species. We cultured cells from dissociated embryos of the Pacific oyster, Crassostrea gigas, and infected these primary cultures with pantropic retroviral vectors containing the envelope glycoprotein of vesicular stomatitis virus. Luciferase transgene expression mediated by different heterologous promoters was demonstrated for at least 9 d after infection of the cells. Surprisingly, the promoter reproducibly mediating the highest level of luciferase expression was the retroviral promoter (U3 region of long terminal repeat) from the Moloney murine leukemia virus. The infection efficiency using a low multiplicity of infection (0.05) was estimated by quantitative polymerase chain reaction to be between 0.1–0.5%. This system will facilitate studies of gene expression and regulation and should be widely applicable to other molluscan species.     

Retroviral vectors encoding ADA regulatory locus control region provide enhanced T-cell-specific transgene expression

Background

Murine retroviral vectors have been used in several hundred gene therapy clinical trials, but have fallen out of favor for a number of reasons. One issue is that gene expression from viral or internal promoters is highly variable and essentially unregulated. Moreover, with retroviral vectors, gene expression is usually silenced over time. Mammalian genes, in contrast, are characterized by highly regulated, precise levels of expression in both a temporal and a cell-specific manner. To ascertain if recapitulation of endogenous adenosine deaminase (ADA) expression can be achieved in a vector construct we created a new series of Moloney murine leukemia virus (MuLV) based retroviral vector that carry human regulatory elements including combinations of the ADA promoter, the ADA locus control region (LCR), ADA introns and human polyadenylation sequences in a self-inactivating vector backbone.

Methods

A MuLV-based retroviral vector with a self-inactivating (SIN) backbone, the phosphoglycerate kinase promoter (PGK) and the enhanced green fluorescent protein (eGFP), as a reporter gene, was generated. Subsequent vectors were constructed from this basic vector by deletion or addition of certain elements. The added elements that were assessed are the human ADA promoter, human ADA locus control region (LCR), introns 7, 8, and 11 from the human ADA gene, and human growth hormone polyadenylation signal. Retroviral vector particles were produced by transient three-plasmid transfection of 293T cells. Retroviral vectors encoding eGFP were titered by transducing 293A cells, and then the proportion of GFP-positive cells was determined using fluorescence-activated cell sorting (FACS). Non T-cell and T-cell lines were transduced at a multiplicity of infection (MOI) of 0.1 and the yield of eGFP transgene expression was evaluated by FACS analysis using mean fluorescent intensity (MFI) detection.

Results

Vectors that contained the ADA LCR were preferentially expressed in T-cell lines. Further improvements in T-cell specific gene expression were observed with the incorporation of additional cis-regulatory elements, such as a human polyadenylation signal and intron 7 from the human ADA gene.

Conclusion

These studies suggest that the combination of an authentically regulated ADA gene in a murine retroviral vector, together with additional locus-specific regulatory refinements, will yield a vector with a safer profile and greater efficacy in terms of high-level, therapeutic, regulated gene expression for the treatment of ADA-deficient severe combined immunodeficiency.     

Herpes simplex virus type 1/adeno-associated virus rep(+) hybrid amplicon vector improves the stability of transgene expression in human cells by site-specific integration

Herpes simplex virus type 1 (HSV-1) amplicon vectors are promising gene delivery tools, but their utility in gene therapy has been impeded to some extent by their inability to achieve stable transgene expression. In this study, we examined the possibility of improving transduction stability in cultured human cells via site-specific genomic integration mediated by adeno-associated virus (AAV) Rep and inverted terminal repeats (ITRs). A rep(-) HSV/AAV hybrid amplicon vector was made by inserting a transgene cassette flanked with AAV ITRs into an HSV-1 amplicon backbone, and a rep(+) HSV/AAV hybrid amplicon was made by inserting rep68/78 outside the rep(-) vector 3' AAV ITR sequence. Both vectors also had a pair of loxP sites flanking the ITRs. The resulting hybrid amplicon vectors were successfully packaged and compared to a standard amplicon vector for stable transduction frequency (STF) in human 293 and Gli36 cell lines and primary myoblasts. The rep(+), but not the rep(-), hybrid vector improved STF in all three types of cells; 84% of Gli36 and 40% of 293 stable clones transduced by the rep(+) hybrid vector integrated the transgene into the AAVS1 site. Due to the difficulty in expanding primary myoblasts, we did not assess site-specific integration in these cells. A strategy to attempt further improvement of STF by "deconcatenating" the hybrid amplicon DNA via Cre-loxP recombination was tested, but it did not increase STF. These data demonstrate that introducing the integrating elements of AAV into HSV-1 amplicon vectors can significantly improve their ability to achieve stable gene transduction by conferring the AAV-like capability of site-specific genomic integration in dividing cells.     

