Abstract
Acute T-cell lymphoblastic leukemia (T-ALL) is a malignant disorder of thymocyte progenitors, accounting for 10-15% of pediatric acute lymphoblastic leukemia. The activation of NOTCH1 signaling in T-ALL, by either NOTCH1 (Weng A et al, Science, 2004) or FBW7 (Thompson BJ, J Exp Med, 2007) mutations, is one of the major events that contribute to disease development. DEPTOR emerges as an endogenous mTOR inhibitor, whose expression is low in most cancer cells but surprisingly high in multiple myeloma, resulting in activated AKT (Peterson TR et al, Cell, 2009). However, its implications in other hematological malignancies and the mechanism of regulation remains largely unknown. In this study, we present a novel NOTCH1-mediated transcriptional regulation of DEPTOR in T-ALL and show that DEPTOR is required for T-ALL cell proliferation and survival, and regulates T-ALL cell glucose metabolism via AKT activation.
In T-ALL cells, gamma-secretase inhibitor (GSI) treatments resulted in an appreciable decrease of deptor mRNA (Figure 1A) and protein levels (Figure 1B). We then analyzed 174 T-ALL patient specimens (Haferlach J, J Clin Oncol, 2010) and found the expression level of deptor was highly correlated with notch1 and hes1 (Figure 1C). Sequence analyses within the deptor promoter revealed two CSL binding consensus sequences (Figure 1D) and the results from chromatin immunoprecipitation (ChIP) assays indicated a strong physical interaction of ICN1 and the deptor promoter, which was abolished by gamma-secretase inhibition (Figure 1E). Taken together, our data demonstrate that NOTCH1 directly binds to the deptor promoter and activates transcription.
To understand its functional role in T-ALL, we depleted DEPTOR in HPB-ALL cells and observed dramatic decrease of cell viability (Figure 2A and 2B) and noticeable enhancement of cell apoptotic death (Figure 2C). Moreover, DEPTOR knockdown significantly reduced glucose uptake and lactate release (Figure 2D), very likely, due to impaired AKT activation reflected by decreased AKT phosphorylation at the Ser473 and Thr308 sites (Figure 2E). These findings provide strong evidence suggesting that high expression of DEPTOR is essential for maintaining T-ALL cell metabolism and survival through promoting AKT activation.
Our findings thus establish DEPTOR as a key regulator in mediating the crosstalk between NOTCH1 and AKT signaling pathways, two master oncogenic players in T-ALL. Furthermore, these data provide rationale of developing small molecules or biological agents targeting DEPTOR, in combination with current therapies, for T-ALL treatments.
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.
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