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Background

The helper‐dependent (HD) adenoviral (Ad) vector relies on a helper virus to provide viral proteins for vector amplification. HD‐Ad vectors can significantly increase therapeutic gene expression and improve safety. However, the yield of an HD‐Ad vector is generally lower than that of an E1‐deleted first‐generation vector, likely due to the alterations in viral E3 or packaging regions of a helper virus that attenuate its replication and complementing for an HD‐Ad vector.

Methods

To study this question and improve HD‐Ad vector production, we have generated four different helper viruses with a wild‐type or deleted E3 region, and with a relocated loxP. We have also constructed a first‐generation vector with a wild‐type E3 region and without the loxP site. We compared the replication of these viruses in Cre‐positive and ‐negative cells and studied their complementing for HD‐Ad vector production.

Results

Viruses with deleted E3 formed smaller plaques and produced lower titer compared with viruses containing the E3 region. The site where a loxP is inserted can also affect virus replication. Higher yield of HD‐Ad vector was obtained when a helper virus with wild‐type E3 was used. We also showed that deletion of the packaging signal in a helper virus through loxP/Cre interaction decreased the viral DNA complementing ability.

Conclusions

Although the E3 region is not essential for adenovirus replication in vivo, deletion of this region attenuates virus replication. Production of HD‐Ad vector can be further improved by modifications in helper virus structure. Copyright © 2002 John Wiley & Sons, Ltd.
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4.

Background

Materno‐fetal transfer of intravenously administered liposome‐plasmid DNA complexes has been demonstrated only in mice. Studies on its materno‐fetal transfer in the pregnant monkey model is needed because of critical differences in placental structure between primates including humans and rodents.

Methods

The reporter plasmid pEGFP‐C1 was formulated in cationic lipid containing polybrene and vesicular stomatitis virus G protein. The fusogenic liposome‐plasmid DNA complexes were intradermally injected into pregnant common marmosets (N=2), a New World monkey, near term. DNA extracted from fetal tissues was subjected to PCR for detection of the egfp gene. Confocal microscopy and immunostaining were performed to determine the sites of transgene expression in the fetal organs.

Results

The egfp gene was detected in fetal blood and major organs (heart, liver, lung). The encoded protein was mainly produced in the endothelial cells of blood vessels in the fetal lungs.

Conclusions

This is the first report on materno‐fetal transfer of intradermally administered fusogenic liposome‐plasmid DNA complexes and fetal expression of a transgene in primates. Copyright © 2002 John Wiley & Sons, Ltd.
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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.
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8.

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.
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9.

Background

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

Methods

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

Results

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

Conclusions

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

Interferon‐α2 (IFNα2) is routinely used for anti‐hepatitis B virus (HBV) treatment. However, the therapeutic efficiency is unsatisfactory, particularly in East Asia. Such inefficiency might be a result of the short half‐life, relatively low local concentration and strong side‐effects of interferons. Frequent and repeated injection is also a big burden for patients. In the present study, a single dose of vector‐delivered IFNα1 was tested for its anti‐HBV effects.

Methods

Adeno‐associated viral vector (AAV‐IFNα1) was generated to deliver the IFNα1 gene into hepatocytes. IFNα1, hepatitis B surface (HBsAg) and e (HBeAg) antigens were measured by enzyme‐linked immunosorbent assay and/or western blotting. The level of viral DNA was measured by quantitative real‐time polymerase chain reaction.

Results

AAV‐IFNα1 effectively transduced HBV‐producing cells (HepAD38) and mouse hepatocytes, where IFNα1 was expressed in a stable manner. Both intracellular and extracellular HBsAg and HBeAg were significantly reduced in vitro. In the HBV‐producing mice, the concentration of IFNα1 in the liver was eight‐fold higher than that in plasma. Compared with control groups, HBeAg/HBsAg antigen levels were reduced by more than ten‐fold from day 1–5, and dropped to an undetectable level on day 9 in the AAV‐IFNα1 group. Concurrently, the level of viral DNA decreased over 30‐fold for several weeks.

