Generation Recombinant Adenovirus Research Articles

High-Level rAAV Vector Production by rAdV-Mediated Amplification of Small Amounts of Input Vector.

The successful application of recombinant adeno-associated virus (rAAV) vectors for long-term transgene expression in clinical studies requires scalable production methods with genetically stable components. Due to their simple production scheme and the high viral titers achievable, first generation recombinant adenoviruses (rAdV) have long been taken into consideration as suitable tools for simultaneously providing both the helper functions and the AAV rep and cap genes for rAAV packaging. So far, however, such rAdV-rep/cap vectors have been difficult to generate and often turned out to be genetically unstable. Through ablation of cis and trans inhibitory function in the AAV-2 genome we have succeeded in establishing separate and stable rAdVs for high-level AAV serotype 2 Rep and Cap expression. These allowed rAAV-2 production at high burst sizes by simple coinfection protocols after providing the AAV-ITR flanked transgene vector genome either as rAAV-2 particles at low input concentrations or in form of an additional rAdV. With characteristics such as the ease of producing the required components, the straightforward adaption to other transgenes and the possible extension to further serotypes or capsid variants, especially the rAdV-mediated rAAV amplification system presents a very promising candidate for up-scaling to clinical grade vector preparations.

Evaluation of the HC-04 cell line as an in vitro model for mechanistic assessment of changes in hepatic cytochrome P450 3A during adenovirus infection.

HC-04 cells were evaluated as an in vitro model for mechanistic study of changes in the function of hepatic CYP3A during virus infection. Similar to in vivo observations, infection with a first generation recombinant adenovirus significantly inhibited CYP3A4 catalytic activity in an isoform-specific manner. Virus (MOI 100) significantly reduced expression of the retinoid X receptor (RXR) by 30% 96 hours after infection. Cytoplasmic concentrations of the pregnane X receptor (PXR) were reduced by 50%, whereas the amount of the constitutive androstane receptor (CAR) in the nuclear fraction doubled with respect to uninfected controls. Hepatocyte nuclear factor 4α (HNF-4α) and peroxisome proliferator-activated receptor γ coactivator 1α (PGC-1α) were also reduced by ∼70% during infection. Virus suppressed CYP3A4 activity in the presence of the PXR agonist rifampicin and did not affect CYP3A4 activity in the presence of the CAR agonist CITCO [6-(4-chlorophenyl) imidazo[2,1-b][1,3]thiazole-5-carbaldehyde-O-(3,4-dichlorobenzyl)oxime], suggesting that virus-induced modification of PXR may be responsible for observed changes in hepatic CYP3A4. The HC-04 cell line is easy to maintain, and CYP3A4 in these cells was responsive to known inducers and suppressors. Dexamethasone (200 μM) and phenobarbital (500 μM) increased activity by 230 and 124%, whereas ketoconazole (10 μM) and lipopolysaccharide (LPS) (10 μg/ml) reduced activity by 90 and 92%, respectively. This suggests that HC-04 cells can be a valuable tool for mechanistic study of drug metabolism during infection and for routine toxicological screening of novel compounds prior to use in the clinic.

714. Effect of Adenovirus-Mediated RNA Interference on Endogenous micro-RNA Functionality in a Mouse Model of Multidrug Resistance Protein-2 Gene Silencing

Top of pageAbstract RNA interference using viral vectors that express short hairpin RNAs (shRNAs) has emerged as a powerful tool for functional genomics and therapeutic purposes. However, little is known about shRNA in vivo processing, accumulation, functional kinetics and side-effects related to shRNA saturation of the cellular gene silencing machinery. Therefore, we constructed first generation recombinant adenoviruses encoding different shRNAs against murine Multidrug-Resistance Protein 2 (MRP2), which is involved in liver transport of bilirubin to bile, and analyzed MRP2 silencing kinetics. C57/BL6 mice injected with these viruses showed significant impairment of MRP2 function for up to three weeks, as reflected by increased serum bilirubin levels. The lack of MRP2 function correlated with a specific reduction of MRP2 mRNA and with high levels of processed shRNAs targeting MRP2. Inhibition was lost at longer times post-infection, correlating with a decrease in the accumulation of processed shRNAs. This finding suggests that there is minimal amount of processed shRNAs required for efficient silencing in vivo. This system was also used to evaluate the effect of shRNA expression on the saturation of silencing factors. Saturation of the cellular silencing processing machinery alters accumulation and functionality ofendogenous microRNAs (miRNAs) and pre-miRNAs. However, expression of functional exogenous shRNAs did not change the levels of endogenous miRNAs or their precursors, or the accumulation of Ras, a cellular protein whose expression is regulated by endogenous miRNAs. In summary, this work shows that adenoviral vectors can deliver sufficient shRNAs to mediate inhibition of gene expression without saturating the silencing machinery.

