Improved neuronal transgene expression from an AAV-2 vector with a hybrid CMV enhancer/PDGF-beta promoter

BACKGROUND: Adeno-associated virus type 2 (AAV-2) vectors are highly promising tools for gene therapy of neurological disorders. After accommodating a cellular promoter, AAV-2 vectors are able to drive sustained expression of transgene in the brain. This study aimed to develop AAV-2 vectors that also facilitate a high level of neuronal expression by enhancing the strength of a neuron-specific promoter, the human platelet-derived growth factor beta-chain (PDGF) promoter. METHODS AND RESULTS: A hybrid promoter approach was adopted to fuse the enhancer of human cytomegalovirus immediately early (CMV) promoter to the PDGF promoter. In cultured cortex neurons, AAV-2 vectors containing the hybrid promoter augmented transgene expression up to 20-fold over that mediated by titer-matched AAV-2 vectors with the PDGF promoter alone and 4-fold over the CMV enhancer/promoter. Injection of AAV-2 vectors with the hybrid promoter into the rat striatum resulted in neuron-specific transgene expression, the level of which was about 10-fold higher than those provided by the two control AAV-2 expression cassettes at 4 weeks post-injection and maintained for at least 12 weeks. Gene expression in the substantia nigra through possible retrograde transport of the AAV-2 vectors injected into the striatum was not obvious. After direct injection of AAV-2 vectors into the substantia nigra, transgene expression driven by the hybrid promoter was observed specifically in dopaminergic neurons and its level was about 3 and 17 times higher than that provided by the PDGF promoter alone and the CMV enhancer/promoter, respectively. CONCLUSIONS: Enhanced transgene capacity plus neuron-specificity of the AAV-2 vectors developed in this study might prove valuable for gene therapy of Parkinson's disease.     

Inhibition of HBV gene expression and replication by stably expressed interferon-alpha1 via adeno-associated viral vectors

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.

     

Efficient adeno-associated virus-mediated gene expression in human placenta-derived mesenchymal cells

Mesenchymal cells from various sources are pluripotent and are attractive sources for cell transplantation. In this study, we analyzed recombinant adeno-associated virus (rAAV)-mediated gene expression in human placenta-derived mesenchymal cells (hPDMCs), which reside in placental villi. After transduction of AV-CAG-EGFP, a rAAV expressing enhanced green fluorescence protein (EGFP), hPDMCs showed much higher level of EGFP expression than human umbilical vein endothelial cells or rat aortic smooth muscle cells. The number of EGFP-positive hPDMCs infected by AV-CAG-EGFP alone did not increase significantly by coinfection of adenovirus, which enhanced expression level of the rAAV vector. Moreover, flow cytometric analysis showed discrete positive fraction of EGFP-expressing hPDMCs, which is about 15-20% of the cells infected with AV-CAG-EGFP. Therefore, some cell population in hPDMCs might be highly susceptible to rAAV-mediated gene transduction. In addition, stable EGFP expressions were observed in about 1% of hPDMCs infected with AV-CAG-EGFP at 4 weeks post-infection. Collectively, hPDMCs have characters favorable for rAAV-mediated gene expression.     

Viral serotype and the transgene sequence influence overlapping adeno-associated viral (AAV) vector-mediated gene transfer in skeletal muscle

BACKGROUND: The overlapping approach was developed recently to expand the adeno-associated viral (AAV) packaging capacity. In this approach, a gene is split into two partially overlapping fragments and separately packaged into an upstream and a downstream vector, respectively. Transgene expression is achieved in co-infected cells after homologous recombination. Despite the promising proof-of-principle results in the lung, the efficiency has been very disappointing in skeletal muscle. Here we examined two potential rate-limiting factors including AAV serotype and the transgene sequence. METHODS: To study serotype effect, we delivered AAV-2, -5 and -6 overlapping vectors (5 x 10(8) vg particles of the upstream and the downstream vectors, respectively) and 5 x 10(8) vg particles of the intact gene vector to the tibialis anterior muscles of 7-week-old C57Bl/6 mice, respectively. To determine the effect of transgene sequence, we compared LacZ and alkaline phosphatase (AP) overlapping vectors. Transduction efficiency was quantified 6 weeks later by scoring the percentage of transgene-positive myofibers. RESULTS: AAV-2 overlapping vectors barely resulted in detectable transduction. Transduction efficiency was significantly improved in AAV-5 and AAV-6. The highest level was achieved in AAV-6 that reached 42% and 96% of that of the intact gene vector for the LacZ gene and the AP gene, respectively. Surprisingly, AAV-6 overlapping vector resulted in higher transduction than did AAV-2 and AAV-5 intact gene vectors. CONCLUSIONS: Our findings suggest that AAV serotype and the transgene sequence play critical roles in the overlapping approach. AAV-6 holds great promise for overlapping vector-mediated muscle gene therapy.     

