Literature DB >> 21157436

Notable reduction in illegitimate integration mediated by a PPT-deleted, nonintegrating lentiviral vector.

Boris Kantor1, Matthew Bayer, Hong Ma, Jude Samulski, Chengwen Li, Thomas McCown, Tal Kafri.   

Abstract

Nonintegrating lentiviral vectors present a means of reducing the risk of insertional mutagenesis in nondividing cells and enabling short-term expression of potentially hazardous gene products. However, residual, integrase-independent integration raises a concern that may limit the usefulness of this system. Here we present a novel 3' polypurine tract (PPT)-deleted lentiviral vector that demonstrates impaired integration efficiency and, when packaged into integrase-deficient particles, significantly reduced illegitimate integration. Cells transduced with PPT-deleted vectors exhibited predominantly 1-long terminal repeat (LTR) circles and a low level of linear genomes after reverse transcription (RT). Importantly, the PPT-deleted vector exhibited titers and in vitro and in vivo expression levels matching those of conventional nonintegrating lentiviral vectors. This safer nonintegrating lentiviral vector system will support emerging technologies, such as those based on transient expression of zinc-finger nucleases (ZFNs) for gene editing, as well as reprogramming factors for inducing pluripotency.

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Year:  2010        PMID: 21157436      PMCID: PMC3048187          DOI: 10.1038/mt.2010.277

Source DB:  PubMed          Journal:  Mol Ther        ISSN: 1525-0016            Impact factor:   11.454


  35 in total

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4.  Discontinuous plus-strand DNA synthesis in human immunodeficiency virus type 1-infected cells and in a partially reconstituted cell-free system.

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Journal:  J Virol       Date:  1997-12       Impact factor: 5.103

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7.  Effect of polypurine tract (PPT) mutations on human immunodeficiency virus type 1 replication: a virus with a completely randomized PPT retains low infectivity.

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Journal:  J Virol       Date:  1996-02       Impact factor: 5.103

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10.  The lentiviral-mediated Nurr1 genetic engineering mesenchymal stem cells protect dopaminergic neurons in a rat model of Parkinson's disease.

Authors:  Xiaoxiao Wang; Wenxin Zhuang; Wenyu Fu; Xiaocui Wang; E Lv; Fengjie Li; Shuanhu Zhou; Wolf-Dieter Rausch; Xin Wang
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