Gutted adenoviral vector growth using E1/E2b/E3-deleted helper viruses

Background

Helper‐dependent, or gutted, adenoviruses (Ad) lack viral coding sequences, resulting in reduced immunotoxicity compared with conventional Ad vectors. Gutted Ad growth requires a conventional Ad to supply replication and packaging functions in trans. Methods that allow high‐titer growth of gutted vectors while reducing helper contamination, and which use safer helper viruses, will facilitate the use of gutted Ad vectors in vivo.

Methods

Replication‐defective helper viruses were generated that are deleted for Ad E1, E2b and E3 genes, but which contain loxP sites flanking the packaging signal. Complementing Ad packaging cell lines (C7‐cre cells) were also generated by transfecting 293 cells with the Ad E2b genes encoding DNA polymerase and pre‐terminal protein, and with a cre‐recombinase plasmid.

Results

We show that C7‐cre cells allow efficient production of gutted Ad using ΔE1 + ΔE2b + ΔE3 helper viruses whose growth can be limited by cre‐loxP‐mediated excision of the packaging signal. Gutted Ad vectors carrying ～28 kb cassettes expressing full‐length dystrophin were prepared at high titers, similar to those obtained with E2b+ helpers, with a resulting helper contamination of <1%.

Conclusions

These new packaging cell lines and helper viruses offer several significant advantages for gutted Ad vector production. They allow gutted virus amplification using a reduced number of passages, which should reduce the chances of selecting rearranged products. Furthermore, the residual helper contamination in gutted vector preparations should be less able to elicit immunological reactions upon delivery to tissues, since E2b‐deleted vectors display a profound reduction in viral gene expression. Copyright © 2002 John Wiley & Sons, Ltd.

     

The use of low-molecular-weight PEIs as gene carriers in the monkey fibroblastoma and rabbit smooth muscle cell cultures

Background

Polyethylenimines (PEIs) and cationic polymers have been used successfully in gene delivery. In earlier reports, only large PEIs (MW>10 000) have shown significant transfection efficiency. In the present study, the roles of small PEIs (MW 700 and 2000) were studied as additional compounds to see if they can improve gene delivery with cationic liposomes.

Methods

The TKBPVlacZ expression plasmid was transfected in the CV1‐P (monkey fibroblastoma) and SMC (rabbit smooth muscle) cell lines using various combinations of PEIs (MW 700, 2000, and 25 000) and Dosper liposomes. The transfection efficiency was determined with the fluorometric ONPG (o‐nitrophenol‐β‐D ‐galactopyranoside) assay and histochemical X‐gal staining. The toxicity of the transfection reagents was estimated by the MTT [3‐(4,5‐dimethylthiazolyl‐2)‐2,5‐diphenyl tetrazolium bromide] assay.

Results

Transfection of TKBPVlacZ plasmid by the small PEIs (MW 700 and 2000) combined with Dosper liposomes was associated with high expression of the lacZ reporter gene in the CV1‐P and SMC cell lines. The transfection efficiencies of the low‐molecular‐weight PEI/liposome combinations were several fold higher than those of PEIs or liposomes alone. PEI/liposome combinations had no toxicity on the cell lines tested.

Conclusions

The low‐molecular‐weight PEIs could be used successfully for gene delivery when combined with the cationic liposomes, resulting in a synergistic increase of the transfection efficiency in both cell lines studied. Copyright © 2002 John Wiley & Sons, Ltd.

     

Functional correction of episomal mutations with short DNA fragments and RNA-DNA oligonucleotides

Background

Gene correction is an alternative approach to replacement gene therapy. By correcting mutations within the genome, some of the barriers to effective gene therapy are avoided. Homologous nucleic acid sequences can correct mutations by inducing recombination or mismatch repair. Recently, encouraging data have been presented using both short DNAfragments (SDFs) and RNA–DNA oligonucleotides (RDOs) in experimental strategies to realize clinical gene correction.

Methods

The delivery of labelled SDFs and RDOs to a variety of cell lines was tested using both FACS analysis and confocal microscopy. A GFP‐based reporter system was constructed, containing a nonsense mutation, to allow quantitation of gene correction in living cells. This reporter was used to compare efficiencies of functional gene correction using SDFs and RDOs in arange of mammalian cell lines.

Results

The delivery experiments highlight the inefficient delivery of SDFs and RDOs to the nucleus using polyethylenimine (PEI) transfection. This study compared the episomal correction efficiency of the reporter plasmid mediated by SDFs and RDOs within different cell types; low levels of functional correction were detected in cell culture.

