Literature DB >> 18498248

A chemical screen in diverse breast cancer cell lines reveals genetic enhancers and suppressors of sensitivity to PI3K isoform-selective inhibition.

Neil E Torbett1, Antonio Luna-Moran, Zachary A Knight, Andrew Houk, Mark Moasser, William Weiss, Kevan M Shokat, David Stokoe.   

Abstract

The PI3K (phosphoinositide 3-kinase) pathway regulates cell proliferation, survival and migration and is consequently of great interest for targeted cancer therapy. Using a panel of small-molecule PI3K isoform-selective inhibitors in a diverse set of breast cancer cell lines, we have demonstrated that the biochemical and biological responses were highly variable and dependent on the genetic alterations present. p110alpha inhibitors were generally effective in inhibiting the phosphorylation of PKB (protein kinase B)/Akt and S6, two downstream components of PI3K signalling, in most cell lines examined. In contrast, p110beta-selective inhibitors only reduced PKB/Akt phosphorylation in PTEN (phosphatase and tensin homologue deleted on chromosome 10) mutant cell lines, and was associated with a lesser decrease in S6 phosphorylation. PI3K inhibitors reduced cell viability by causing cell-cycle arrest in the G(1) phase, with multi-targeted inhibitors causing the most potent effects. Cells expressing mutant Ras were resistant to the cell-cycle effects of PI3K inhibition, which could be reversed using inhibitors of Ras signalling pathways. Taken together, our data indicate that these compounds, alone or in suitable combinations, may be useful as breast cancer therapeutics, when used in appropriate genetic contexts.

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Year:  2008        PMID: 18498248      PMCID: PMC3079392          DOI: 10.1042/BJ20080639

Source DB:  PubMed          Journal:  Biochem J        ISSN: 0264-6021            Impact factor:   3.857


  50 in total

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Journal:  Oncogene       Date:  1999-11-25       Impact factor: 9.867

2.  PI 3-kinase p110beta: a new target for antithrombotic therapy.

Authors:  Shaun P Jackson; Simone M Schoenwaelder; Isaac Goncalves; Warwick S Nesbitt; Cindy L Yap; Christine E Wright; Vijaya Kenche; Karen E Anderson; Sacha M Dopheide; Yuping Yuan; Sharelle A Sturgeon; Hishani Prabaharan; Philip E Thompson; Gregg D Smith; Peter R Shepherd; Nathalie Daniele; Suhasini Kulkarni; Belinda Abbott; Dilek Saylik; Catherine Jones; Lucy Lu; Simon Giuliano; Sascha C Hughan; James A Angus; Alan D Robertson; Hatem H Salem
Journal:  Nat Med       Date:  2005-04-17       Impact factor: 53.440

3.  PIK3CA mutations correlate with hormone receptors, node metastasis, and ERBB2, and are mutually exclusive with PTEN loss in human breast carcinoma.

Authors:  Lao H Saal; Karolina Holm; Matthew Maurer; Lorenzo Memeo; Tao Su; Xiaomei Wang; Jennifer S Yu; Per-Olof Malmström; Mahesh Mansukhani; Jens Enoksson; Hanina Hibshoosh; Ake Borg; Ramon Parsons
Journal:  Cancer Res       Date:  2005-04-01       Impact factor: 12.701

Review 4.  Synthesis and function of 3-phosphorylated inositol lipids.

Authors:  B Vanhaesebroeck; S J Leevers; K Ahmadi; J Timms; R Katso; P C Driscoll; R Woscholski; P J Parker; M D Waterfield
Journal:  Annu Rev Biochem       Date:  2001       Impact factor: 23.643

5.  5' phospholipid phosphatase SHIP-2 causes protein kinase B inactivation and cell cycle arrest in glioblastoma cells.

Authors:  V Taylor; M Wong; C Brandts; L Reilly; N M Dean; L M Cowsert; S Moodie; D Stokoe
Journal:  Mol Cell Biol       Date:  2000-09       Impact factor: 4.272

6.  Phosphatidylinositol 3-kinase translocates to the nucleus of osteoblast-like MC3T3-E1 cells in response to insulin-like growth factor I and platelet-derived growth factor but not to the proapoptotic cytokine tumor necrosis factor alpha.

Authors:  A M Martelli; P Borgatti; R Bortul; M Manfredini; L Massari; S Capitani; L M Neri
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7.  Roles of PLC-beta2 and -beta3 and PI3Kgamma in chemoattractant-mediated signal transduction.

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Review 8.  The PI3K-PDK1 connection: more than just a road to PKB.

