Literature DB >> 25186176

A therapeutically targetable mechanism of BCR-ABL-independent imatinib resistance in chronic myeloid leukemia.

Leyuan Ma1, Yi Shan2, Robert Bai1, Liting Xue3, Christopher A Eide4, Jianhong Ou3, Lihua J Zhu5, Lloyd Hutchinson6, Jan Cerny2, Hanna Jean Khoury7, Zhi Sheng8, Brian J Druker4, Shaoguang Li2, Michael R Green9.   

Abstract

Resistance to the BCR-ABL inhibitor imatinib mesylate (IM) poses a major problem for the treatment of chronic myeloid leukemia (CML). IM resistance often results from a secondary mutation in BCR-ABL that interferes with drug binding. However, in many instances, there is no mutation in BCR-ABL, and the basis of such BCR-ABL-independent IM resistance remains to be elucidated. To gain insight into BCR-ABL-independent IM resistance mechanisms, we performed a large-scale RNA interference screen and identified IM-sensitizing genes (IMSGs) whose knockdown renders BCR-ABL(+) cells IM-resistant. In these IMSG knockdown cells, RAF/mitogen-activated protein kinase kinase (MEK)/extracellular signal-regulated kinase (ERK) signaling is sustained after IM treatment because of up-regulation of PRKCH, which encodes the protein kinase C (PKC) family member PKCη, an activator of CRAF. PRKCH is also up-regulated in samples from CML patients with BCR-ABL-independent IM resistance. Combined treatment with IM and trametinib, a U.S. Food and Drug Administration-approved MEK inhibitor, synergistically kills BCR-ABL(+) IMSG knockdown cells and prolongs survival in mouse models of BCR-ABL-independent IM-resistant CML. Finally, we showed that CML stem cells contain high levels of PRKCH, and this contributes to their intrinsic IM resistance. Combined treatment with IM and trametinib synergistically kills CML stem cells with negligible effect on normal hematopoietic stem cells. Collectively, our results identify a therapeutically targetable mechanism of BCR-ABL-independent IM resistance in CML and CML stem cells.
Copyright © 2014, American Association for the Advancement of Science.

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Year:  2014        PMID: 25186176      PMCID: PMC4162097          DOI: 10.1126/scitranslmed.3009073

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


  67 in total

1.  Comprehensive predictive biomarker analysis for MEK inhibitor GSK1120212.

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Journal:  Mol Cancer Ther       Date:  2011-12-14       Impact factor: 6.261

2.  A framework for oligonucleotide microarray preprocessing.

Authors:  Benilton S Carvalho; Rafael A Irizarry
Journal:  Bioinformatics       Date:  2010-08-05       Impact factor: 6.937

3.  Primitive, quiescent, Philadelphia-positive stem cells from patients with chronic myeloid leukemia are insensitive to STI571 in vitro.

Authors:  Susan M Graham; Heather G Jørgensen; Elaine Allan; Charlie Pearson; Michael J Alcorn; Linda Richmond; Tessa L Holyoake
Journal:  Blood       Date:  2002-01-01       Impact factor: 22.113

4.  Second-generation shRNA libraries covering the mouse and human genomes.

Authors:  Jose M Silva; Mamie Z Li; Ken Chang; Wei Ge; Michael C Golding; Richard J Rickles; Despina Siolas; Guang Hu; Patrick J Paddison; Michael R Schlabach; Nihar Sheth; Jeff Bradshaw; Julia Burchard; Amit Kulkarni; Guy Cavet; Ravi Sachidanandam; W Richard McCombie; Michele A Cleary; Stephen J Elledge; Gregory J Hannon
Journal:  Nat Genet       Date:  2005-10-02       Impact factor: 38.330

5.  Chronic myeloid leukemia stem cells possess multiple unique features of resistance to BCR-ABL targeted therapies.

Authors:  X Jiang; Y Zhao; C Smith; M Gasparetto; A Turhan; A Eaves; C Eaves
Journal:  Leukemia       Date:  2007-03-01       Impact factor: 11.528

6.  Persistence of malignant hematopoietic progenitors in chronic myelogenous leukemia patients in complete cytogenetic remission following imatinib mesylate treatment.

Authors:  Ravi Bhatia; Melissa Holtz; Ning Niu; Rachel Gray; David S Snyder; Charles L Sawyers; Daniel A Arber; Marilyn L Slovak; Stephen J Forman
Journal:  Blood       Date:  2003-02-06       Impact factor: 22.113

Review 7.  Resistance of Philadelphia-chromosome positive leukemia towards the kinase inhibitor imatinib (STI571, Glivec): a targeted oncoprotein strikes back.

