Literature DB >> 22045983

Defining the role of TORC1/2 in multiple myeloma.

Patricia Maiso1, Yi Liu, Brittany Morgan, Abdel Kareem Azab, Pingda Ren, Michel B Martin, Yong Zhang, Yang Liu, Antonio Sacco, Hai Ngo, Feda Azab, Phong Quang, Scott J Rodig, Charles P Lin, Aldo M Roccaro, Christian Rommel, Irene M Ghobrial.   

Abstract

Mammalian target of rapamycin (mTOR) is a downstream serine/threonine kinase of the PI3K/Akt pathway that integrates signals from the tumor microenvironment to regulate multiple cellular processes. Rapamycin and its analogs have not shown significant activity in multiple myeloma (MM), likely because of the lack of inhibition of TORC2. In the present study, we investigated the baseline activity of the PI3K/Akt/mTOR pathway TORC1/2 in MM cell lines with different genetic abnormalities. TORC1/2 knock-down led to significant inhibition of the proliferation of MM cells, even in the presence of BM stromal cells. We also tested INK128, a dual TORC1/2 inhibitor, as a new therapeutic agent against these MM cell lines. We showed that dual TORC1/2 inhibition is much more active than TORC1 inhibition alone (rapamycin), even in the presence of cytokines or stromal cells. In vitro and in vivo studies showed that p-4EBP1 and p-Akt inhibition could be predictive markers of TORC2 inhibition in MM cell lines. Dual TORC1/2 inhibition showed better inhibition of adhesion to BM microenvironmental cells and inhibition of homing in vivo. These studies form the basis for further clinical testing of TORC1/2 inhibitors in MM.

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Year:  2011        PMID: 22045983      PMCID: PMC3245208          DOI: 10.1182/blood-2011-03-342394

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  35 in total

1.  Constitutive reductions in mTOR alter cell size, immune cell development, and antibody production.

Authors:  Shuling Zhang; Julie A Readinger; Wendy DuBois; Mirkka Janka-Junttila; Richard Robinson; Margaret Pruitt; Val Bliskovsky; Julie Z Wu; Kaori Sakakibara; Jyoti Patel; Carole A Parent; Lino Tessarollo; Pamela L Schwartzberg; Beverly A Mock
Journal:  Blood       Date:  2010-11-15       Impact factor: 22.113

Review 2.  Dissecting the role of mTOR: lessons from mTOR inhibitors.

Authors:  Ryan J O Dowling; Ivan Topisirovic; Bruno D Fonseca; Nahum Sonenberg
Journal:  Biochim Biophys Acta       Date:  2009-12-11

3.  Rapamycin sensitizes multiple myeloma cells to apoptosis induced by dexamethasone.

Authors:  Thomas Strömberg; Anna Dimberg; Anna Hammarberg; Kristina Carlson; Anders Osterborg; Kenneth Nilsson; Helena Jernberg-Wiklund
Journal:  Blood       Date:  2003-12-24       Impact factor: 22.113

4.  Enhanced sensitivity of multiple myeloma cells containing PTEN mutations to CCI-779.

Authors:  Yijiang Shi; Joseph Gera; Liping Hu; Jung-hsin Hsu; Robert Bookstein; Weiqun Li; Alan Lichtenstein
Journal:  Cancer Res       Date:  2002-09-01       Impact factor: 12.701

5.  PTEN, but not SHIP and SHIP2, suppresses the PI3K/Akt pathway and induces growth inhibition and apoptosis of myeloma cells.

Authors:  Yong Choi; Jie Zhang; Cristina Murga; Hong Yu; Erich Koller; Brett P Monia; J Silvio Gutkind; Weiqun Li
Journal:  Oncogene       Date:  2002-08-08       Impact factor: 9.867

Review 6.  Multiple roles of the PI3K/PKB (Akt) pathway in cell cycle progression.

Authors:  Jiyong Liang; Joyce M Slingerland
Journal:  Cell Cycle       Date:  2003 Jul-Aug       Impact factor: 4.534

7.  The magnitude of Akt/phosphatidylinositol 3'-kinase proliferating signaling is related to CD45 expression in human myeloma cells.

