The fetal mouse is a sensitive genotoxicity model that exposes lentiviral-associated mutagenesis resulting in liver oncogenesis

Ali Nowrouzi, Wing T. Cheung, Tingting Li, Xuegong Zhang, Anne Arens, Anna Paruzynski, Simon N. Waddington, Emma Osejindu, Safia Reja, Christof Von Kalle, Yoahe Wang, Faisal Al-Allaf, Lisa Gregory, Matthew Themes, Maxine Holder, Niraja Dighe, Alaine Ruthe, Suzanne M K Buckley, Brian Bigger, Eugenio MontiniAdrian J. Thrasher, Robert Andrews, Terry P. Roberts, Robert F. Newbold, Charles Coutelle, Manfred Schmidt, Mike Themis

    Research output: Contribution to journalArticlepeer-review

    Abstract

    Genotoxicity models are extremely important to assess retroviral vector biosafety before gene therapy. We have developed an in utero model that demonstrates that hepatocellular carcinoma (HCC) development is restricted to mice receiving nonprimate (np) lentiviral vectors (LV) and does not occur when a primate (p) LV is used regardless of woodchuck post-translation regulatory element (WPRE) mutations to prevent truncated X gene expression. Analysis of 839 npLV and 244 pLV integrations in the liver genomes of vector-treated mice revealed clear differences between vector insertions in gene dense regions and highly expressed genes, suggestive of vector preference for insertion or clonal outgrowth. In npLV-associated clonal tumors, 56% of insertions occurred in oncogenes or genes associated with oncogenesis or tumor suppression and surprisingly, most genes examined (11/12) had reduced expression as compared with control livers and tumors. Two examples of vector-inserted genes were the Park 7 oncogene and Uvrag tumor suppressor gene. Both these genes and their known interactive partners had differential expression profiles. Interactive partners were assigned to networks specific to liver disease and HCC via ingenuity pathway analysis. The fetal mouse model not only exposes the genotoxic potential of vectors intended for gene therapy but can also reveal genes associated with liver oncogenesis. © The American Society of Gene &Cell Therapy.
    Original languageEnglish
    Pages (from-to)324-337
    Number of pages13
    JournalMolecular Therapy
    Volume21
    Issue number2
    DOIs
    Publication statusPublished - Feb 2013

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