This Month in Gastroenterology

This Month in Gastroenterology

Functional, Persistent, and Extended Liver to Pancreas Transdifferentiation

Pancreatic and duodenal homeobox gene-1 (PDX-1) regulates pancreas development during embryogenesis, whereas in the adult it controls beta-cell function. Here we analyze whether PDX-1 functions as a pancreatic differentiation factor and a bona fide master regulator when ectopically expressed in mature fully differentiated liver in vivo. By ectopic and transient PDX-1 expression in liver in vivo, using the first generation recombinant adenoviruses, we demonstrate that PDX-1 induces in liver a wide repertoire of both exocrine and endocrine pancreatic gene expression. Moreover, PDX-1 induces its own expression (auto-induction), which in turn may explain the long lasting nature of the "liver to pancreas" transdifferentiation. Insulin as well glucagon-producing cells are mainly located in the proximity of hepatic central veins, possibly allowing direct hormone release into the bloodstream, without affecting normal hepatic function. Importantly, we demonstrate that hepatic insulin production triggered by Ad-CMV-PDX-1 recombinant adenovirus administration is functional and prevents streptozotocin-induced hyperglycemia in Balb/c mice even 8 months after the initial treatment. We conclude that PDX-1 plays an important instructive role in pancreas differentiation, not only from primitive gut endoderm but also from mature liver. Transconversion of liver to pancreas may serve as a novel approach for generating endocrine-pancreatic tissue that can replace malfunctioning beta-cells in diabetics.

Prevention of the dystrophic phenotype in dystrophin/utrophin-deficient muscle following adenovirus-mediated transfer of a utrophin minigene.

Duchenne muscular dystrophy (DMD) is a progressive muscle wasting disorder caused by the lack of a subsarcolemmal protein, dystrophin. We have previously shown that the dystrophin-related protein, utrophin is able to compensate for the lack of dystrophin in the mdx mouse, the mouse model for DMD. Here, we explore whether utrophin delivered to the limb muscle of dystrophin/utrophin-deficient double knockout (dko) neonatal mice can protect the muscle from subsequent dystrophic damage. Utrophin delivery may avoid the potential problems of an immune response associated with the delivery of dystrophin to a previously dystrophin-deficient host. Dko muscle (tibialis anterior) was injected with a first generation recombinant adenovirus containing a utrophin minigene. Up to 95% of the fibres continued expressing the minigene 30 days after injection. Expression of utrophin caused a marked reduction from 80% centrally nucleated fibres (CNFs) in the uninjected dko TA to 12% in the injected dko TA. Within the region of the TA expressing the utrophin minigene, a significant decrease in the prevelance of necrosis was noted. These results demonstrate that the utrophin minigene delivered using an adenoviral vector is able to afford protection to the dystrophin/utrophin-deficient muscle of the dko mouse. Gene Therapy (2000) 7, 201-204.

Markedly increased secretion of VLDL triglycerides induced by gene transfer of apolipoprotein E isoforms in apoE-deficient mice

Apolipoprotein E (apoE) plays a key role in the receptor-mediated uptake of lipoproteins by the liver and therefore in regulating plasma levels of lipoproteins. ApoE may also facilitate hepatic secretion of very low density lipoprotein (VLDL) triglyceride (TG). We directly tested the hypothesis that reconstitution of hepatic apoE expression in adult apoE-deficient mice by gene transfer would acutely enhance VLDL-TG production and directly compared the three major human apoE isoforms using this approach. Second generation recombinant adenoviruses encoding the three major isoforms of human apoE (E2, E3, and E4) or a control virus were injected intravenously into apoE-deficient mice, resulting in acute expression of the apoE isoforms in the liver. Despite the expected decreases in total and VLDL cholesterol levels, apoE expression was associated with increased total and VLDL triglyceride levels (E2 > E4 > E3). The increase in TG levels significantly correlated with plasma apoE concentrations. In order to determine whether acute apoE expression influenced the rate of VLDL-TG production, additional experiments were performed. Three days after injection of adenoviruses, Triton WR1339 was injected to block lipolysis of TG-rich lipoproteins and VLDL-TG production rates were determined. Mice injected with control adenovirus had a mean VLDL-TG production rate of 74 ± 7 μmol/h/kg. In contrast, VLDL-TG production rates in apoE-expressing mice were 363 ± 162 μmol/h/kg, 286 ± 175 μmol/h/kg, and 300 ± 84 μmol/h/kg for apoE2, apoE3, and apoE4, respectively. The VLDL-TG production rates in apoE-expressing mice were all significantly greater than in control mice but were not significantly different from each other. In summary, acute expression of all three human apoE isoforms in livers of apoE-deficient mice markedly increased VLDL-TG production to a similar degree, consistent with the concept that apoE plays an important role in facilitating hepatic VLDL-TG production in an isoform-independent manner. —Tsukamoto, K., C. Maugeais, J. M. Glick, and D. J. Rader. Markedly increased secretion of VLDL triglycerides induced by gene transfer of apolipoprotein E isoforms in apoE-deficient mice.