Conclusions

Whilst delivery of PEI‐complexed SDFs or RDOs to the cell is highly effective, nuclear entry appears to be a limiting factor. SDFs elicited episomal GFP correction across a range of cell lines, whereas RDOs only corrected the reporter in a cell line that overexpresses RAD51. Copyright © 2002 John Wiley & Sons, Ltd.

     

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.

     

Single-step, multiple retroviral transduction of human T cells

Background

Retroviral transduction of human peripheral blood T cells has considerable potential in the development of gene therapy strategies for immunological disorders. New vectors and experimental procedures have been developed for efficient transduction of several genes into human T cells.

Methods

Bicistronic retroviral vectors encoding distinct cell markers were used for the simultaneous multiple transduction of a human T‐cell line (MT‐2), as well as of human peripheral blood T cells from normal donors. Transduction efficiencies were evaluated by flow cytometry and double‐ and triple‐transduced cells were isolated by fluorescence cell sorting.

Results

Four new bicistronic retroviral vectors were developed that express different gene markers under the control of the internal ribosome entry site (IRES) of the encephalomyocarditis virus. These markers are, respectively, enhanced green fluorescent protein (EGFP), β‐galactosidase, and truncated versions of human nerve growth factor receptor (ΔNGFR) and human growth hormone receptor (ΔGHR). A single 1 h spinoculation infection, performed in the presence of polybrene and using transiently produced amphotropic retroviral particles, was sufficient to obtain transduction efficiencies consistently greater than 50% on human peripheral blood T lymphocytes which had been previously stimulated for 3 days with immobilized anti‐CD3. The transient production of viral particles encoding EGFP, ΔNGFR, and ΔGHR markers in the same viral supernatant has allowed up to three different genes to be introduced simultaneously into human T cells.

Conclusions

This study describes new experimental conditions for efficient single‐step multiple transduction of human primary T lymphocytes. The procedure could be of interest for the development of gene therapy approaches. Copyright © 2002 John Wiley & Sons, Ltd.

     

Polyethyleneimine-based immunopolyplex for targeted gene transfer in human lymphoma cell lines

Background

Specific and efficient delivery of genes into targeted cells is a priority objective in non‐viral gene therapy. Polyethyleneimine‐based polyplexes have been reported to be good non‐viral transfection reagents. However, polyplex‐mediated DNA delivery occurs through a non‐specific mechanism. This article reports the construction of an immunopolyplex, a targeted non‐viral vector based on a polyplex backbone, and its application in gene transfer over human lymphoma cell lines.

Methods

Targeting elements (biotin‐labeled antibodies), which should recognize a specific element of the target cell membrane and promote nucleic acid entry into the cell, were attached to the polyplex backbone through a bridge protein (streptavidin). Immunopolyplex transfection activity was studied in several hematological cell lines [Jurkat (CD3+/CD19?), Granta 519 (CD3?/ CD19+), and J.RT3‐T3.5 (CD3?/CD19?)] using the EGFP gene as a reporter gene and anti‐CD3 and anti‐CD19 antibodies as targeting elements. Transfection activity was evaluated via green fluorescence per cell and the percentage of positive cells determined by flow cytometry.

Results

A significant selectivity of gene delivery was observed, since the anti‐CD3 immunopolyplex worked only in Jurkat cells while the anti‐CD19 immunopolyplex worked only in the Granta cell line. Moreover, transfection of a CD3+/CD3? cell mixture with anti‐CD3 immunopolyplexes showed up to 16‐fold more transfection in CD3+ than in CD3? cells. Several non‐specific transfection reagents showed poor or no transfection activity.

Conclusion

It is concluded that immunopolyplex is a good non‐viral vector for specific and selective nucleic acid delivery. Immunopolyplex design allows easy replacement of the targeting element (antibody) – the streptavidin–polyplex backbone remaining intact – thereby conferring high versatility. Copyright © 2002 John Wiley & Sons, Ltd.

     

Adeno-cosmid cloning vectors for regulated gene expression

Background

Adenovectors are widely used for efficient delivery of genes into a variety of cell types and organisms. However, the construction of the desired vector/genes combination, especially if it involves the cloning of several gene cassettes, can be laborious due to the large size of these vectors. New methods are needed to simplify the construction of complex combinations of gene cassettes into adenovectors.