Targeted transgene insertion into human chromosomes by adeno-associated virus vectors

Efficient methods are needed for the precise genetic manipulation of diploid human cells, in which cellular senescence and low conventional gene targeting rates limit experimental and therapeutic options. We have shown previously that linear, single-stranded DNA vectors based on adeno-associated virus (AAV) could accurately introduce small (<20 bp) genetic modifications into homologous human chromosomal sequences. Here we have used AAV vectors to introduce large (>1 kb) functional transgene cassettes into the hypoxanthine phosphoribosyl transferase (HPRT) and Type I collagen (COL1A1) loci in normal human fibroblasts. The transgene cassettes are inserted at high frequencies (1% of the total cell population under optimal conditions) and without secondary mutations. Selection for the inserted transgene cassette can be used to enrich for targeting events, such that >70% of surviving cells have undergone gene targeting with an appropriately designed vector. This approach should prove useful both for functional genomic analysis in diploid human cells and for therapeutic gene targeting.     

Reproducible doxycycline-inducible transgene expression at specific loci generated by Cre-recombinase mediated cassette exchange

Comparative analysis of mutants using transfection is complicated by clones exhibiting variable levels of gene expression due to copy number differences and genomic position effects. Recombinase-mediated cassette exchange (RMCE) can overcome these problems by introducing the target gene into pre-determined chromosomal loci, but recombination between the available recombinase targeting sites can reduce the efficiency of targeted integration. We developed a new LoxP site (designated L3), which when used with the original LoxP site (designated L2), allows highly efficient and directional replacement of chromosomal DNA with incoming DNA. A total of six independent LoxP integration sites introduced either by homologous recombination or retroviral delivery were analyzed; 70–80% of the clones analyzed in hamster and human cells were correct recombinants. We combined the RMCE strategy with a new, tightly regulated tetracycline induction system to produce a robust, highly reliable system for inducible transgene expression. We observed stable inducible expression for over 1 month, with uniform expression in the cell population and between clones derived from the same integration site. This system described should find significant applications for studies requiring high level and regulated transgene expression and for determining the effects of various stresses or oncogenic conditions in vivo and in vitro.     

High-level transgene expression in nonhuman primate liver with novel adeno-associated virus serotypes containing self-complementary genomes

Adeno-associated virus (AAV) vectors are being considered for in vivo applications of gene therapy in the treatment of a variety of disorders. This study evaluates the biology of second-generation vectors based on the novel serotypes AAV7 and AAV8 and containing self-complementary genomes in the nonhuman primate liver. Stable levels of transgene expression were achieved in cynomolgus macaques and suggest efficiencies at least 2 log higher than what could be achieved with AAV2 vectors using traditional single-stranded genomes. Analysis of DNAs from tissues revealed high levels of vector in the liver that appeared proportional to the relative amounts of transgene expression.     