Conclusions

A single dose administration of AAV‐IFNα1 viral vector displayed prolonged transgene expression and superior antiviral effects both in vitro and in vivo. Therefore, the use of AAV‐IFNα1 might be a potential alternative strategy for anti‐HBV therapy. Copyright © 2008 John Wiley & Sons, Ltd.
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Background

Retroviral particles that are inappropriately enveloped can transduce target cells if pre‐associated with cationic liposomes. This study optimises and addresses the mechanism of liposome‐enhanced gene delivery, and explores the potential for such agents to compensate for fusion deficiency associated with chimaeric envelope proteins.

Methods

Particles bearing wild‐type, chimaeric or no envelope proteins were complexed with DOTAP or DC‐Chol/DOPE cationic liposomes and added to target cells for various times. Particle binding was determined by detection of cell‐associated capsid protein and infectivity was measured histochemically.

Results

Stable association of cationic liposomes with retrovirus particles significantly enhanced their binding rate to target cells in proportion to the increase of transduction kinetics for infectious virus. Binding of virus was equivalent with or without envelope protein and/or virus receptor, indicating that a non‐specific interaction precedes receptor recognition. Non‐infectious combinations were rescued by the intrinsic fusogenicity of the cationic liposomes, which enabled entry of the viral core, but left subsequent events unaltered. The optimised transduction rate with non‐enveloped particles and DOTAP approached that of amphotropic‐enveloped virus in some cases, although the effect was target‐cell‐dependent. DC‐Chol/DOPE was less potent at direct fusion but was able to enhance 600‐fold the receptor‐dependent action of chimaeric envelopes that were deficient in fusion by virtue of the addition of targeting domains.

Conclusions

These data have implications for the development of retroviral vector targeting strategies from the perspectives of the specificity of target cell interaction and compensating for chimaeric envelope fusion deficiency. Copyright © 2002 John Wiley & Sons, Ltd.
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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.
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15.

Background

Kidney targeted gene transfer has been attempted by many researchers over the last 10 years; however, unfortunately, no reliable technique for gene transfer to the kidney has been established. At experimental level several in vivo gene transfer methods have been reported.

Methods

We were the first to report successful in vivo gene transfer into the kidney using the HVJ‐liposome method. Since then, this method has been modified to achieve highly efficient gene transfer. In this study, we have developed a renal glomerulus‐specific gene transfer method using HVJ‐liposomes with anti‐Thy 1 antibody, OX‐7.

Results

Following systemic delivery of fluoroisothiocyanate (FITC)‐labeled oligodeoxynucleotides (ODN) by HVJ‐liposomes coupled with OX‐7, we observed fluorescence in renal glomeruli from 2 h post‐administration. To examine the efficacy of this delivery system, NF‐κB or scrambled (SD) decoy ODN was administered by HVJ‐liposomes coupled with OX‐7 into a crescent glomerulonephritis, anti‐g lomerular b asement m embrane (GBM) model. Animals given SD decoy ODN developed severe glomerulonephritis by day 7 with heavy albuminuria, glomerular crescent formation and up‐regulated renal expression of IL‐1β and ICAM‐1. In contrast, NF‐κB decoy ODN treatment substantially inhibited the disease with a reduction in alubuminuria, histological damage and the renal expression of inflammatory cytokines.

Conclusions

This study has demonstrated that systemic delivery of HVJ‐liposomes coupled with OX‐7 results in efficient ODN transfer in rat glomeruli. NF‐κB, but not SD decoy ODN administered systemically via HVJ‐liposomes complexed with OX‐7 showed clear therapeutic potential for glomerulonephritis. This novel ODN transfer method combined with decoy strategy has the potential to lead to the establishment of a new therapeutic approach to glomerular diseases. Copyright © 2002 John Wiley & Sons, Ltd.
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Background

The recently developed heterologous macrolide‐ (E.REX system) and streptogramin‐ (PIP system) responsive gene regulation systems show significant differences in their regulation performance in diverse cell lines.