Overcoming Cellular Immunity to Prolong Adenoviral-Mediated Gene Expression in Sciatic Nerve.

In a previous report, we demonstrated that a first generation (E1- and E3-deleted) recombinant adenovirus can transduce expression of the E. coli lacZ gene into Schwann cells, both in vitro and in vivo, suggesting that this method might be useful for future therapy of peripheral neuropathy, including CMT1. Adenoviral-mediated gene transfer was limited, however, by demyelination and Wallerian degeneration at the site of virus injection, as well as by attenuation of viral gene expression over time. In our current work we have optimized adenoviral-mediated gene expression after intraneural injection into sciatic nerve. Using an improved injection protocol, peak expression of lacZ occurs between 10 and 14 days after injection of 2-week-old animals, decreases thereafter, and there is minimal associated tissue injury. In contrast, very few adenoviral-infected Schwann cells are found in nerves of adult animals 10 days after injection, probably due to immune clearance of viral-infected cells. Consistent with this notion, high levels of lacZ are found in sciatic nerve 30 days after injection of adult SCID mice, which have a genetic defect in both cellular and humoral immunity, of adult β2 microglobulin-deficient mice (β2 M -/-), which have a genetic defect in cellular immunity, or of adult mice treated with the immunosuppressing agent FK506. In addition, adenoviral-infected Schwann cells co-cultured with axons in vitro, in the absence of a host immune response, ensheath axons and express lacZ for at least 8 weeks. These data thus demonstrate that expression of first generation recombinant adenovirus in sciatic nerve in adult mice, as in other tissues, is limited mainly by the host cellular immune response to the virus, which can be overcome by attenuation of host cell-mediated immunity. Adenoviral vectors might thus be used to modulate Schwann cell gene expression in patients with peripheral neuropathy after appropriate immunosuppression.

Adenovirus-mediated gene transfer in dog prostate: a preclinical study of a relevant model system for gene therapy of human prostatic cancer.

This present study evaluates the potential of adenovirus-mediated gene transfer (AMGT) to the prostate of normal laboratory beagles. Many morphological and histological similarities can be noted between dog and human prostate. Moreover, dogs can spontaneously develop prostate cancer with a clinical and biological outcome identical to that in man. Firstly we showed the capacity of human adenovirus to infect canine prostatic cells in vitro. Secondly, we injected transrectally in the dogs' prostates 2x10(9) plaque forming units of a first generation recombinant adenovirus vector harboring the reporter gene beta-galactosidase (AdRSVbetagal). Seven days after the adenoviral delivery, we observed expression of the transgene in both prostates, and exclusively in epithelial cells. Despite a cellular and a humoral immune response, the infusion appeared safe, since the dogs had no fever and presented no urinary symptoms. This study constitutes the first evaluation of AMGT in dog prostate and provides a basis for gene therapy treatment of prostate carcinoma-bearing patients.

Comparison of human apoA-I expression in mouse models of atherosclerosis after gene transfer using a second generation adenovirus

