We simultaneously transduced cells with three lentiviral gene ontology (LeGO) vectors encoding red, green or blue fluorescent proteins. Individual cells were thereby marked by different combinations of inserted vectors, resulting in the generation of numerous mixed colors, a principle we named red-green-blue (RGB) marking. We show that lentiviral vector-mediated RGB marking remained stable after cell division, thus facilitating the analysis of clonal cell fates in vitro and in vivo. Particularly, we provide evidence that RGB marking allows assessment of clonality after regeneration of injured livers by transplanted primary hepatocytes. We also used RGB vectors to mark hematopoietic stem/progenitor cells that generated colored spleen colonies. Finally, based on limiting-dilution and serial transplantation assays with tumor cells, we found that clonal tumor cells retained their specific color-code over extensive periods of time. We conclude that RGB marking represents a useful tool for cell clonality studies in tissue regeneration and pathology.
Constitutive activation of the PI3K/AKT signaling pathway is found in ~50-70% of AML patients. The SH2-containing inositol 5-phosphatase 1 (SHIP1) is a negative regulator of PI3K/AKT signaling in hematopoietic cells. SHIP1 knockout mice develop a myeloproliferative syndrome and concomitant deletion of SHIP1 and the tumor suppressor PTEN leads to the development of lethal B-cell lymphomas. In the study presented here, we investigated the role of SHIP1 as a tumor suppressor in myeloid leukemia cells in an in vivo xenograft transplantation model. NSG Mice transplanted with UKE-1 cells derived from a secondary AML showed a significantly extended lifespan after lentiviral-mediated overexpression of SHIP1 in comparison to the vector control cohort. In contrast, the AML-derived SHIP1 mutant, which has a strongly reduced enzymatic activity showed a significant reversion of the SHIP1-induced prolongation of the survival time. In addition, the analysis of 290 AML patients revealed a correlation between expression of SHIP1 and overall survival of the AML patients. These results indicate that SHIP1 can act as a tumor suppressor in acute myeloid leukemia cells and that higher SHIP1 expression is associated with prolonged overall survival in AML patients. SHIP1 may be an interesting candidate for gene therapy.
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