Abdelatif Karim scite author profile

Abdelatif Karim

3Publications

62Citation Statements Received

55Citation Statements Given

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Affiliations

Institut Jules Bordet, Université Libre de Bruxelles, St. James's Hospital

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Tumor-selective gene transduction and cell killing with an oncotropic autonomous parvovirus-based vector

Dupont¹,

Avalosse²,

Karim³

et al. 2000

Gene Ther

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A recombinant MVMp of the fibrotropic strain of minute virus of mice (MVMp) expressing the chloramphenicol acetyltransferase reporter gene was used to infect a series of biologically relevant cultured cells, normal or tumor-derived, including normal melanocytes versus melanoma cells, normal mammary epithelial cells versus breast adenocarcinoma cells, and normal neurons or astrocytes versus glioma cells. As a reference cell system we used normal human fibroblasts versus the SV40-transformed fibroblast cell line NB324K. After infection, we observed good expression of the reporter gene in the different tumor cell types, but only poor expression if any in the corresponding normal cells. We also constructed a recombinant MVMp expressing the green fluorescent protein reporter gene and assessed by flow cytometry the efficiency of gene transduction into the different target cells. At a multiplicity of infection of 30, we observed

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A novel MVMp-based vector system specifically designed to reduce the risk of replication-competent virus generation by homologous recombination

Dupont

Karim

et al. 2001

Gene Ther

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Recent work highlights the potential usefulness of MVMbased vectors as selective vehicles for cancer gene therapy (Dupont et al, Gene Therapy, 2000; 7: 790-796). To implement this strategy, however, it is necessary to develop optimized methods for producing high-titer, helper-free parvovirus stocks. Recombinants of MVMp (rMVMp) are currently generated by transiently co-transfecting permissive cell lines with a plasmid carrying the vector genome and a helper plasmid expressing the capsid genes (replaced with a foreign gene in the vector genome). The resulting stocks, however, are always heavily contaminated with replicationcompetent viruses (RCV), which precludes their use in vivo and particularly in gene therapy. In the present work we have developed a second-generation MVMp-based vector system specifically designed to reduce the probability of RCV generation by homologous recombination. We have constructed a new MVMp-based vector and a new helper genome with minimal sequence overlap and have used the degeneracy of the genetic code to further decrease vector-

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Oncoselective Parvoviral Vector-Mediated Gene Therapy of Cancer

et al. 2003

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Abdelatif Karim

Tumor-selective gene transduction and cell killing with an oncotropic autonomous parvovirus-based vector

A novel MVMp-based vector system specifically designed to reduce the risk of replication-competent virus generation by homologous recombination

Oncoselective Parvoviral Vector-Mediated Gene Therapy of Cancer

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