Abstract
Constitutive phosphorylation of AKT is frequently found in acute leukemia. In a proportion of patients, activation of the PI3K/AKT pathway can be linked to gain-of-function tyrosine kinase mutations. We have previously shown that TKI only incompletely inactivate AKT signaling. PI3K/AKT pathway inhibitors are attractive for targeting this pathway. However, most inhibitors lead to G1/G0 arrest. Likely for this reason, response rates to PI3K inhibitor treatment were moderate in various neoplasms. We here demonstrate that the dual PI3K-MTORC1/2 inhibitor NVP-BEZ235, which is currently under clinical investigation in relapsed acute leukemia, mediates a profound G1/G0 arrest in cells harboring leukemia-driving FLT3 ITD or BCR-ABL1 mutations, impairing induction of apoptosis. Furthermore, combination with TKI or chemotherapy overcomes cellular resistance.
Proliferation and apoptosis assays were performed in leukemia cell lines, an isogenic Ba/F3 cell model harboring mutant-KIT, FLT3 or ABL1 isoforms and primary leukemic cells as well as healthy donor cells. Immunoblots were performed to study effects on AKT signaling pathways including downstream effectors of autophagy (p-ULK1), proliferation, cell cycle (p70S6Kinases, cyclinD, pRB) and apoptosis (caspases). Isobolograms were created to compute combination indices.
NVP-BEZ235 profoundly inhibited phosphorylation of AKT and p70S6K, leading to a potent antiproliferative effect in the low nanomolar range in most cell lines as well as patient blasts. However, no meaningful induction of apoptosis was observed. Instead, a sustained G1/G0 cell cycle arrest with dephosphorylation of RB and upregulation of cyclinD, induction of protective autophagy pathways (via ULK1) and absence of cleaved caspase 3 was detected. An isogenic Ba/F3 model confirmed the low proapoptotic efficacy especially for FLT3 ITD and BCR-ABL1. In an attempt to overcome NVP-BEZ235 induced cell cycle arrest, we co-treated leukemic cells with specific TK inhibitors or chemotherapeutics such as daunorubicin in a fixed dose-dilution ratio. Combination indices revealed additive to superadditive proapoptotic effects for all tested combinations.
We provide evidence that the antileukemic activity of NVP-BEZ235 in acute leukemia with mutations in tyrosine kinases is abrogated due to induction of profound G1/G0 cell cycle arrest which can be overcome by combination with TKI or chemotherapy.
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.
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