Research Papers:
Harnessing the PI3K/Akt/mTOR pathway in T-cell acute lymphoblastic leukemia: Eliminating activity by targeting at different levels
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Abstract
Daniela Bressanin1,*, Camilla Evangelisti2,*, Francesca Ricci3, Giovanna Tabellini4, Francesca Chiarini2, Pier Luigi Tazzari3, Fraia Melchionda5, Francesca Buontempo1, Pasqualepaolo Pagliaro3, Andrea Pession5, James A. McCubrey6, Alberto M. Martelli1,2
1 Department of Human Anatomy, University of Bologna, Bologna, Italy;
2 Institute of Molecular Genetics, National Research Council-Rizzoli Orthopedic Institute, Bologna, Italy;
3 Immunohaematology and Transfusion Center, Policlinico S.Orsola-Malpighi, Bologna, Italy;
4 Department of Biomedical Sciences and Biotechnology, University of Brescia, Brescia, Italy;
5 Paediatric Oncology and Hematology Unit Lalla Seràgnoli, University of Bologna, Bologna, Italy;
6 Department of Microbiology & Immunology, School of Medicine, East Carolina University, Greenville, NC, USA.
* Denotes equal contribution
Correspondence:
Alberto M. Martelli, email:
Keywords: acute leukemia, targeted therapy, signal transduction modulators, PI3K/PDK1, vertical inhibition
Received: August 01, 2012, Accepted: August 04, 2012, Published: August 09, 2012
Abstract
T-cell acute lymphoblastic leukemia (T-ALL) is an aggressive malignant hematological disorder arising in the thymus from T-cell progenitors. T-ALL mainly affects children and young adults, and remains fatal in 20% of adolescents and 50% of adults, despite progress in polychemotherapy protocols. Therefore, innovative targeted therapies are desperately needed for patients with a dismal prognosis. Aberrant activation of PI3K/Akt/mTOR signaling is a common event in T-ALL patients and portends a poor prognosis. Preclinical studies have highlighted that modulators of PI3K/Akt/mTOR signaling could have a therapeutic relevance in T-ALL. However, the best strategy for inhibiting this highly complex signal transduction pathway is still unclear, as the pharmaceutical companies have disclosed an impressive array of small molecules targeting this signaling network at different levels. Here, we demonstrate that a dual PI3K/PDK1 inhibitor, NVP-BAG956, displayed the most powerful cytotoxic effects against T-ALL cell lines and primary patients samples, when compared with a pan class I PI3K inhibitor (GDC-0941), an allosteric Akt inhibitor (MK-2206), an mTORC1 allosteric inhibitor (RAD-001), or an ATP-competitive mTORC1/mTORC2 inhibitor (KU-63794). Moreover, we also document that combinations of some of the aforementioned drugs strongly synergized against T-ALL cells at concentrations well below their respective IC50. This observation indicates that vertical inhibition at different levels of the PI3K/Akt/mTOR network could be considered as a future innovative strategy for treating T-ALL patients.
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