Anne-Nicole Brandenburger scite author profile

Although its dependence on the target cell type is well established, the cytopathogenicity of parvoviruses has remained elusive to date as far as its mechanism is concerned. However, indirect evidence suggested that parvoviral non‐structural (NS) proteins may be the cytotoxic effectors. In order to test this hypothesis, a molecular clone of parvovirus MVMp was modified, by replacing the P4 promoter of the NS transcription unit by the glucocorticoid‐inducible promoter of the mouse mammary tumour virus. Clones of neoplastic human cells that had incorporated this construct and that were induced to produce NS proteins by dexamethasone, showed a cytopathic effect and eventually died. Our data strongly suggest that the intracellular accumulation of parvoviral NS products jeopardizes the survival of the cells, which cannot be detected unless a threshold protein concentration is reached. Interestingly, a cell variant could be isolated which resisted dexamethasone‐induced killing, although it was fully inducible for the production of NS proteins. This variant was also unusually resistant to infection with MVMp virions, thus confirming the essential role played by the NS proteins in the parvoviral cytotoxicity and indicating that the cytocidal activity of the parvoviral NS products is modulated by cellular factors that may vary from one cell to another.

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NS-1 and NS-2 proteins may act synergistically in the cytopathogenicity of parvovirus MVMp

Brandenburger

Legendre

Avalosse

et al. 1990

Virology

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A new genetic method to generate and isolate small, short-lived but highly potent dendritic cell-tumor cell hybrid vaccines

Phan

Errington

Cheong

et al. 2003

Nat Med

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Fusion of tumor cells with antigen-presenting cells (APCs) has been proposed for the preparation of cancer vaccines. However, generation of these hybrids, using physical or chemical methods such as electrofusion or polyethylene glycol (PEG), has been difficult to standardize. Characterization of cell fusion has also been problematic because of difficulties in differentiating fusion from cell aggregation, leakage of cellular dyes and dendritic-cell (DC) phagocytosis of tumor material. In this report, we describe a new method to generate hybrid cell vaccines, based on gene transfer of a viral fusogenic membrane glycoprotein (FMG) into tumor cells, and incorporate a genetic method by which true hybrid formation can be unambiguously detected. We describe a new class of tumor cell-DC hybrid that can be rapidly isolated after cell fusion. These hybrids are highly potent in in vitro antigen presentation assays, target lymph nodes in vivo and are powerful immunogens against established metastatic disease.

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Commentary: Genetic modification through oligonucleotide-mediated mutagenesis. A GMO regulatory challenge?

Breyer

Herman

Brandenburger

et al. 2009

Environ. Biosafety Res.

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In the European Union, the definition of a GMO is technology-based. This means that a novel organism will be regulated under the GMO regulatory framework only if it has been developed with the use of defined techniques. This approach is now challenged with the emergence of new techniques. In this paper, we describe regulatory and safety issues associated with the use of oligonucleotide-mediated mutagenesis to develop novel organisms. We present scientific arguments for not having organisms developed through this technique fall within the scope of the EU regulation on GMOs. We conclude that any political decision on this issue should be taken on the basis of a broad reflection at EU level, while avoiding discrepancies at international level.

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Influence of Sequence and Size of DNA on Packaging Efficiency of Parvovirus MVM-Based Vectors

Brandenburger

Coessens²,

Bakkouri³

et al. 1999

Human Gene Therapy

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We have derived a vector from the autonomous parvovirus MVM(p), which expresses human IL-2 specifically in transformed cells (Russell et al., J. Virol 1992;66:2821-2828). Testing the therapeutic potential of these vectors in vivo requires high-titer stocks. Stocks with a titer of 10(9) can be obtained after concentration and purification (Avalosse et al., J. Virol. Methods 1996;62:179-183), but this method requires large culture volumes and cannot easily be scaled up. We wanted to increase the production of recombinant virus at the initial transfection step. Poor vector titers could be due to inadequate genome amplification or to inefficient packaging. Here we show that intracellular amplification of MVM vector genomes is not the limiting factor for vector production. Several vector genomes of different size and/or structure were amplified to an equal extent. Their amplification was also equivalent to that of a cotransfected wild-type genome. We did not observe any interference between vector and wild-type genomes at the level of DNA amplification. Despite equivalent genome amplification, vector titers varied greatly between the different genomes, presumably owing to differences in packaging efficiency. Genomes with a size close to 100% that of wild type were packaged most efficiently with loss of efficiency at lower and higher sizes. However, certain genomes of identical size showed different packaging efficiencies, illustrating the importance of the DNA sequence, and probably its structure.

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Varying sensitivity of human mammary carcinoma cells to the toxic effect of parvovirus H-1

Pachterbeke

Tuynder

Brandenburger

et al. 1997

European Journal of Cancer

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Transformation-dependent expression of interleukin genes delivered by a recombinant parvovirus

Russell

Brandenburger

Flemming

et al. 1992

J Virol

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The prototype strain of minute virus of mice [MVM(p)l is an autonomous parvovirus with a tropism for cells expressing a neoplastically transformed phenotype. To generate gene transfer vectors for tumor-specific gene expression, human interleukin-2 (IL-2) and murine interleukin-4 (IL-4) genes were cloned under the control of the p38 late promoter of MVM(p). Upon transfection into permissive cells, the recombinant MVMIL2 or MVMIIL4 DNA was excised, amplified, and, in the presence of a helper plasmid, packaged into recombinant viral particles. The recombinant viruses were able to transfer fully functional IL-2 and IL-4 genes to permissive target cells and retained the oncotropic host range properties of the parental virus. Following infection with MVMIL2, nontransformed fibroblasts of rodent (FR3T3) or human (MRC-5) origin produced minimal IL-2 compared with the high levels of IL-2 production observed in their transformed derivatives (FREJ4 and MRC-SV1).

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Radiation-induced base substitution mutagenesis in single-stranded DNA phage M13

Brandenburger

Godson

Radman

et al. 1981

Nature

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