Literature DB >> 27974663

PIK3CA mutations enable targeting of a breast tumor dependency through mTOR-mediated MCL-1 translation.

Gray R Anderson1, Suzanne E Wardell1, Merve Cakir1,2, Lorin Crawford1,3, Jim C Leeds1, Daniel P Nussbaum1,4, Pallavi S Shankar1, Ryan S Soderquist1, Elizabeth M Stein1, Jennifer P Tingley1, Peter S Winter1,5, Elizabeth K Zieser-Misenheimer1, Holly M Alley1, Alexander Yllanes1, Victoria Haney1, Kimberly L Blackwell6, Shannon J McCall7, Donald P McDonnell1, Kris C Wood8.   

Abstract

Therapies that efficiently induce apoptosis are likely to be required for durable clinical responses in patients with solid tumors. Using a pharmacological screening approach, we discovered that combined inhibition of B cell lymphoma-extra large (BCL-XL) and the mammalian target of rapamycin (mTOR)/4E-BP axis results in selective and synergistic induction of apoptosis in cellular and animal models of PIK3CA mutant breast cancers, including triple-negative tumors. Mechanistically, inhibition of mTOR/4E-BP suppresses myeloid cell leukemia-1 (MCL-1) protein translation only in PIK3CA mutant tumors, creating a synthetic dependence on BCL-XL This dual dependence on BCL-XL and MCL-1, but not on BCL-2, appears to be a fundamental property of diverse breast cancer cell lines, xenografts, and patient-derived tumors that is independent of the molecular subtype or PIK3CA mutational status. Furthermore, this dependence distinguishes breast cancers from normal breast epithelial cells, which are neither primed for apoptosis nor dependent on BCL-XL/MCL-1, suggesting a potential therapeutic window. By tilting the balance of pro- to antiapoptotic signals in the mitochondria, dual inhibition of MCL-1 and BCL-XL also sensitizes breast cancer cells to standard-of-care cytotoxic and targeted chemotherapies. Together, these results suggest that patients with PIK3CA mutant breast cancers may benefit from combined treatment with inhibitors of BCL-XL and the mTOR/4E-BP axis, whereas alternative methods of inhibiting MCL-1 and BCL-XL may be effective in tumors lacking PIK3CA mutations.
Copyright © 2016, American Association for the Advancement of Science.

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Year:  2016        PMID: 27974663      PMCID: PMC5626456          DOI: 10.1126/scitranslmed.aae0348

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  49 in total

1.  Selectively targeting Mcl-1 for the treatment of acute myelogenous leukemia and solid tumors.

Authors:  Gregory J Gores; Scott H Kaufmann
Journal:  Genes Dev       Date:  2012-02-15       Impact factor: 11.361

2.  Human breast cancer cells generated by oncogenic transformation of primary mammary epithelial cells.

Authors:  B Elenbaas; L Spirio; F Koerner; M D Fleming; D B Zimonjic; J L Donaher; N C Popescu; W C Hahn; R A Weinberg
Journal:  Genes Dev       Date:  2001-01-01       Impact factor: 11.361

Review 3.  PI3K and cancer: lessons, challenges and opportunities.

Authors:  David A Fruman; Christian Rommel
Journal:  Nat Rev Drug Discov       Date:  2014-02       Impact factor: 84.694

4.  BID preferentially activates BAK while BIM preferentially activates BAX, affecting chemotherapy response.

Authors:  Kristopher A Sarosiek; Xiaoke Chi; John A Bachman; Joshua J Sims; Joan Montero; Luv Patel; Annabelle Flanagan; David W Andrews; Peter Sorger; Anthony Letai
Journal:  Mol Cell       Date:  2013-09-26       Impact factor: 17.970

Review 5.  Current treatment strategies for inhibiting mTOR in cancer.

Authors:  Francesca Chiarini; Camilla Evangelisti; James A McCubrey; Alberto M Martelli
Journal:  Trends Pharmacol Sci       Date:  2014-12-11       Impact factor: 14.819

6.  Tamoxifen induces accumulation of MCF 7 human mammary carcinoma cells in the G0/G1 phase of the cell cycle.

Authors:  R L Sutherland; M D Green; R E Hall; R R Reddel; I W Taylor
Journal:  Eur J Cancer Clin Oncol       Date:  1983-05

7.  Targeting BCL2 with Venetoclax in Relapsed Chronic Lymphocytic Leukemia.

Authors:  Andrew W Roberts; Matthew S Davids; John M Pagel; Brad S Kahl; Soham D Puvvada; John F Gerecitano; Thomas J Kipps; Mary Ann Anderson; Jennifer R Brown; Lori Gressick; Shekman Wong; Martin Dunbar; Ming Zhu; Monali B Desai; Elisa Cerri; Sari Heitner Enschede; Rod A Humerickhouse; William G Wierda; John F Seymour
Journal:  N Engl J Med       Date:  2015-12-06       Impact factor: 91.245

