In conclusion, our results uncover a functional antagonism between cooperative oncogenes during the earliest phases of tumor development and provide novel insights in the multi-step pathogenesis of TLX1-driven human leukemia.
Importantly, the disruption of the mitotic checkpoint in TLX1-induced tumors may be linked not only to the acquisition of secondary genetic alterations in T-ALL but also to increased sensitivity of these tumors to chemotherapy with drugs targeting the formation of the mitotic spindle.
Together, these data demonstrate that ALDH1A1 plays a key role in normal hematopoiesis, and confirm ALDH1A1 as a TLX1 transcriptional target that may contribute to the ability of this homeoprotein to alter cell fate and induce tumor growth.
BAC clones located proximal and distal of the HOX11/TCL3-locus were differently labeled and applied to interphase-FISH in seven normal controls and eight T-cell neoplasms with t(10;14)(q24;q11) or t(7;10)(q35;q24).
Evaluation of the expression of three T-cell malignancy associated genes showed that Rhombotin-2 (RBTN-2 also known as Lmo-2), TAL-1 (also known as SCL), and HOX-11 were expressed in 100%, 40%, and 0% of the murine tumors, respectively.
In order to assess whether HOX11 expression is present in other pediatric malignancies we examined a panel of 20 tumor cell lines established from solid tumors and leukemias, but none of them showed expression of HOX11.