Generation and characterization of bioluminescent xenograft mouse models of MLL-related acute leukemias and in vivo evaluation of luciferase-targeting siRNA nanoparticles.

Chromosomal translocations involving the MLL gene on 11q23 present frequent abnormalities in pediatric, adult and therapy-related acute leukemias, and are generally associated with aggressive disease and poor prognosis. Here, we report bioluminescent acute leukemia xenograft mouse models of the most frequent and aggressive MLL-related acute leukemias (infant and adult MLL-AF9, MLL-ENL, MLL-AF4). Four acute leukemia cell lines carrying MLL-related translocations were stably transduced with a firefly luciferase transgene and injected intravenously into NOD/SCID mice. Leukemia progression was monitored by in vivo bioluminescence imaging (BLI). All mice developed MLL-related acute leukemia. The four MLL-related acute leukemia models showed a different course of infant and adult MLL-AF9 acute myeloid leukemia, and a rapid aggressiveness of MLL-ENL acute lymphoblastic leukemia and MLL-AF4 acute biphenotypic leukemia. Tissue analysis and RT-PCR of bone marrow, spleen and liver from the mice confirmed the BL results. To validate BLI for the detection of a therapeutic response, systemic treatment with an anti-luciferase-targeting siRNA (siLuc) complexed with cationic nanoparticles was administered to mice with MLL-AF4 acute lymphoblastic leukemia. The BLI signal showed a reduction following treatment with siLuc compared to the control mice. These mouse models present MLL-related acute leukemia evolution similar to the human counterparts. Moreover, they are non-invasive, rapid and sensitive models, suitable for the in vivo study of MLL-related acute leukemias. Finally, BLI showed in vivo luminescence down modulation obtained by systemic treatment with luciferase-targeting siRNA nanoparticle complexes, confirming that these MLL-related leukemia mouse models are optimal for the evaluation and selection of delivery systems for siRNA and other new biotechnological pharmaceuticals.