Abstract 2226: Mechanisms for cross-talk between Notch1 and AKT signaling in T-cell acute lymphoblastic leukemia

Pediatric T-cell acute lymphoblastic leukemia (T-ALL) has a variable prognosis, with many patients exhibiting high-risk features at diagnosis, including older age and high presenting white blood cell counts. Activating mutations involving the Notch1 heterodimerizeration and PEST domains occur in mor...

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Published in:Cancer research (Chicago, Ill.) Ill.), 2012-04, Vol.72 (8_Supplement), p.2226-2226
Main Authors: Hales, Eric Christopher, Orr, Steven, Gedman, Amanda Larson, Taub, Jeffrey, Matherly, Larry
Format: Article
Language:English
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Summary:Pediatric T-cell acute lymphoblastic leukemia (T-ALL) has a variable prognosis, with many patients exhibiting high-risk features at diagnosis, including older age and high presenting white blood cell counts. Activating mutations involving the Notch1 heterodimerizeration and PEST domains occur in more than 50% of T-ALL cases. Increased Notch1 activity promotes survival and proliferation of leukemic cells, in part by transcriptionally repressing PTEN (via HES1). This provides compelling rationale for the use of gamma secretase inhibitors (GSIs) to block Notch1 activation and to restore PTEN levels, which antagonize AKT signaling. Further, PTEN mutations are implicated in GSI resistance. PTEN activity is also modulated by an assortment of posttranslational modifications and Notch1 may regulate PTEN at the posttranslational level. To investigate the impact of Notch1 on AKT signaling, independent of its transcriptional regulation of PTEN, we used PTEN-null Jurkat cells with constitutively active Notch1 and conditional ectopic PTEN expression under control of a tetracycline (tet)-inducible promoter. Induction of PTEN was accompanied by increased phosphorylation of AKTT308, increased insulin-like growth factor 1 receptor (IGF1R) protein and transcripts, and increased Notch1. Increased AKTT308 phosphorylation was blocked with an IGF1R inhibitor (GSK1904259A) and was abolished in Jurkat cells expressing a tet-inducible G129R PTEN phosphatase-inactive mutant. This suggests that PTEN can activate AKT signaling by modulating IGF1R levels. In Jurkat cells, inhibition of Notch1, either through GSI treatment or shRNA knockdown (KD), resulted in increased phosphorylation of AKTT308. Although this result could involve Notch1-dependent decreased cMyc, reflecting indirect effects of cMyc on mTOR1 and negative feedback on AKT, this was not impacted by treatment with a cMyc inhibitor (10058-F4) or by ectopic overexpression of cMyc, suggesting that other effectors and mechanisms are involved. Microarray analysis was performed on wild-type and KD Jurkat cells. Using a 1.5-fold cutoff, 1208 differentially regulated genes were identified. These include PH domain leucine-rich repeat protein phosphatase-1 (PHLPP1) and prokineticin-2 (PROK2), both of which could significantly impact AKT phosphorylation in response to Notch1. By real-time RT-PCR, PHLPP1 was significantly decreased (∼4-fold), and PROK2 was significantly increased (∼6-fold) in Notch1 KD cells compared to wild-type cells
ISSN:0008-5472
1538-7445
DOI:10.1158/1538-7445.AM2012-2226