Methods

Using simple cloning techniques and exploiting the λ‐phage packaging system, we devised efficient methods for the ‘selection’ of the desired vector constructs. Thus we generated a series of cosmids containing the adeno helper dependent (HD) backbone in which we inserted cis‐ and trans‐acting tetracycline (tet) elements for the regulation of any gene of interest. One of these cosmids has been used to produce an HD adenovirus carrying a tetracycline‐regulated gene expressing β‐galactosidase.

Results

We have demonstrated that the adeno‐cosmid system allows rapid and efficient cloning of genes of interest in helper dependent vectors, and described a prototype ‘ready‐to‐use’ vector in which any gene of interest can be easily expressed under the control of the tet system. The HD viruses produced with this novel methodology can be grown at high titers, can be easily separated from the helper adenovirus, and allow delivery and regulated gene expression in a variety of tissues.

Conclusions

Exploiting the λ‐packaging system, complex adeno constructs can be generated with a simple and reproducible protocol, which allows selection of the desired size construct, counterselecting for the frequently observed intramolecular recombinations and deletions. Copyright © 2002 John Wiley & Sons, Ltd.

     

The species–area relationship does not have an asymptote!

Aim

To attack a widespread myth.

Location

World‐wide.

Methods

Simple mathematical logical and empirical examples.

Results

As both species and area are finite and non‐negative, the species–area relationship is limited at both ends. The log species–log area relationship is normally effectively linear on scales from about 1 ha to 10⁷ km². There are no asymptotes. At the intercontinental scale it may get steeper; at small scales it may in different cases get steeper or shallower or maintain its slope.

Main conclusion

The species–area relationship does not have an asymptote.

     

Lack of specificity of cell-surface protease targeting of a cytotoxic hyperfusogenic gibbon ape leukaemia virus envelope glycoprotein

Background

In a strategy termed “Protease Targeting”, retroviral vectors carrying an EGF infectivity‐blocking domain fused to the N‐terminus of the envelope SU via a MMP (matrix metalloproteinase)‐cleavable linker were successfully used to target gene delivery to EGF receptor‐(EGF‐R‐)positive tumour cells over‐expressing MMPs. In the current study, we aimed to investigate whether this strategy could be applied to (a) limit the cytotoxic activity of a hyperfusogenic GALV therapeutic gene, and (b) enhance the immune‐stimulatory properties of GALV via local, MMP‐mediated release human granulocyte‐macrophage colony stimulating factor (GM‐CSF).

Methods

We generated GALV envelope expression constructs displaying EGF or GM‐CSF blocking ligands at the N‐terminus of GALV envelope SU via a non‐cleavable, Factor Xa protease or MMP‐cleavable linker and investigated their cytotoxicity on MMP‐positive and negative cell lines.

Results

The unmodified hyperfusogenic GALV envelope was cytotoxic to all cell lines tested. The non‐cleavable linker GALV envelope constructs caused no cytotoxicity, demonstrating efficient inhibition by the displayed domains. Moderate activation of fusion of the protease‐cleavable linker constructs was observed in all cell lines, regardless of their level of MMP expression and of the specificity of the linker. High levels of the ‘blocking domain’ were detected in the cell supernatants due to dissociation of the surface unit (SU) from the transmembrane (TM) component of the GALV envelope glycoprotein TM.

Conclusions

Unlike protease targeting in the context of retroviral vectors, protease activation of the cytotoxicity of GALV envelope by cleavage of a fusion blocking ligand at the cell surface does not appear to be specifically mediated by cell‐surface MMPs. In addition, shedding of the SU‐fusion protein from the TM limits the general applicability of this strategy for cancer gene therapy. Specificity of cell‐cell fusion mediated by GALV envelope cannot be manipulated in the same fashion as virus‐cell fusion. Copyright © 2002 John Wiley & Sons, Ltd.

     

Highly efficient gene transfer into antigen-specific primary mouse lymphocytes with replication-deficient retrovirus expressing the 10A1 envelope protein

Background

Introduction of recombinant genes in the genome of primary lymphocytes by virtue of a replication‐deficient retrovirus can be used in immunological studies and for cell‐based gene therapy.

Methods

Packaging cells GP+E86 producing replication‐deficient retrovirus incorporating the genes of enhanced green fluorescent protein (eGFP), C2γ or C2ξ, were generated by calcium phosphate‐mediated transfection. Clones with the highest titres of retrovirus vector were isolated from them and their supernatants were used for transduction of PT67 cells. Primary mouse lymphocytes and T‐cell hybridoma MD.45 were transduced by centrifugation with retroviral stock. The retroviral content of packaging cell supernatants was determined by dot blotting and hybridization with a DNA probe.

