Literature DB >> 19965690

A small molecule inhibitor of Pim protein kinases blocks the growth of precursor T-cell lymphoblastic leukemia/lymphoma.

Ying-Wei Lin1, Zanna M Beharry, Elizabeth G Hill, Jin H Song, Wenxue Wang, Zuping Xia, Zhenhua Zhang, Peter D Aplan, Jon C Aster, Charles D Smith, Andrew S Kraft.   

Abstract

The serine/threonine Pim kinases are up-regulated in specific hematologic neoplasms, and play an important role in key signal transduction pathways, including those regulated by MYC, MYCN, FLT3-ITD, BCR-ABL, HOXA9, and EWS fusions. We demonstrate that SMI-4a, a novel benzylidene-thiazolidine-2, 4-dione small molecule inhibitor of the Pim kinases, kills a wide range of both myeloid and lymphoid cell lines with precursor T-cell lymphoblastic leukemia/lymphoma (pre-T-LBL/T-ALL) being highly sensitive. Incubation of pre-T-LBL cells with SMI-4a induced G1 phase cell-cycle arrest secondary to a dose-dependent induction of p27(Kip1), apoptosis through the mitochondrial pathway, and inhibition of the mammalian target of rapamycin C1 (mTORC1) pathway based on decreases in phospho-p70 S6K and phospho-4E-BP1, 2 substrates of this enzyme. In addition, treatment of these cells with SMI-4a was found to induce phosphorylation of extracellular signal-related kinase1/2 (ERK1/2), and the combination of SMI-4a and a mitogen-activated protein kinase kinase 1/2 (MEK1/2) inhibitor was highly synergistic in killing pre-T-LBL cells. In immunodeficient mice carrying subcutaneous pre-T-LBL tumors, treatment twice daily with SMI-4a caused a significant delay in the tumor growth without any change in the weight, blood counts, or chemistries. Our data suggest that inhibition of the Pim protein kinases may be developed as a therapeutic strategy for the treatment of pre-T-LBL.

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Year:  2009        PMID: 19965690      PMCID: PMC2941996          DOI: 10.1182/blood-2009-07-233445

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


  46 in total

1.  Pim-1 kinase promotes inactivation of the pro-apoptotic Bad protein by phosphorylating it on the Ser112 gatekeeper site.

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Journal:  FEBS Lett       Date:  2004-07-30       Impact factor: 4.124

2.  Delineation of prognostic biomarkers in prostate cancer.

Authors:  S M Dhanasekaran; T R Barrette; D Ghosh; R Shah; S Varambally; K Kurachi; K J Pienta; M A Rubin; A M Chinnaiyan
Journal:  Nature       Date:  2001-08-23       Impact factor: 49.962

3.  Constitutively activated FLT3 phosphorylates BAD partially through pim-1.

Authors:  Kyu-Tae Kim; Mark Levis; Donald Small
Journal:  Br J Haematol       Date:  2006-09       Impact factor: 6.998

4.  Murine leukemia virus-induced T-cell lymphomagenesis: integration of proviruses in a distinct chromosomal region.

Authors:  H T Cuypers; G Selten; W Quint; M Zijlstra; E R Maandag; W Boelens; P van Wezenbeek; C Melief; A Berns
Journal:  Cell       Date:  1984-05       Impact factor: 41.582

5.  Stromal cells prevent apoptosis of AML cells by up-regulation of anti-apoptotic proteins.

Authors:  M Konopleva; S Konoplev; W Hu; A Y Zaritskey; B V Afanasiev; M Andreeff
Journal:  Leukemia       Date:  2002-09       Impact factor: 11.528

6.  The serine/threonine kinase Pim-2 is a transcriptionally regulated apoptotic inhibitor.

Authors:  Casey J Fox; Peter S Hammerman; Ryan M Cinalli; Stephen R Master; Lewis A Chodosh; Craig B Thompson
Journal:  Genes Dev       Date:  2003-07-17       Impact factor: 11.361

7.  Mice deficient for all PIM kinases display reduced body size and impaired responses to hematopoietic growth factors.

Authors:  Harald Mikkers; Martijn Nawijn; John Allen; Conny Brouwers; Els Verhoeven; Jos Jonkers; Anton Berns
Journal:  Mol Cell Biol       Date:  2004-07       Impact factor: 4.272

8.  Growth and survival mechanisms associated with perineural invasion in prostate cancer.

Authors:  Gustavo E Ayala; Hong Dai; Michael Ittmann; Rile Li; Michael Powell; Anna Frolov; Thomas M Wheeler; Timothy C Thompson; David Rowley
Journal:  Cancer Res       Date:  2004-09-01       Impact factor: 12.701

9.  The PIM-2 kinase phosphorylates BAD on serine 112 and reverses BAD-induced cell death.

Authors:  Bin Yan; Marina Zemskova; Sheldon Holder; Vernon Chin; Andrew Kraft; Paivi J Koskinen; Michael Lilly
Journal:  J Biol Chem       Date:  2003-09-03       Impact factor: 5.157

