Literature DB >> 18511810

A selective sphingosine kinase 1 inhibitor integrates multiple molecular therapeutic targets in human leukemia.

Steven W Paugh1, Barbara S Paugh, Mohamed Rahmani, Dmitri Kapitonov, Jorge A Almenara, Tomasz Kordula, Sheldon Milstien, Jeffrey K Adams, Robert E Zipkin, Steven Grant, Sarah Spiegel.   

Abstract

The potent bioactive sphingolipid mediator, sphingosine-1-phosphate (S1P), is produced by 2 sphingosine kinase isoenzymes, SphK1 and SphK2. Expression of SphK1 is up-regulated in cancers, including leukemia, and associated with cancer progression. A screen of sphingosine analogs identified (2R,3S,4E)-N-methyl-5-(4'-pentylphenyl)-2-aminopent-4-ene-1,3-diol, designated SK1-I (BML-258), as a potent, water-soluble, isoenzyme-specific inhibitor of SphK1. In contrast to pan-SphK inhibitors, SK1-I did not inhibit SphK2, PKC, or numerous other protein kinases. SK1-I decreased growth and survival of human leukemia U937 and Jurkat cells, and enhanced apoptosis and cleavage of Bcl-2. Lethality of SK1-I was reversed by caspase inhibitors and by expression of Bcl-2. SK1-I not only decreased S1P levels but concomitantly increased levels of its proapoptotic precursor ceramide. Conversely, S1P protected against SK1-I-induced apoptosis. SK1-I also induced multiple perturbations in activation of signaling and survival-related proteins, including diminished phosphorylation of ERK1/2 and Akt. Expression of constitutively active Akt protected against SK1-I-induced apoptosis. Notably, SK1-I potently induced apoptosis in leukemic blasts isolated from patients with acute myelogenous leukemia but was relatively sparing of normal peripheral blood mononuclear leukocytes. Moreover, SK1-I markedly reduced growth of AML xenograft tumors. Our results suggest that specific inhibitors of SphK1 warrant attention as potential additions to the therapeutic armamentarium in leukemia.

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Year:  2008        PMID: 18511810      PMCID: PMC2515133          DOI: 10.1182/blood-2008-02-138958

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


  61 in total

1.  Quantitative RT-PCR analysis of sphingolipid metabolic enzymes in acute leukemia and myelodysplastic syndromes.

Authors:  S Sobue; T Iwasaki; C Sugisaki; K Nagata; R Kikuchi; M Murakami; A Takagi; T Kojima; Y Banno; Y Akao; Y Nozawa; R Kannagi; M Suzuki; A Abe; T Naoe; T Murate
Journal:  Leukemia       Date:  2006-09-07       Impact factor: 11.528

2.  Suppression of ceramide-mediated programmed cell death by sphingosine-1-phosphate.

Authors:  O Cuvillier; G Pirianov; B Kleuser; P G Vanek; O A Coso; S Gutkind; S Spiegel
Journal:  Nature       Date:  1996-06-27       Impact factor: 49.962

3.  Marked suppression of tumor growth by FTY720 in a rat liver tumor model: the significance of down-regulation of cell survival Akt pathway.

Authors:  Kevin T Ng; Kwan Man; Joanna W Ho; Chris K Sun; Terence K Lee; Yi Zhao; Chung Mau Lo; Ronnie T Poon; Sheung Tat Fan
Journal:  Int J Oncol       Date:  2007-02       Impact factor: 5.650

4.  NAD+/NADH and/or CoQ/CoQH2 ratios from plasma membrane electron transport may determine ceramide and sphingosine-1-phosphate levels accompanying G1 arrest and apoptosis.

Authors:  Thomas De Luca; Dorothy M Morré; Haiyun Zhao; D James Morré
Journal:  Biofactors       Date:  2005       Impact factor: 6.113

5.  Role of ABCC1 in export of sphingosine-1-phosphate from mast cells.

Authors:  Poulami Mitra; Carole A Oskeritzian; Shawn G Payne; Michael A Beaven; Sheldon Milstien; Sarah Spiegel
Journal:  Proc Natl Acad Sci U S A       Date:  2006-10-18       Impact factor: 11.205

Review 6.  Sphingosine kinases, sphingosine 1-phosphate, apoptosis and diseases.

