Your search keyword '"Hybrid vector"' showing total 5 results

1. In VivoStable Transduction of Humanized Liver Tissue in Chimeric Mice via High-Capacity Adenovirus–Lentivirus Hybrid Vector

Author

Shuji Kubo, Yoshiko Kawasaki, Takahiro Kimura, Chise Tateno, Noriyuki Kasahara, Philip Ng, Miho Kataoka, Haruki Okamura, Emmanuelle Faure-Kumar, Katsutoshi Yoshizato, and Donna Palmer

Subjects

Adenoviridae Infections, Transgene, Genetic enhancement, Genetic Vectors, Gene Expression, medicine.disease_cause, Adenoviridae, Cell Line, Mice, Transduction (genetics), Cell Movement, Transduction, Genetic, In vivo, Genetics, medicine, Animals, Humans, Molecular Biology, Research Articles, biology, Chimera, Lentivirus, Hybrid vector, biology.organism_classification, Virology, Cell biology, Liver, Cell culture, Injections, Intravenous, Molecular Medicine

Abstract

We developed hybrid vectors employing high-capacity adenovirus as a first-stage carrier encoding all the components required for in situ production of a second-stage lentivirus, thereby achieving stable transgene expression in secondary target cells. Such vectors have never previously been tested in normal tissues, because of the scarcity of suitable in vivo systems permissive for second-stage lentivirus assembly. Here we employed a novel murine model in which endogenous liver tissue is extensively reconstituted with engrafted human hepatocytes, and successfully achieved stable transduction by the second-stage lentivirus produced in situ from first-stage adenovirus. This represents the first demonstration of the functionality of adenoviral-lentiviral hybrid vectors in a normal parenchymal organ in vivo.

Published

2010

2. Efficient AAV1–AAV2 Hybrid Vector for Gene Therapy of Hemophilia

Author

Hong-li Wang, Wenman Wu, Jing Xie, Bernd Hauck, Weidong Xiao, Matthew Sipler, J. Fraser Wright, Qiulan Ding, Ray Ruian Xu, and Ling Chen

Subjects

viruses, Transgene, Genetic enhancement, Genetic Vectors, Molecular Sequence Data, Gene Expression, Gene delivery, Biology, Hemophilia B, Article, Virus, Factor IX, Mice, Transduction, Genetic, In vivo, Chlorocebus aethiops, Gene expression, Genetics, Animals, Humans, Molecular Biology, Cells, Cultured, Mice, Knockout, Sequence Homology, Amino Acid, Hybrid vector, Genetic Therapy, Dependovirus, Virology, Molecular biology, Phenotype, COS Cells, Knockout mouse, Molecular Medicine, Capsid Proteins, HeLa Cells

Abstract

Adeno-associated virus (AAV) serotype 1 (AAV1) has been shown to be more effective than the well-studied AAV serotype 2 (AAV2) in muscle gene transfer. Replacement of amino acids 350 to 430 of AAV2 VP1 with the corresponding amino acids from VP1 of AAV1 resulted in a hybrid vector, termed AAV-221-IV, which behaved similarly to AAV1 in vitro and in vivo in muscle. Intramuscular injection of 1 × 1011 vector particles per mouse of hybrid vector carrying a human FIX transgene in CD4 knockout mice resulted in an average level of human FIX in the plasma of 450 ng/ml, 4- to 10-fold higher than in mice injected with an AAV2 vector carrying the same transgene, and 80% of the transgene levels in animals treated with the same dose of AAV1. DNA analysis of injected muscle showed a 10-fold higher copy number after gene delivery by the hybrid vector compared with AAV2. A comparison of total DNA versus DNA from intact virus particles suggests a higher stability of hybrid virus particles. These results suggest that changes in the AAV capsid have an effect on virus-cell receptor interaction, and also influence trafficking and processing of the virus particle in the cell. This “hybrid vector” retains the heparin-binding sites of AAV2 and, therefore, can be purified by passage through a heparin-Sepharose column with the same efficiency as AAV2. When tested in vivo, either in CD4 knockout mice or in a hemophilic mouse model, the heparin-purified hybrid vector showed >10-fold higher activity than similarly purified AAV2. This demonstrates the utility of this hybrid vector in the performance of large-scale heparin column purification to generate a vector with a high expression profile for muscle-directed gene delivery. Initiation of clinical studies with this hybrid vector may be facilitated because it differs from AAV2 by only nine amino acids.

Published

2006

3. Development of an Rev-Independent, Minimal Simian Immunodeficiency Virus-Derived Vector System

Author

Ramesh Akkina, Snehal Pandya, Kathleen Boris-Lawrie, Vicente Planelles, and Nancy J. Leung

Subjects

Genes, Viral, viruses, Genetic enhancement, Genetic Vectors, DNA, Recombinant, Biology, Response Elements, medicine.disease_cause, Virus, Cell Line, Viral Proteins, Transduction (genetics), Plasmid, Viral Envelope Proteins, Genetics, medicine, Humans, Cloning, Molecular, Molecular Biology, HIV Long Terminal Repeat, Membrane Glycoproteins, Virus Assembly, Genetic transfer, Hybrid vector, virus diseases, rev Gene Products, Human Immunodeficiency Virus, Genetic Therapy, Simian immunodeficiency virus, biology.organism_classification, Virology, Gene Products, rev, DNA, Viral, Lentivirus, HIV-1, Molecular Medicine, Simian Immunodeficiency Virus, Cell Division, Gene Deletion