Regulatable gutless adenovirus vectors sustain inducible transgene expression in the brain in the presence of an immune response against adenoviruses

In view of recent serious adverse events and advances in gene therapy technologies, the use of regulatable expression systems is becoming recognized as indispensable adjuncts to successful clinical gene therapy. In the present work we optimized high-capacity adenoviral (HC-Ad) vectors encoding the novel tetracycline-dependent (TetOn)-regulatory elements for efficient and regulatable gene expression in the rat brain in vivo. We constructed two HC-Ad vectors encoding beta-galactosidase (beta-gal) driven by a TetOn system containing the rtTAS(s)M2 transactivator and the tTS(Kid) repressor under the control of the murine cytomegalovirus (mCMV) (HC-Ad-mTetON-beta-Gal) or the human CMV (hCMV) promoter (HC-Ad-hTetON-beta-Gal). Expression was tightly regulatable by doxycycline (Dox), reaching maximum expression in vivo at 6 days and returning to basal levels at 10 days following the addition or removal of Dox, respectively. Both vectors achieved higher transgene expression levels compared to the expression from vectors encoding the constitutive mCMV or hCMV promoter. HC-Ad-mTetON-beta-Gal yielded the highest transgene expression levels and expressed in both neurons and astrocytes. Antivector immune responses continue to limit the clinical use of vectors. We thus tested the inducibility and longevity of HC-Ad-mediated transgene expression in the brain of rats immunized against adenovirus by prior intradermal injections of RAds. Regulated transgene expression from HC-Ad-mTetON-beta-Gal remained active even in the presence of a significant systemic immune response. Therefore, these vectors display two coveted characteristics of clinically useful vectors, namely their regulation and effectiveness even in the presence of prior immunization against adenovirus.     

Promoters influence the kinetics of transgene expression following adenovector gene delivery

BACKGROUND: The kinetics of gene expression from adenovirus-based delivery vectors will be an important variable influencing the efficacy and toxicity of these vectors. As different promoters have variable strengths and kinetic profiles, the optimal dose of a therapeutic transgene product over time may be achieved by varying the promoter. METHODS: We analyzed several viral and cellular promoters in the context of adenovector gene delivery in the mouse. The kinetics of transgene expression was evaluated following intramuscular and intravenous delivery. RESULTS: Transgene expression from the cytomegalovirus (CMV) promoter was rapidly down-regulated in the tissues following intravenous administration of adenovectors. In contrast, transgene expression from the Rous sarcoma virus (RSV) promoter increased over time such that, at 3 weeks, expression was 10-fold higher than that from the CMV promoter-containing vector in all tissues. The kinetics of transgene expression from these vectors was similar when they were delivered via the intramuscular route in BALB/c, C57BL/6 and immunodeficient mice. Efficient repeat administration of an adenovirus vector, in the presence of neutralizing antibodies, was achieved in the skeletal muscle and transgene expression persisted with the same kinetics as in na?ve animals. CONCLUSIONS: These results demonstrate that the in vivo kinetics of transgene expression by adenovectors is greatly influenced by the promoter. Adenovectors can be designed to deliver a transient bolus or a sustained level of protein expression in the target tissue depending on the requirements for particular indications. These results have implications for both therapeutic and vaccine indications.     

Scaffold Attachment Region-Mediated Enhancement of Retroviral Vector Expression in Primary T Cells

We have studied retroviral transgene expression in primary human lymphocytes. Our data demonstrate that transgene expression is high in activated primary CD4⁺ T cells but significantly decreased in mitotically quiescent cells. Incorporation of a DNA fragment from the scaffold attachment region (SAR) of the human beta interferon gene into the vector improved transgene expression, particularly in quiescent cells. The SAR element functioned in an orientation-dependent manner and enhanced expression of Moloney murine leukemia virus- and murine embryonic stem cell-based vectors. Clonal analysis of transduced T cells showed that the SAR sequence did not confer position-independent expression on a transgene but rather prevented the decrease of expression when cells became quiescent. The SAR sequence also enhanced transgene expression in T cells generated from retrovirally transduced CD34-enriched hematopoietic progenitor-stem cells in a SCID-hu thymus-liver mouse model. We have used the SAR-containing retroviral vector to express the RevM10 gene, a trans-dominant mutant of the human immunodeficiency virus type 1 (HIV-1) Rev gene. Compared to a standard retroviral vector, the SAR-containing vector was up to 2 orders of magnitude more efficient in inhibiting replication of the HIV-1 virus in infected CD4⁺ peripheral blood lymphocyte populations in vitro. This is the first demonstration that SAR elements can be used to improve retroviral vector expression in human primary T cells.