Authors:  N von Bubnoff; C Peschel; J Duyster
Journal:  Leukemia       Date:  2003-05       Impact factor: 11.528

8.  Protein kinase C activates the MEK-ERK pathway in a manner independent of Ras and dependent on Raf.

Authors:  Y Ueda; S i Hirai; S i Osada; A Suzuki; K Mizuno; S Ohno
Journal:  J Biol Chem       Date:  1996-09-20       Impact factor: 5.157

9.  Tyrosine phosphorylation of CRKL in Philadelphia+ leukemia.

Authors:  J ten Hoeve; R B Arlinghaus; J Q Guo; N Heisterkamp; J Groffen
Journal:  Blood       Date:  1994-09-15       Impact factor: 22.113

10.  Chronic myeloid leukemia stem cells are not dependent on Bcr-Abl kinase activity for their survival.

Authors:  Ashley Hamilton; G Vignir Helgason; Mirle Schemionek; Bin Zhang; Svetlana Myssina; Elaine K Allan; Franck E Nicolini; Carsten Müller-Tidow; Ravi Bhatia; Valerie G Brunton; Steffen Koschmieder; Tessa L Holyoake
Journal:  Blood       Date:  2011-12-19       Impact factor: 22.113
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  54 in total

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Journal:  Rev Physiol Biochem Pharmacol       Date:  2021       Impact factor: 5.545

2.  High IL-7 levels in the bone marrow microenvironment mediate imatinib resistance and predict disease progression in chronic myeloid leukemia.

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Journal:  Int J Hematol       Date:  2016-06-06       Impact factor: 2.490

3.  Prosurvival kinase PIM2 is a therapeutic target for eradication of chronic myeloid leukemia stem cells.

Authors:  Leyuan Ma; Magnolia L Pak; Jianhong Ou; Jun Yu; Pamela St Louis; Yi Shan; Lloyd Hutchinson; Shaoguang Li; Michael A Brehm; Lihua Julie Zhu; Michael R Green
Journal:  Proc Natl Acad Sci U S A       Date:  2019-05-08       Impact factor: 11.205

Review 4.  Molecular Mechanisms of Resistance to Tyrosine Kinase Inhibitors.

Authors:  Marjan Yaghmaie; Cecilia Cs Yeung
Journal:  Curr Hematol Malig Rep       Date:  2019-10       Impact factor: 3.952

5.  GCA links TRAF6-ULK1-dependent autophagy activation in resistant chronic myeloid leukemia.

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Journal:  Autophagy       Date:  2019-03-30       Impact factor: 16.016

6.  Enhanced CAR-T cell activity against solid tumors by vaccine boosting through the chimeric receptor.

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7.  Harnessing Gene Expression Profiles for the Identification of Ex Vivo Drug Response Genes in Pediatric Acute Myeloid Leukemia.

Authors:  David G J Cucchi; Costa Bachas; Marry M van den Heuvel-Eibrink; Susan T C J M Arentsen-Peters; Zinia J Kwidama; Gerrit J Schuurhuis; Yehuda G Assaraf; Valérie de Haas; Gertjan J L Kaspers; Jacqueline Cloos
Journal:  Cancers (Basel)       Date:  2020-05-15       Impact factor: 6.639

8.  Enhancing Virtual Screening Performance of Protein Kinases with Molecular Dynamics Simulations.

Authors:  Tavina L Offutt; Robert V Swift; Rommie E Amaro
Journal:  J Chem Inf Model       Date:  2016-10-03       Impact factor: 4.956

9.  Overcoming Resistance to Targeted Anticancer Therapies through Small-Molecule-Mediated MEK Degradation.

Authors:  Jessie Peh; Matthew W Boudreau; Hannah M Smith; Paul J Hergenrother
Journal:  Cell Chem Biol       Date:  2018-06-14       Impact factor: 8.116

10.  Combining the Allosteric Inhibitor Asciminib with Ponatinib Suppresses Emergence of and Restores Efficacy against Highly Resistant BCR-ABL1 Mutants.

Authors:  Christopher A Eide; Matthew S Zabriskie; Samantha L Savage Stevens; Orlando Antelope; Nadeem A Vellore; Hein Than; Anna Reister Schultz; Phillip Clair; Amber D Bowler; Anthony D Pomicter; Dongqing Yan; Anna V Senina; Wang Qiang; Todd W Kelley; Philippe Szankasi; Michael C Heinrich; Jeffrey W Tyner; Delphine Rea; Jean-Michel Cayuela; Dong-Wook Kim; Cristina E Tognon; Thomas O'Hare; Brian J Druker; Michael W Deininger
Journal:  Cancer Cell       Date:  2019-09-19       Impact factor: 31.743
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