Edward J. Baba scite author profile

Edward J. Baba

3Publications

69Citation Statements Received

86Citation Statements Given

How they've been cited

123

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Affiliations

Stanford University

Publications

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Epstein–Barr Virus/Human Vector Provides High-Level, Long-Term Expression of α1-Antitrypsin in Mice

et al. 2001

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We have constructed plasmid DNA vectors that contain Epstein-Barr virus (EBV) sequences and the human gene (SERPINA1) encoding alpha1-Antitrypsin (AAT). We demonstrate that a plasmid carrying the full SERPINA1 on a 19-kb genomic fragment and the EBV gene EBNA1 and its family of repeats binding sites undergoes efficient extrachromosomal replication in dividing mammalian tissue culture cells. Therefore, use of a whole genomic therapeutic gene to provide both replication and gene expression may be an effective gene therapy vector design, if the target cells are dividing. The efficacy of this same vector for expression of AAT in vivo in the nondividing cells of mouse liver was determined by hydrodynamic injection of naked plasmid DNA by means of the tail vein. A single injection of an EBV/genomic SERPINA1 vector provided >300 microg/ml of AAT, which approached normal plasma levels and persisted for the >9-month duration of the experiment. These data exceed most previously reported values, probably due to sequences in the genomic DNA that resist silencing of gene expression, possibly in combination with favorable effects on expression provided by the EBV sequences. These results demonstrate that plasmid DNA with the correct cis-acting sequences can provide in vivo long-term expression of protein at high levels that are therapeutically relevant for gene therapy.

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Epstein‐Barr Virus Vectors Provide Prolonged Robust Factor IX Expression in Mice

Sclimenti

Neviaser

Baba

et al. 2003

Biotechnology Progress

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We demonstrate that vectors incorporating components from Epstein-Barr virus (EBV) for retention and from human genomic DNA for replication greatly enhance the level and duration of marker gene expression in dividing cultured cells. The same types of vectors were tested in vivo by high-pressure tail vein injection of naked DNA in mice, resulting in liver delivery and expression. The therapeutic gene was a human factor IX (hFIX) minigene comprising genomically derived 5', 3', and intronic sequences that provided relatively good gene expression in vivo. We demonstrated that addition of the EBV EBNA1 gene and its family of repeats binding sites provided a 10- to 100-fold increase in prolonged hFIX expression in mouse liver. A single 25-microg dose of vector DNA generated normal (>5 microg/mL) levels of hFIX throughout the 8 month duration of the experiment. Vector DNA with or without the EBV sequences was retained in liver cells, and vector replication was not a factor in these nondividing liver cells. Instead, it appears that enhancement of stable hFIX expression by the EBV components was responsible for the increased level and duration of therapeutic gene expression. The EBV sequences also significantly enhanced stable expression of a vector carrying the full genomic hFIX gene delivered to mouse liver. These results underline the crucial importance of appropriate gene expression signals on gene therapy vectors and the utility of EBV sequences in particular for increasing stable gene expression.

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An extrachromosomal tetracycline-regulatable system for mammalian cells

Sclimenti

Baba

Calos

2000

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We have modified the tetracycline-regulatable system so that all components are present on a stable extrachromosomal vector that can replicate in a wide variety of mammalian cells. An EBV/human ori vector is used to carry the system, overcoming the species specificity of conventional Epstein-Barr virus vectors. By placing the transcriptional transactivator gene under autoregulation, better induction characteristics are obtained. This system offers greater speed and sensitivity than previously reported methods. It can be applied within 3-4 weeks and produces an induction range of several hundred-fold with a low background.

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Edward J. Baba

Epstein–Barr Virus/Human Vector Provides High-Level, Long-Term Expression of α1-Antitrypsin in Mice

Epstein‐Barr Virus Vectors Provide Prolonged Robust Factor IX Expression in Mice

An extrachromosomal tetracycline-regulatable system for mammalian cells

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