Results

PT67 cells produced ～50 times more retrovirus vector than the original GP+E86 clones. When retroviral stocks of PT67 and GP+E86 cells were used at 1/50 dilution and undiluted, respectively (to normalize them forretroviral RNA content), the transduction efficiency of mouse T‐cell hybridoma was 40% and 5%, respectively. Centrifugation of target cells with retroviral stock at 2000 g for 60 min increased the percentage of transduced cells two‐ to three‐fold. Within a population of cells isolated from the draining lymph nodes of an immunized mouse and reactivated with an antigen, up to 60% of CD4⁺ T cells and up to 80% of B cells could be transduced with a transgene in replication‐deficient retrovirus packaged by PT67 cells using the optimized gene transfer protocol.

Conclusions

This protocol allows for the generation of packaging cells producing high titres of retrovirus vector. The 10A1 envelope protein is superior to the ecotropic one for the transduction of mouse lymphocytes. Copyright © 2002 John Wiley & Sons, Ltd.

     

Epidermal growth factor receptor targeting enhances adenoviral vector based suicide gene therapy of osteosarcoma

Background

Despite improvements in the treatment of osteosarcoma (OS) there are still too many patients who cannot benefit from current treatment modalities. Therefore, new therapeutic approaches are warranted. Here we explore the efficacy of targeted adenoviral based suicide gene therapy.

Methods and results

Immunohistochemistry and FACS analysis detected low or absent expression levels of the primary adenovirus receptor CAR on human primary OS and human OS cell lines. These results predict a low infection efficiency and thus a reduced therapeutic effect. Targeting the adenoviruses to another receptor highly expressed on OS could overcome this limitation. We found epidermal growth factor receptor (EGFR) to be widely expressed on primary OS. Immunohistochemistry on primary tumor samples and FACS analysis on primary short‐term cultures and four OS cell lines showed that EGFR was consistently expressed. The recombinant bispecific single‐chain antibody 425‐s11 redirects adenoviral vectors towards the EGFR. Adenovirus transduction experiments in the presence or absence of 425‐s11 showed significantly enhanced gene transfer with the targeted adenoviral vector compared with the native vector (OS cell lines 2.5 to 7.2 times enhanced gene transfer and OS primary short term cultures 1.7 to 10 times enhanced gene transfer). On this basis, targeted suicide gene therapy experiments with AdCMVHSV‐TK in combination with ganciclovir were performed. These experiments demonstrated up to 3.5‐fold enhanced kill of OS cell lines and primary short‐term cultures by the EGFR targeted vector.

Conclusions

Suicide gene therapy with adenovirus targeted towards EGFR may have favorable therapeutic characteristics for future gene therapy applications in OS. Copyright © 2002 John Wiley & Sons, Ltd.

     

Polybrene and interleukin-4: two opposing factors for retroviral transduction of bone-marrow-derived dendritic cells

Background

Gene transfer using retroviral transduction offers the advantage of long‐term transgene expression in developing strategies that use dendritic cells (DCs) for immunotherapy. The goal of this study was to infect DCs in an immature state in order to take advantage of their proliferating and tolerogenic potential.

Methods

Immature DCs were generated from murine bone marrow (BM) using either GM‐CSF alone or GM‐CSF plus IL‐4. The cells were transduced directly with retroviral supernatants or by co‐culture with the GP + E‐86 retroviral packaging cell line in the presence of two different cationic polymers: polybrene and protamine sulfate. Phenotypic and functional characterization of the transduced cells were then performed.

Results

Our results show a low efficiency of retroviral infection of DCs in the presence of polybrene. This cationic polymer was found to be directly cytotoxic to murine DCs and thus favored the growth of contaminating macrophages. This effect was not observed using protamine sulfate. Furthermore, stimulation by IL‐4 early in the culture increased DC differentiation, proliferation and transduction. However, we found that DCs generated in GM‐CSF plus IL‐4 presented a more mature phenotype with an enhanced allogeneic stimulating activity. Finally, we showed that DCs themselves down‐regulated transgene expression in the co‐cultured packaging cell line in a promoter‐dependent manner.

Conclusions

We have defined optimal conditions to generate and transduce murine BM‐derived DCs. This included: the use of protamine sulfate during exposure to retroviral infectious supernatant and the addition of IL‐4 at an early stage of the culture. Nevertheless, this cytokine also induced DC maturation. These findings have potential implications in experimental gene therapy. Copyright © 2002 John Wiley & Sons, Ltd.