Methods

In order to provide optimal regulation modalities for a wide variety of mammalian cell lines, we have performed a detailed analysis of E.REX and PIP systems modified in (i) the transactivation domains of the antibiotic‐dependent transactivators, (ii) the type of minimal promoter used, and (iii) the spacing between the operator module and the minimal promoter.

Results

These novel E.REX and PIP regulation components showed not only dramatically improved regulation performance in some cell types, but also enabled their use in cell lines which had previously been inaccessible to regulated transgene expression.

Conclusions

Due to their modular set‐up the novel E.REX and PIP regulation systems presented here are most versatile and ready for future upgrades using different cell‐specific key regulation components. Copyright © 2002 John Wiley & Sons, Ltd.
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Background

Gene therapy strategies for the treatment of vascular disease such as the prevention of post‐angioplasty restenosis require efficient, non‐toxic transfection of vascular cells. In vitro studies in these cells contribute to vector development for in vivo use and for the evaluation of genes with therapeutic potential. The aim of this project was to evaluate a novel synthetic vector consisting of a liposome (L), an integrin targeting peptide (I), and plasmid DNA (D), which combine to form the LID vector complex.

Methods

Cultures of porcine smooth muscle cells and endothelial cells were established and then transfected with the LID vector, using the reporter genes luciferase and green fluorescent protein and the metalloprotease inhibitor TIMP‐1.

Results

The LID vector system transfected primary porcine vascular smooth muscle cells and porcine aortic endothelial cells with efficiency levels of 40% and 35%, respectively. By increasing the relative DNA concentration four‐fold, incubation periods as short as 30 min achieved the same levels of luciferase transgene expression as 4 h incubations at lower DNA concentrations. The transfection did not affect cell viability as measured by their proliferative potential. Serum levels of up to 20% in the transfection medium had no adverse affect on the efficiency of transfer and gene expression in either cell type. Transfections with the cDNA for TIMP‐1 produced protein levels that peaked at 130 ng/ml per 24 h and persisted for 14 days at 10 ng/ml per 24 h.

Conclusion

This novel vector system has potential for studies involving gene transfer to cardiovascular cells in vitro and in vivo. Copyright © 2002 John Wiley & Sons, Ltd.
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18.

Background

Gene delivery vectors based on poly(L ‐lysine) and DNA (pLL/DNA complexes) have limited use for targeted systemic application in vivo since they bind cells and proteins non‐specifically. In this study we have attempted to form folate‐targeted vectors with extended systemic circulation by surface modification of pLL/DNA complexes with hydrophilic polymers.

Methods

pLL/DNA complexes were stabilised by surface modification with a multivalent reactive polymer based on alternating segments of poly(ethylene glycol) and tripeptides bearing reactive ester groups. Folate moieties were incorporated into the vectors either by direct attachment of folate to the polymer or via intermediate poly(ethylene glycol) spacers of 800 and 3400 Da.

Results

Polymer‐coated complexes show similar morphology to uncoated complexes, their zeta potential is decreased towards zero, serum protein binding is inhibited and aqueous solubility is substantially increased. Intravenous (i.v.) administration to mice of coated complexes produced extended systemic circulation, with up to 2000‐fold more DNA measured in the bloodstream after 30 min compared with simple pLL/DNA complexes. In further contrast to simple pLL/DNA complexes, coated complexes do not bind blood cells in vivo. Folate receptor targeting is shown to mediate targeted association with HeLa cells in vitro, leading to increased transgene expression. We demonstrate for the first time that DNA uptake via the folate receptor is dependent on pEG spacer length, with the transgene expression relatively independent of the level of internalised DNA.