Authors:  Géraldine Descamps; Catherine Pellat-Deceunynck; Yann Szpak; Régis Bataille; Nelly Robillard; Martine Amiot
Journal:  J Immunol       Date:  2004-10-15       Impact factor: 5.422

8.  Preferential killing of PTEN-null myelomas by PI3K inhibitors through Akt pathway.

Authors:  Jie Zhang; Yong Choi; Blanche Mavromatis; Alan Lichtenstein; Weiqun Li
Journal:  Oncogene       Date:  2003-09-18       Impact factor: 9.867

Review 9.  Target of rapamycin (TOR): an integrator of nutrient and growth factor signals and coordinator of cell growth and cell cycle progression.

Authors:  Diane C Fingar; John Blenis
Journal:  Oncogene       Date:  2004-04-19       Impact factor: 9.867

10.  Specific roles for the PI3K and the MEK-ERK pathway in IGF-1-stimulated chemotaxis, VEGF secretion and proliferation of multiple myeloma cells: study in the 5T33MM model.

Authors:  E Menu; R Kooijman; E Van Valckenborgh; K Asosingh; M Bakkus; B Van Camp; K Vanderkerken
Journal:  Br J Cancer       Date:  2004-03-08       Impact factor: 7.640
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  40 in total

Review 1.  Bortezomib combination therapy in multiple myeloma.

Authors:  Prashant Kapoor; Vijay Ramakrishnan; S Vincent Rajkumar
Journal:  Semin Hematol       Date:  2012-07       Impact factor: 3.851

2.  Activity of everolimus (RAD001) in relapsed and/or refractory multiple myeloma: a phase I study.

Authors:  Andreas Günther; Philipp Baumann; Renate Burger; Christian Kellner; Wolfram Klapper; Ralf Schmidmaier; Martin Gramatzki
Journal:  Haematologica       Date:  2015-02-14       Impact factor: 9.941

3.  Autophagy is a survival mechanism of acute myelogenous leukemia precursors during dual mTORC2/mTORC1 targeting.

Authors:  Jessica K Altman; Amy Szilard; Dennis J Goussetis; Antonella Sassano; Marco Colamonici; Elias Gounaris; Olga Frankfurt; Francis J Giles; Elizabeth A Eklund; Elspeth M Beauchamp; Leonidas C Platanias
Journal:  Clin Cancer Res       Date:  2014-03-07       Impact factor: 12.531

Review 4.  mTOR kinase inhibitors as potential cancer therapeutic drugs.

Authors:  Shi-Yong Sun
Journal:  Cancer Lett       Date:  2013-06-20       Impact factor: 8.679

5.  Generation of a patient-derived chordoma xenograft and characterization of the phosphoproteome in a recurrent chordoma.

Authors:  Jason M Davies; Aaron E Robinson; Cynthia Cowdrey; Praveen V Mummaneni; Gregory S Ducker; Kevan M Shokat; Andrew Bollen; Byron Hann; Joanna J Phillips
Journal:  J Neurosurg       Date:  2013-11-29       Impact factor: 5.115

6.  Metabolic signature identifies novel targets for drug resistance in multiple myeloma.

Authors:  Patricia Maiso; Daisy Huynh; Michele Moschetta; Antonio Sacco; Yosra Aljawai; Yuji Mishima; John M Asara; Aldo M Roccaro; Alec C Kimmelman; Irene M Ghobrial
Journal:  Cancer Res       Date:  2015-03-13       Impact factor: 12.701

7.  Montelukast enhances cytocidal effects of carfilzomib in multiple myeloma by inhibiting mTOR pathway.

Authors:  Jia Tong; Qing Yu; Wenbin Xu; Wenjun Yu; Chao Wu; Yingli Wu; Hua Yan
Journal:  Cancer Biol Ther       Date:  2018-10-25       Impact factor: 4.742

8.  HIF-1α and rapamycin act as gerosuppressant in multiple myeloma cells upon genotoxic stress.

Authors:  Clémence Coudre; Julien Alani; William Ritchie; Véronique Marsaud; Brigitte Sola; Julie Cahu
Journal:  Cell Cycle       Date:  2016-06-24       Impact factor: 4.534

9.  mTOR Inhibitors at a Glance.

Authors:  Yin Zheng; Yu Jiang
Journal:  Mol Cell Pharmacol       Date:  2015

Review 10.  B-cell lymphoma mutations: improving diagnostics and enabling targeted therapies.

Authors:  José P Vaqué; Nerea Martínez; Ana Batlle-López; Cristina Pérez; Santiago Montes-Moreno; Margarita Sánchez-Beato; Miguel A Piris
Journal:  Haematologica       Date:  2014-02       Impact factor: 9.941
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