530. Development of New Lentiviral Vectors With a Reduced Splicing Interference Potential and a Safer In Vivo Genotoxic Profile

Abstract

The excellent therapeutic potential of self-inactivating (SIN) lentiviral vectors (LV) has been demonstrated in pre-clinical studies and clinical trials. However, weaker mechanisms of insertional mutagenesis could endanger their clinical applications. Systemic vector injection into newborn tumor-prone Cdkn2a-/- and Cdkn2a+/-mice, conducted in our previous work, demonstrated that SINLVs harboring strong or moderate enhancer/promoters in internal position caused acceleration in hematopoietic tumor onset with respect to control mice. Integration sites analyses of vector-induced tumor showed that oncogene activations or tumor suppressor inactivation by LV integrations occur by combining mechanisms of transcript truncation, induction of aberrant splicing and/or enhancer-mediated overexpression of cellular transcription units. Although oncogene activation may be reduced by the use of self-inactivating design, moderate cellular promoters and insulator sequences how to reduce genotoxic splicing-capture events and aberrant transcript formation triggered by vector integration is still unclear.From this and a previous study, we identified the LV sequences most frequently involved in chimeric transcript formation. In our rationale, these LV sequences could be tagged by sequences complementary to microRNAs (mirT sequence) active in hematopoietic cells in order to allow selective degradation, through the miRNA pathway, of vector-mediated aberrantly spliced transcripts. Hence, we specifically designed SIN LVs harboring mirT sequences recognized by mir223 and mir142-3p (that are expressed in hematopoietic lineages) within the SIN LTR (mirsT-LTR LV) or in the vector backbone and outside the gene expression cassette (mirT LV). We then assessed the genotoxicity of the SIN LVs harboring mirT sequences by taking advantage of our in vivo models. Interestingly, injection of mirsT-LTR LV (N=73) and mirT LV (N=73) in Cdkn2a-/- mice did not caused any significant acceleration in hematopoietic tumor onset compared to control un-injected mice (N=40). Similar results have been obtained after injection in Cdkn2a+/- mice (N=28 for mirsT-LTR LV, N=26 for mirT LV and N=34 un-injected mice). We are currently performing integration site analyses in Cdkn2a-/- and Cdkn2a+/- treated mice to dissect if and how the integrated mirsT-LTR LV and mirT LV proviral genome interacts with the surrounding cellular genome.Overall, these studies show that this new advanced design lentiviral vectors completely abrogated residual vector genotoxicity in highly sensitive mouse models and could represent the vector design of choice in future gene therapy applications.