     

High-level gene transfer to the cornea using electroporation

Background

Methods for gene transfer to the cornea that yield high‐level expression without inflammation or trauma are currently lacking. Because electroporation has proven effective for gene transfer in other tissues in terms of expression levels and safety, this study quantitatively evaluated its use in the cornea.

Methods

To evaluate the use of electroporation in the mouse cornea, plasmids expressing either luciferase or green fluorescent protein were injected intracorneally or subconjunctivally and square‐wave electric pulses were immediately applied to the eyes. Gene expression was quantified at later times and trauma and inflammation were monitored visually and by measuring interleukin‐6 (IL‐6) production.

Results

The application of electric pulses to eyes injected with plasmid resulted in nanogram levels of gene product expression. At an optimal field strength of 200 V/cm, no trauma, corneal edema or inflammation was observed. However, at higher field strengths, corneal damage was detected. Compared with injection of DNA alone, up to 1000‐fold more gene product was produced using electroporation. Expression was detected as early as 6 h post‐electroporation, remained high for 3 days, and decreased by 7 days. Gene expression was detected over the entire surface of the cornea in both epithelial and stromal layers.

Conclusions

These results demonstrate that electroporation is an excellent method for delivering genes to multiple cell layers within the mouse cornea and that it results in extremely high levels of gene expression with little, if any, inflammatory response or tissue damage, making this a very useful technique for corneal gene transfer. Copyright © 2001 John Wiley & Sons, Ltd.

     

Phenotypic rescue after adeno-associated virus-mediated delivery of 4-sulfatase to the retinal pigment epithelium of feline mucopolysaccharidosis VI

Background

Mucopolysaccharidosis VI (MPS VI), due to recessively inherited 4‐sulfatase (4S) deficiency, results in lysosomal storage of dermatan sulfate in numerous tissues. Retinal involvement is limited to the retinal pigment epithelium (RPE). This study aimed to determine whether recombinant adeno‐associated virus (AAV)‐mediated delivery of 4S would reverse the RPE pathology seen in MPS VI cats.

Methods

AAV.f4S, containing the feline 4S cDNA, was delivered unilaterally to eyes of affected cats by subretinal or intravitreal injection. Contralateral eyes received AAV with the green fluorescent protein (GFP) reporter gene as control. At 2–11 months post‐injection, the cats were sacrificed and the treatment effects were evaluated histologically.

Results

By ophthalmoscopy and histological analyses, GFP was evident as early as 4 weeks and persisted through the latest time point (11 months). Untreated and AAV.GFP‐treated diseased retinas contained massively hypertrophied RPE cells secondary to accumulation of dilated lysosomal inclusions containing dermatan sulfate. MPS VI eyes treated subretinally with AAV.f4S had minimal RPE cell inclusions and, consequently, were not hypertrophied.

Conclusions

AAV‐mediated subretinal delivery of f4S provided correction of the disease phenotype in RPE cells of feline MPS VI, supporting the utility of AAV as a vector for the treatment of RPE‐specific as well as lysosomal storage diseases. Copyright © 2002 John Wiley & Sons, Ltd.

     

Cationic lipids derived from glycine betaine promote efficient and non-toxic gene transfection in cultured hepatocytes

Background

The low efficiency and toxicity of transfection in a primary culture of hepatocytes using cationic lipids remains a limiting step to the study of gene function and the setting up of non‐viral gene therapy.

Methods

A novel class of cationic lipids (GBs) derived from natural glycine betaine compounds covalently linked to acyl chains by enzymatically hydrolysable peptide and ester bonds, a structure designed to reduce cytotoxicity, was used to improve transfection efficiency in a primary culture of rat hepatocytes. The relationship between lipid structure, lipoplex formulation and transfection efficiency was studied using six GBs (12‐14‐16, 22‐24‐26) varying in their spacer and acyl chains.

Results

GB12, characterized by short [(CH₂)₁₀] acyl chains and spacer, allowed plasmid uptake in all cells and reporter gene expression in up to 40% of hepatocytes with a low cytotoxicity, a much higher efficiency compared with transfections using other reagents including Fugene6^? and Lipofectin^?. We also showed that numerous cells accumulated high amounts of plasmids demonstrating that GB12 promoted a very efficient DNA transfer through plasma membrane leading to an increase in nuclear plasmid translocation, allowing a much higher gene expression. Moreover, GB12‐transfected hepatocytes survived to injection in normal livers and were found to express the LacZ reporter gene.

Conclusions

The non‐toxic GB12 formulation is a powerful vehicle for plasmid delivery in cultured hepatocytes with relevance in liver gene therapy. Copyright © 2002 John Wiley & Sons, Ltd.