10.  Increased expression of the hPim-2 gene in human chronic lymphocytic leukemia and non-Hodgkin lymphoma.

Authors:  Amos M Cohen; Borislava Grinblat; Hanna Bessler; Donald Kristt; Alona Kremer; Ariel Schwartz; Marisa Halperin; Sarah Shalom; Drorit Merkel; Jeremy Don
Journal:  Leuk Lymphoma       Date:  2004-05
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  55 in total

1.  Regulation of Skp2 levels by the Pim-1 protein kinase.

Authors:  Bo Cen; Sandeep Mahajan; Marina Zemskova; Zanna Beharry; Ying-Wei Lin; Scott D Cramer; Michael B Lilly; Andrew S Kraft
Journal:  J Biol Chem       Date:  2010-07-27       Impact factor: 5.157

Review 2.  For better or for worse: the role of Pim oncogenes in tumorigenesis.

Authors:  Martijn C Nawijn; Andrej Alendar; Anton Berns
Journal:  Nat Rev Cancer       Date:  2010-12-09       Impact factor: 60.716

3.  Pim1 kinase promotes angiogenesis through phosphorylation of endothelial nitric oxide synthase at Ser-633.

Authors:  Ming Chen; Bing Yi; Ni Zhu; Xin Wei; Guan-Xin Zhang; Shengdong Huang; Jianxin Sun
Journal:  Cardiovasc Res       Date:  2015-11-23       Impact factor: 10.787

4.  The Pim protein kinases regulate energy metabolism and cell growth.

Authors:  Zanna Beharry; Sandeep Mahajan; Marina Zemskova; Ying-Wei Lin; Baby G Tholanikunnel; Zuping Xia; Charles D Smith; Andrew S Kraft
Journal:  Proc Natl Acad Sci U S A       Date:  2010-12-27       Impact factor: 11.205

5.  Pim-1 knockdown potentiates paclitaxel-induced apoptosis in human hormone-refractory prostate cancers through inhibition of NHEJ DNA repair.

Authors:  Jui-Ling Hsu; Pui-Kei Leong; Yunn-Fang Ho; Lih-Ching Hsu; Pin-Hsuan Lu; Ching-Shih Chen; Jih-Hwa Guh
Journal:  Cancer Lett       Date:  2012-01-17       Impact factor: 8.679

6.  Protein profiling identifies mTOR pathway modulation and cytostatic effects of Pim kinase inhibitor, AZD1208, in acute myeloid leukemia.

Authors:  Lisa S Chen; Ji-Yeon Yang; Han Liang; Jorge E Cortes; Varsha Gandhi
Journal:  Leuk Lymphoma       Date:  2016-04-07

7.  Pre-clinical evaluation of second generation PIM inhibitors for the treatment of T-cell acute lymphoblastic leukemia and lymphoma.

Authors:  Renate De Smedt; Sofie Peirs; Julie Morscio; Filip Matthijssens; Juliette Roels; Lindy Reunes; Beatrice Lintermans; Steven Goossens; Tim Lammens; Nadine Van Roy; Aurore Touzart; Silvia Jenni; Yi-Chien Tsai; Federica Lovisa; Lara Mussolin; Valentina Serafin; Filip Van Nieuwerburgh; Dieter Deforce; Anne Uyttebroeck; Thomas Tousseyn; Birgit Burkhardt; Wolfram Klapper; Barbara De Moerloose; Yves Benoit; Elizabeth Macintyre; Jean-Pierre Bourquin; Giuseppe Basso; Benedetta Accordi; Beat Bornhauser; Jules Meijerink; Peter Vandenberghe; Pieter Van Vlierberghe
Journal:  Haematologica       Date:  2018-08-03       Impact factor: 9.941

8.  Pim1 serine/threonine kinase regulates the number and functions of murine hematopoietic stem cells.

Authors:  Ningfei An; Ying-Wei Lin; Sandeep Mahajan; Joshua N Kellner; Yong Wang; Zihai Li; Andrew S Kraft; Yubin Kang
Journal:  Stem Cells       Date:  2013-06       Impact factor: 6.277

9.  Elevation of receptor tyrosine kinases by small molecule AKT inhibitors in prostate cancer is mediated by Pim-1.

Authors:  Bo Cen; Sandeep Mahajan; Wenxue Wang; Andrew S Kraft
Journal:  Cancer Res       Date:  2013-04-12       Impact factor: 12.701

10.  PIM Kinase Inhibitors Block the Growth of Primary T-cell Acute Lymphoblastic Leukemia: Resistance Pathways Identified by Network Modeling Analysis.

Authors:  James T Lim; Neha Singh; Libia A Leuvano; Valerie S Calvert; Emanuel F Petricoin; David T Teachey; Richard B Lock; Megha Padi; Andrew S Kraft; Sathish K R Padi
Journal:  Mol Cancer Ther       Date:  2020-08-04       Impact factor: 6.261
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