8.  An ATP-competitive mammalian target of rapamycin inhibitor reveals rapamycin-resistant functions of mTORC1.

Authors:  Carson C Thoreen; Seong A Kang; Jae Won Chang; Qingsong Liu; Jianming Zhang; Yi Gao; Laurie J Reichling; Taebo Sim; David M Sabatini; Nathanael S Gray
Journal:  J Biol Chem       Date:  2009-01-15       Impact factor: 5.157

9.  Myeloid cell leukemia-1 is an important apoptotic survival factor in triple-negative breast cancer.

Authors:  C M Goodwin; O W Rossanese; E T Olejniczak; S W Fesik
Journal:  Cell Death Differ       Date:  2015-06-05       Impact factor: 15.828

10.  Potent and selective small-molecule MCL-1 inhibitors demonstrate on-target cancer cell killing activity as single agents and in combination with ABT-263 (navitoclax).

Authors:  J D Leverson; H Zhang; J Chen; S K Tahir; D C Phillips; J Xue; P Nimmer; S Jin; M Smith; Y Xiao; P Kovar; A Tanaka; M Bruncko; G S Sheppard; L Wang; S Gierke; L Kategaya; D J Anderson; C Wong; J Eastham-Anderson; M J C Ludlam; D Sampath; W J Fairbrother; I Wertz; S H Rosenberg; C Tse; S W Elmore; A J Souers
Journal:  Cell Death Dis       Date:  2015-01-15       Impact factor: 8.469
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  20 in total

1.  Therapeutic Enhancement of Verteporfin-mediated Photodynamic Therapy by mTOR Inhibitors.

Authors:  Daniel Kraus; Pratheeba Palasuberniam; Bin Chen
Journal:  Photochem Photobiol       Date:  2019-12-17       Impact factor: 3.421

2.  Tyrosine Kinase Inhibitors Increase MCL1 Degradation and in Combination with BCLXL/BCL2 Inhibitors Drive Prostate Cancer Apoptosis.

Authors:  Seiji Arai; Oliver Jonas; Matthew A Whitman; Eva Corey; Steven P Balk; Sen Chen
Journal:  Clin Cancer Res       Date:  2018-07-18       Impact factor: 12.531

Review 3.  Therapy resistance: opportunities created by adaptive responses to targeted therapies in cancer.

Authors:  Marilyne Labrie; Joan S Brugge; Gordon B Mills; Ioannis K Zervantonakis
Journal:  Nat Rev Cancer       Date:  2022-03-09       Impact factor: 69.800

Review 4.  Protein synthesis control in cancer: selectivity and therapeutic targeting.

Authors:  Joanna R Kovalski; Duygu Kuzuoglu-Ozturk; Davide Ruggero
Journal:  EMBO J       Date:  2022-03-22       Impact factor: 14.012

5.  Systems modeling accurately predicts responses to genotoxic agents and their synergism with BCL-2 inhibitors in triple negative breast cancer cells.

Authors:  Federico Lucantoni; Andreas U Lindner; Norma O'Donovan; Heiko Düssmann; Jochen H M Prehn
Journal:  Cell Death Dis       Date:  2018-01-19       Impact factor: 8.469

6.  Dysregulation of mitochondrial dynamics proteins are a targetable feature of human tumors.

Authors:  Gray R Anderson; Suzanne E Wardell; Merve Cakir; Catherine Yip; Yeong-Ran Ahn; Moiez Ali; Alexander P Yllanes; Christina A Chao; Donald P McDonnell; Kris C Wood
Journal:  Nat Commun       Date:  2018-04-26       Impact factor: 14.919

7.  A network modeling approach to elucidate drug resistance mechanisms and predict combinatorial drug treatments in breast cancer.

Authors:  Jorge Gómez Tejeda Zañudo; Maurizio Scaltriti; Réka Albert
Journal:  Cancer Converg       Date:  2017-12-29

8.  Intrinsic apoptotic pathway activation increases response to anti-estrogens in luminal breast cancers.

Authors:  Michelle M Williams; Linus Lee; Thomas Werfel; Meghan M Morrison Joly; Donna J Hicks; Bushra Rahman; David Elion; Courtney McKernan; Violeta Sanchez; Monica V Estrada; Suleiman Massarweh; Richard Elledge; Craig Duvall; Rebecca S Cook
Journal:  Cell Death Dis       Date:  2018-01-17       Impact factor: 8.469

9.  Analysis of EGFR, KRAS, and PIK3CA gene mutation rates and clinical distribution in patients with different types of lung cancer.

Authors:  Shuo Li; Xinju Li
Journal:  World J Surg Oncol       Date:  2021-07-03       Impact factor: 2.754

10.  ER+ Breast Cancer Strongly Depends on MCL-1 and BCL-xL Anti-Apoptotic Proteins.

Authors:  Clara Alcon; Jorge Gómez Tejeda Zañudo; Reka Albert; Nikhil Wagle; Maurizio Scaltriti; Anthony Letai; Josep Samitier; Joan Montero
Journal:  Cells       Date:  2021-07-02       Impact factor: 6.600
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