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Preventing and exploiting the oncogenic potential of integrating gene vectors
Ute Modlich, Christopher Baum
Ute Modlich, Christopher Baum
Published March 23, 2009
Citation Information: J Clin Invest. 2009;119(4):755-758. https://doi.org/10.1172/JCI38831.
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Commentary

Preventing and exploiting the oncogenic potential of integrating gene vectors

Abstract

Gene therapy requires efficient gene delivery to cure or prevent disease by modifying the genome of somatic cells. However, gene vectors, which insert themselves into the host genome in order to achieve persistent protein expression, can trigger oncogenesis by upregulating cellular protooncogenes. This adverse event, known as insertional mutagenesis, has become a major hurdle in the field. Vectors developed on the basis of lentiviruses are considered to be less genotoxic than the hitherto used γ-retroviral vectors. For their report in this issue of the JCI, Montini et al. utilized a tumor-prone mouse model to identify the genetic determinants of insertional mutagenesis (see the related article beginning on page 964). They report that the lentiviral integration pattern and additional improvements in vector design reduce the genotoxic risk. These findings will inform future vector design with the goal of limiting genotoxicity for gene therapy or increasing genotoxicity for protooncogene discovery.

Authors

Ute Modlich, Christopher Baum

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