Conclusions

We show increased systemic circulation, decreased blood cell and protein binding, and folate‐targeted transgene expression using pLL/DNA complexes surface‐modified with a novel multireactive hydrophilic polymer. This work provides the basis for the development of plasma‐circulating targeted vectors for in vivo applications. Copyright © 2002 John Wiley & Sons, Ltd.
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19.

BACKGROUND

Folic acid is essential for the development of the nervous system and other associated structures. Mice deficient in the folic acid‐binding protein one (Folbp1) gene display multiple developmental abnormalities, including neural and craniofacial defects. To better understand potential interactions between Folbp1 gene and selected genes involved in neural and craniofacial morphogenesis, we evaluated the expression patterns of a panel of crucial differentiation markers (Pax‐3, En‐2, Hox‐a1, Shh, Bmp‐4, Wnt‐1, and Pax‐1).

METHODS

Folbp1 mice were supplemented with low dosages of folinic acid to rescue nullizygotes from dying in utero before gestational day 10. The gene marker analyses were carried out by in situ hybridization.

RESULTS

In nullizygote embryos with open cranial neural tube defects, the downregulation of Pax‐3 and En‐2 in the impaired midbrain, along with an observed upregulation of the ventralizing marker Shh in the expanded floor plate, suggested an important regulatory interaction among these three genes. Moreover, the nullizygotes also exhibit craniofacial abnormalities, such as cleft lip and palate. Pax‐3 signals in the impaired medial nasal primordia were significantly increased, whereas Pax‐1 showed no expression in the undeveloped lateral nasal processes. Although Shh was downregulated, Bmp‐4 was strongly expressed in the medial and lateral nasal processes, highlighting the antagonistic activities of these molecules.

CONCLUSIONS

Impairment of Folbp1 gene function adversely impacts the expression of several critical signaling molecules. Mis‐expression of these molecules, perhaps mediated by Shh, may potentially contribute to the observed failure of neural tube closure and the development of craniofacial defects in the mutant mice. Birth Defects Research (Part A) 67:209–218, 2003. © 2003 Wiley‐Liss, Inc.
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20.

Background

Insulin deficiency is currently treated with pharmacological insulin secretagogues, insulin injections or islet transplants. Secondary failure of pharmacological agents is common; insulin injections often fail to achieve euglycemic control; and islet transplants are rare. Non‐β cells capable of regulated insulin secretion in vivo could be a functional cure for diabetes. Hepatocytes are good candidates, being naturally glucose‐responsive, protein‐secreting cells, while the liver is positioned to receive direct nutrient signals that regulate insulin production.

Methods

Human liver‐derived Chang cells were modified with a plasmid construct in which a bifunctional promoter comprising carbohydrate response elements and the human metallothionein IIA promoter controlled human proinsulin cDNA expression. Secretory responses of stable cell clones were characterized in vitro and in vivo by proinsulin radioimmunoassay.

Results

Transfected Chang cells secreted 5–8 pmol proinsulin/106 cells per 24 h in continuous passage for at least a year in response to 5–25 mM glucose and 10–90 µM zinc in vitro. Glucose and zinc synergistically increased proinsulin production by up to 30‐fold. Non‐glucose secretagogues were also active. Glucose transporter 2 (GLUT2) and glucokinase cDNA co‐transfection enhanced glucose responsiveness. Intraperitoneally implanted Chang cells secreted proinsulin in scid and Balb/c mice. Serum proinsulin levels were further increased 1.3‐fold (p<0.05) after glucose and 1.4‐ to 1.6‐fold (p<0.005) after zinc administration in vivo.

Conclusions

These results are the first to demonstrate stable proinsulin production in a human liver‐derived cell line with activity in vitro and in vivo and provide a basis for engineering hepatocytes as in vivo bioimplants for future diabetes treatment. Copyright © 2002 John Wiley & Sons, Ltd.
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