Abstract
Acute lymphoblastic leukemia is the most common cause of cancer-related death in children and, especially for patients in a high-risk group, still represents a poor prognosis. The PI3K/AKT/mTOR signaling pathway has been identified as a frequently constitutively activated switching point in the disease of ALL. Despite the knowledge of the therapeutic importance of the signaling pathway, the results of clinically effective treatment strategies have so far been extremely sobering. In particular, monotherapy approaches represent a major problem with regard to cell resistance. In this work, the PI3K/AKT/mTOR signaling pathway was examined as a therapeutic target for the treatment of childhood acute lymphoblastic leukemia (ALL) with a new therapeutic approach to avoid cell resistance. Therefore, we used a combined therapeutic approach with inhibitors directed against AKT (MK2206), mTOR (RAD001) and the most prominent and aberrantly activated tyrosine kinase. In case of BCR-ABL-positive B-ALL cells we used a combination with the classic inhibitor Imatinib and in case of MLL-AF4-positive B-ALL cells we used a combination with Quizartinib (directed against FLT3). We show, in particular compared to the monotherapies, a highly significant inhibition of the growth of these cells after this new specific triple combination therapy. Furthermore, we show that inhibiting AKT alone leads to a feedback mechanism and an upregulation of the phosphorylation of a number of receptor-tyrosine-kinases. After isoform-specific knockdown of the three AKT isoforms in ALL cells we identified that especially ErbB2/Her2 is most strongly phosphorylated in cells with AKT2 knockdown. AKT isoform 1 and 2 knockdown cells show, in contrast to AKT isoform 3 knockdown cells, a weak proliferation and are presumably kept alive among others by the increased phosphorylation of the receptor-tyrosine-kinase ErbB2. This work provides first indications for a new combination therapy of B-ALL cells, which is directed against AKT, mTOR and a predominantly highly activated kinase.
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