Intracellular localization of adeno-associated viral proteins expressed in insect cells

Production of vectors derived from adeno-associated virus (AAVv) in insect cells represents a feasible option for large-scale applications. However, transducing particles yields obtained in this system are low compared with total capsid yields, suggesting the presence of genome encapsidation bottlenecks. Three components are required for AAVv production: viral capsid proteins (VP), the recombinant AAV genome, and Rep proteins for AAV genome replication and encapsidation. Little is known about the interaction between the three components in insect cells, which have intracellular conditions different to those in mammalian cells. In this work, the localization of AAV proteins in insect cells was assessed for the first time with the purpose of finding potential limiting factors. Unassembled VP were located either in the cytoplasm or in the nucleus. Their transport into the nucleus was dependent on protein concentration. Empty capsids were located in defined subnuclear compartments. Rep proteins expressed individually were efficiently translocated into the nucleus. Their intranuclear distribution was not uniform and differed from VP distribution. While Rep52 distribution and expression levels were not affected by AAV genomes or VP, Rep78 distribution and stability changed during coexpression. Expression of all AAV components modified capsid intranuclear distribution, and assembled VP were found in vesicles located in the nuclear periphery. Such vesicles were related to baculovirus infection, highlighting its role in AAVv production in insect cells. The results obtained in this work suggest that the intracellular distribution of AAV proteins allows their interaction and does not limit vector production in insect cells.     

Effect of adeno-associated virus-mediated transfer of low density lipoprotein receptor gene on treatment of hypercholesterolemia

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Advancements in the design and scalable production of viral gene transfer vectors

The last 10 years have seen a rapid expansion in the use of viral gene transfer vectors, with approved therapies and late stage clinical trials underway for the treatment of genetic disorders, and multiple forms of cancer, as well as prevention of infectious diseases through vaccination. With this increased interest and widespread adoption of viral vectors by clinicians and biopharmaceutical industries, there is an imperative to engineer safer and more efficacious vectors, and develop robust, scalable and cost‐effective production platforms for industrialization. This review will focus on major innovations in viral vector design and production systems for three of the most widely used viral vectors: Adenovirus, Adeno‐Associated Virus, and Lentivirus.     

Hot topics in adeno-associated virus as a gene transfer vector

Adeno-associated virus (AAV) is a promising viral vector in treating many kinds of hereditary diseases. The broad host range, low level of immune response, and longevity of gene expression observed with this vector have enabled the initiation of a number of clinical trials using this gene delivery system. Another potential benefit of AAV vectors is their ability to integrate site-specifically in the presence of Rep proteins. However, this virus is not well characterized. To obtain high level, persistent expression of the foreign gene, some problems should be solved. In this article, we will describe the advances in some fields of recombinant AAV technology that overcome certain limitations of the vector as a gene delivery system, such as the transduction efficiency, the production, the package capacity, and elimination of immune responses, as well as the applications involving these recombinant vectors for the treatment of some diseases.     

Gene therapy with novel adeno-associated virus vectors substantially diminishes atherosclerosis in a murine model of familial hypercholesterolemia

BACKGROUND: Familial hypercholesterolemia is an inherited disease caused by mutations in the LDL receptor gene leading to severe hypercholesterolemia and atherosclerosis. The LDL receptor is predominantly expressed in the liver, making it a preferred target organ for somatic gene therapy. We recently isolated a new family of vectors based on adeno-associated viruses (AAVs) isolated from nonhuman primates, which enable efficient and stable transgene expression following in vivo gene delivery to liver. METHODS: Traditional vectors based on AAV serotype 2 and two novel AAVs from nonhuman primates, serotypes AAV7 and AAV8, were produced encoding for the human LDL receptor. Vectors were injected into the portal veins of LDL receptor deficient mice that were fed a high-fat diet to achieve severe pretreatment hypercholesterolemia. RESULTS: Animals receiving the novel AAV vectors realized nearly complete normalization of serum lipids and failed to develop the severe atherosclerosis that characterized the untreated animals; the AAV2 vector constructs demonstrated partial lipid correction and only a modest improvement in atherosclerosis. CONCLUSIONS: Using vectors based on novel nonhuman primate AAVs, which provide advantages in terms of efficiency, we were able to achieve a long-term correction of the metabolic defect in LDL receptor deficient mice.