Authors:  B Vanhaesebroeck; D R Alessi
Journal:  Biochem J       Date:  2000-03-15       Impact factor: 3.857

Review 9.  The role of genetic abnormalities of PTEN and the phosphatidylinositol 3-kinase pathway in breast and ovarian tumorigenesis, prognosis, and therapy.

Authors:  G B Mills; Y Lu; X Fang; H Wang; A Eder; M Mao; R Swaby; K W Cheng; D Stokoe; K Siminovitch; R Jaffe; J Gray
Journal:  Semin Oncol       Date:  2001-10       Impact factor: 4.929

10.  Inhibition of phosphatidylinositol-3-kinase causes cell death through a protein kinase B (PKB)-dependent mechanism and growth arrest through a PKB-independent mechanism.

Authors:  Alexander R Gottschalk; Albert Doan; Jean L Nakamura; Daphne A Haas-Kogan; David Stokoe
Journal:  Int J Radiat Oncol Biol Phys       Date:  2005-03-15       Impact factor: 7.038
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  60 in total

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Journal:  J Biol Chem       Date:  2010-03-17       Impact factor: 5.157

2.  Activity of any class IA PI3K isoform can sustain cell proliferation and survival.

Authors:  Lazaros C Foukas; Inma M Berenjeno; Alexander Gray; Asim Khwaja; Bart Vanhaesebroeck
Journal:  Proc Natl Acad Sci U S A       Date:  2010-06-07       Impact factor: 11.205

Review 3.  Inhibitors of phosphatidylinositol-3-kinase in cancer therapy.

Authors:  Nathan T Ihle; Garth Powis
Journal:  Mol Aspects Med       Date:  2010-02-20

4.  PTEN restoration and PIK3CB knockdown synergistically suppress glioblastoma growth in vitro and in xenografts.

Authors:  Hongbo Chen; Lin Mei; Lanzhen Zhou; Xiaomeng Shen; Caiping Guo; Yi Zheng; Huijun Zhu; Yongqiang Zhu; Laiqiang Huang
Journal:  J Neurooncol       Date:  2010-12-29       Impact factor: 4.130

Review 5.  PI3Kβ-A Versatile Transducer for GPCR, RTK, and Small GTPase Signaling.

Authors:  Anne R Bresnick; Jonathan M Backer
Journal:  Endocrinology       Date:  2019-03-01       Impact factor: 4.736

6.  CRKL Mediates p110β-Dependent PI3K Signaling in PTEN-Deficient Cancer Cells.

Authors:  Jing Zhang; Xueliang Gao; Fabienne Schmit; Guillaume Adelmant; Michael J Eck; Jarrod A Marto; Jean J Zhao; Thomas M Roberts
Journal:  Cell Rep       Date:  2017-07-18       Impact factor: 9.423

7.  Rapid induction of apoptosis by PI3K inhibitors is dependent upon their transient inhibition of RAS-ERK signaling.

Authors:  Marie Will; Alice Can Ran Qin; Weiyi Toy; Zhan Yao; Vanessa Rodrik-Outmezguine; Claudia Schneider; Xiaodong Huang; Prashant Monian; Xuejun Jiang; Elisa de Stanchina; José Baselga; Ningshu Liu; Sarat Chandarlapaty; Neal Rosen
Journal:  Cancer Discov       Date:  2014-01-16       Impact factor: 39.397

8.  Basal subtype and MAPK/ERK kinase (MEK)-phosphoinositide 3-kinase feedback signaling determine susceptibility of breast cancer cells to MEK inhibition.

Authors:  Olga K Mirzoeva; Debopriya Das; Laura M Heiser; Sanchita Bhattacharya; Doris Siwak; Rina Gendelman; Nora Bayani; Nicholas J Wang; Richard M Neve; Yinghui Guan; Zhi Hu; Zachary Knight; Heidi S Feiler; Philippe Gascard; Bahram Parvin; Paul T Spellman; Kevan M Shokat; Andrew J Wyrobek; Mina J Bissell; Frank McCormick; Wen-Lin Kuo; Gordon B Mills; Joe W Gray; W Michael Korn
Journal:  Cancer Res       Date:  2009-01-15       Impact factor: 12.701

Review 9.  The PI3K pathway as drug target in human cancer.

Authors:  Kevin D Courtney; Ryan B Corcoran; Jeffrey A Engelman
Journal:  J Clin Oncol       Date:  2010-01-19       Impact factor: 44.544

10.  mTOR and cancer: many loops in one pathway.

Authors:  Alejo Efeyan; David M Sabatini
Journal:  Curr Opin Cell Biol       Date:  2009-11-27       Impact factor: 8.382
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