Abstract

Lentiviral vectors are attractive candidates for gene therapy because of their ability to integrate into nondividing cells. To date, conventional HIV-1-based vectors can be produced at higher titers, but concerns regarding their safety for human use exist because of the possibility of recombination leading to production of infectious virions with pathogenic potential. Development of lentivirus vectors based on nonhuman lentiviruses constitutes an active area of research. We described a novel HIV-SIV hybrid vector system in which an HIV-1-derived transfer vector is encapsidated by SIVmac1A11 core particles and pseudotyped with VSV glycoprotein G. In an effort to further develop this vector system, we modified the packaging plasmid by deletion of the SIV accessory genes. Specifically, versions of the packaging plasmid (SIVpack) lacking vif, vpr, vpx, and/or nef were constructed. Our results indicate that, as with HIV-1-based packaging plasmids, deletion of accessory genes has no significant effect on transduction in either dividing or nondividing cells. The SIV packaging plasmid was also modified with regard to the requirement for RRE and rev. Deletion of the RRE and rev from SIVpack led to dramatic loss of transduction ability. Introduction of the 5' LTR from the spleen necrosis virus to packaging plasmids lacking RRE/Rev was then sufficient to fully restore vector titer. A minimal SIV transfer vector was also developed, which does not require RRE/Rev and exhibits no reduction in transduction efficiency in two packaging systems. The SIV-based vector system described here recapitulates the biological properties of minimal HIV-1-derived systems and is expected to provide an added level of safety for human gene transfer. We suggest that the SIV-derived vector system will also be useful to deliver anti-HIV-1 gene therapy reagents that would inhibit an HIV-1-derived vector.

Published

2001

4. Gene Transfer to the Nigrostriatal System by Hybrid Herpes Simplex Virus/Adeno-Associated Virus Amplicon Vectors

Author

David R. Jacoby, Xandra O. Breakefield, Cornel Fraefel, Lauren C. Costantini, Ole Isacson, and S. Wang

Subjects

viruses, Genetic Vectors, Biology, Recombinant virus, medicine.disease_cause, Virus, Multiplicity of infection, Transduction, Genetic, Genetics, medicine, Animals, Simplexvirus, Molecular Biology, Adeno-associated virus, Cells, Cultured, Crosses, Genetic, Genetic transfer, Hybrid vector, Gene Transfer Techniques, Dependovirus, Amplicon, Virology, Molecular biology, Corpus Striatum, Rats, Substantia Nigra, Herpes simplex virus, Molecular Medicine, Biomarkers

Abstract

To improve gene transfer to CNS neurons, critical elements of herpes simplex virus 1 (HSV-1) amplicons and recombinant adeno-associated virus (AAV) vectors were combined to construct a hybrid amplicon vector, and then packaged via a helper virus-free system. We tested the HSV/AAV hybrid amplicon vectors for transduction efficiency and stability of transgene expression (green fluorescent protein) in primary neuronal cultures from rat fetal ventral mesencephalon, in comparison with traditional HSV amplicon, AAV, or adenovirus (Ad) vectors at the same multiplicity of infection. The HSA/AAV hybrid vectors transduced the highest number of primary neurons in culture 2 days after infection. As compared with all other vectors tested, only hybrid vectors containing the AAV rep gene maintained the 2-day level of transgene expression over 12 days in culture. This rep-containing hybrid vector was then tested for efficiency and safety in the brain. One month after injection into adult rat striatum (1 x 10(6) transducing units injected), transgene expression was observed within the striatum (ranging from 564 to 8610 cells) and the substantia nigra (via retrograde transport, ranging from 130 to 809 neurons). The HSV/AAV hybrid amplicon vectors transduced predominantly neurons within the striatum, and showed transduction efficacy similar to and in many cases higher than that of HSV amplicon vectors. No immune response was observed in the HSA/AAV hybrid vector-injected brains, as determined by immune markers specific for helper T lymphocytes, cytotoxic T lymphocytes, and microglia. This HSV/AAV hybrid system shows high transduction efficiency and stability in culture. The effective and safe transgene delivery into the nigrostriatal system illustrates its potential for therapeutic application for neurologic disorders, such as Parkinson and Huntington disease.

Published

1999

5. A Novel Adenovirus—Adeno-Associated Virus Hybrid Vector That Displays Efficient Rescue and Delivery of the AAV Genome

Author

James M. Wilson, W. Mark Kelley, John F. Burda, and Krishna J. Fisher

Subjects

Gene Expression Regulation, Viral, viruses, Genetic enhancement, Genetic Vectors, Eukaryotic DNA replication, Genome, Viral, Biology, Transfection, medicine.disease_cause, law.invention, Plasmid, law, Genetics, medicine, Polylysine, Molecular Biology, Adeno-associated virus, Recombination, Genetic, Expression vector, Adenoviruses, Human, Hybrid vector, DNA Helicases, Genetic Therapy, Dependovirus, Virology, DNA-Binding Proteins, Trans-Activators, Recombinant DNA, Molecular Medicine

Abstract

Adenovirus and adeno-associated virus (AAV) are eukaryotic DNA viruses being developed as vectors for human gene therapy. The strengths of each system have been exploited in a novel vector that is based on an ade novirus–AAV hybrid virus incorporated into a plasmid-based molecular conjugate. Efficient rescue and replication of the recombinant AAV genome in this hybrid required transient expression of rep. This feature was incorporated into the transducing particle by conjugating a rep expression plasmid to the hybrid virus through a polylysine bridge. The resulting particle is an attractive vehicle for gene therapy because it is easily manufactured and capable of efficiently transducing cells with the end result being rescue and replication of the recombinant AAV genome. This particle is also useful in the production of recombinant AAV resulting in yields 10-fold greater than that achieved with transfection-based protocols.

Published

1996