Gene transfer and expression of apolipoprotein A-I (apoA-I), the major protein component of high density lipoproteins (HDL), is a potentially attractive method for investigating the effects of apoA-I on atherosclerosis. We constructed a second generation recombinant adenovirus encoding the human apoA-I cDNA. This adenoviral vector or a control vector was injected intravenously into apoE-deficient mice fed a chow diet and low density lipoprotein (LDL) receptor (LDLR)-deficient mice fed Western diet, as well as control wild-type C57BL/6 mice. The mean peak plasma human apoA-I concentrations were 235, 324, and 276 mg/dL in apoE-deficient, LDLR-deficient, and wild-type mice, respectively. Human apoA-I concentrations decreased rapidly in apoE-deficient mice and were barely detectable 6 weeks after injection. In contrast, substantially higher levels of human apoA-I were sustained in LDLR-deficient mice. In wild-type mice, human apoA-I levels decreased more rapidly than in LDLR-deficient mice, but could still be detected in plasma for up to 8 months after virus injection. In apoE-deficient mice a substantial fraction of human apoA-I was found associated with triglyceride (TG)-rich lipoproteins; in contrast, in LDLR-deficient and wild-type mice the majority of human apoA-I was found in the HDL fraction. Finally, expression of human apoA-I caused a transient but significant increase in triglyceride levels in all three mouse models. In summary: 1) a second generation recombinant adenovirus resulted in high-level expression of human apoA-I in mice; 2) significantly higher levels of human apoA-I persisted for a longer time in LDLR-deficient mice compared with apoE-deficient mice; and 3) substantial human apoA-I was found associated with TG-rich lipoproteins in apoE-deficient but not LDLR-deficient mice.

Recombinant Adenovirus Deleted of All Viral Genes for Gene Therapy of Cystic Fibrosis

Recombinant adenoviruses are being developed for gene therapy of inherited disorders such as cystic fibrosis because they efficiently transduce recombinant genes into nondividing cellsin vivo.First generation recombinant adenoviruses, rendered defective by deletion of sequences spanning E1a and E1b, express low levels of early and late viral genes that activate destructive cellular immune responses. Current strategies for improving recombinant adenoviruses attempt to inactivate other essential genes through deletion and growth in new packaging cell lines or incorporation of temperature sensitive mutations which allow propagation of the virus in available packaging cell lines at permissive temperatures. We describe in this report a new type of recombinant adenovirus that is deleted of all viral open reading frames. This recombinant (called ΔrAd), which contains only the essentialciselements (i.e., ITRs and contiguous packaging sequence), is propagated in 293 cells in the presence of E1-deleted helper virus. Concatamers of the monomeric vector genome were passaged and capable of transduction. The ΔrAd genome is packaged into virions that sediment at a lower density than the helper virus in cesium gradients forming the basis for a purification protocol. A fully deleted recombinant adenovirus that expresses human cystic fibrosis transmembrane conductance regulator was produced and used to transduce human airway epithelial cells derived from a cystic fibrosis patient. Packaging and propagation of a fully deleted adenovirus is an important step toward the development of a safer vector. Improved production and purification strategies need to be developed before this new vector system can be evaluatedin vivo.

Upregulation of class I major histocompatibility complex antigens by interferon gamma is necessary for T-cell-mediated elimination of recombinant adenovirus-infected hepatocytes in vivo.

Recombinant adenoviruses are attractive vehicles for liver-directed gene therapy because of the high efficiency with which they transfer genes to hepatocytes in vivo. First generation recombinant adenoviruses deleted of E1 sequences also express recombinant and early and late viral genes, which lead to development of destructive cellular immune responses. Previous studies indicated that class I major histocompatibility complex (MHC)-restricted cytotoxic T lymphocytes (CTLs) play a major role in eliminating virus-infected cells. The present studies utilize mouse models to evaluate the role of T-helper cells in the primary response to adenovirus-mediated gene transfer to the liver. In vivo ablation of CD4+ cells or interferon gamma (IFN-gamma) was sufficient to prevent the elimination of adenovirus-transduced hepatocytes, despite the induction of a measurable CTL response. Mobilization of an effective TH1 response as measured by in vitro proliferation assays was associated with substantial upregulation of MHC class I expression, an effect that was prevented in IFN-gamma-deficient animals. These results suggest that elimination of virus-infected hepatocytes in a primary exposure to recombinant adenovirus requires both induction of antigen-specific CTLs as well as sensitization of the target cell by TH1-mediated activation of MHC class I expression.

Gene transfer to primate liver using second generation recombinant adenovirus

Gene transfer to primate liver using second generation recombinant adenovirus

Inactivation of E2a in recombinant adenoviruses improves the prospect for gene therapy in cystic fibrosis.

Although first generation recombinant adenoviruses, deleted of sequences spanning E1a and E1b, have been useful for in vivo applications of gene therapy, expression of the recombinant gene has been transient and often associated with the development of inflammation. We show that with first generation adenovirus-mediated gene transfer to the mouse lung, viral proteins are expressed leading to destructive cellular immune responses and repopulation of the lung with nontransgene containing cells. Second generation E1 deleted viruses further crippled by a temperature sensitive mutation in the E2a gene were associated with substantially longer recombinant gene expression and less inflammation. Stable expression of human CF transmembrane conductance regulator has been achieved in lungs of CF mice instilled with a second generation virus.