Authors:  Nitai C Hait; Carole A Oskeritzian; Steven W Paugh; Sheldon Milstien; Sarah Spiegel
Journal:  Biochim Biophys Acta       Date:  2006-08-18

7.  Intracellular role for sphingosine kinase 1 in intestinal adenoma cell proliferation.

Authors:  Masataka Kohno; Michiko Momoi; Myat Lin Oo; Ji-Hye Paik; Yong-Moon Lee; Krishnan Venkataraman; Youxi Ai; Ari P Ristimaki; Henrik Fyrst; Hajime Sano; Daniel Rosenberg; Julie D Saba; Richard L Proia; Timothy Hla
Journal:  Mol Cell Biol       Date:  2006-10       Impact factor: 4.272

8.  Mechanism and functional role of XIAP and Mcl-1 down-regulation in flavopiridol/vorinostat antileukemic interactions.

Authors:  Roberto R Rosato; Jorge A Almenara; Sarah S Kolla; Sonia C Maggio; Stefanie Coe; Maria S Giménez; Paul Dent; Steven Grant
Journal:  Mol Cancer Ther       Date:  2007-02       Impact factor: 6.261

9.  Alterations of ceramide/sphingosine 1-phosphate rheostat involved in the regulation of resistance to imatinib-induced apoptosis in K562 human chronic myeloid leukemia cells.

Authors:  Yusuf Baran; Arelis Salas; Can E Senkal; Ufuk Gunduz; Jacek Bielawski; Lina M Obeid; Besim Ogretmen
Journal:  J Biol Chem       Date:  2007-02-15       Impact factor: 5.157

Review 10.  Targeting sphingosine-1-phosphate for cancer therapy.

Authors:  R A Sabbadini
Journal:  Br J Cancer       Date:  2006-10-03       Impact factor: 7.640
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  125 in total

1.  The sphingosine kinase 1 inhibitor 2-(p-hydroxyanilino)-4-(p-chlorophenyl)thiazole induces proteasomal degradation of sphingosine kinase 1 in mammalian cells.

Authors:  Carolyn Loveridge; Francesca Tonelli; Tamara Leclercq; Keng Gat Lim; Jaclyn S Long; Evgeny Berdyshev; Rothwelle J Tate; Viswanathan Natarajan; Stuart M Pitson; Nigel J Pyne; Susan Pyne
Journal:  J Biol Chem       Date:  2010-10-06       Impact factor: 5.157

2.  Design, synthesis and biological activity of sphingosine kinase 2 selective inhibitors.

Authors:  Mithun R Raje; Kenneth Knott; Yugesh Kharel; Philippe Bissel; Kevin R Lynch; Webster L Santos
Journal:  Bioorg Med Chem       Date:  2011-11-15       Impact factor: 3.641

Review 3.  Sphingosine-1-phosphate antibodies as potential agents in the treatment of cancer and age-related macular degeneration.

Authors:  Roger A Sabbadini
Journal:  Br J Pharmacol       Date:  2011-03       Impact factor: 8.739

Review 4.  Sphingosine-1-phosphate and immune regulation: trafficking and beyond.

Authors:  Hongbo Chi
Journal:  Trends Pharmacol Sci       Date:  2010-12-14       Impact factor: 14.819

5.  Transient receptor potential channel 1 maintains adherens junction plasticity by suppressing sphingosine kinase 1 expression to induce endothelial hyperpermeability.

Authors:  Mohammad Tauseef; Mohammad Farazuddin; Sukriti Sukriti; Charu Rajput; James Otto Meyer; Suresh Kumar Ramasamy; Dolly Mehta
Journal:  FASEB J       Date:  2015-08-27       Impact factor: 5.191

Review 6.  Sphingosine-1-phosphate signaling and its role in disease.

Authors:  Michael Maceyka; Kuzhuvelil B Harikumar; Sheldon Milstien; Sarah Spiegel
Journal:  Trends Cell Biol       Date:  2011-10-14       Impact factor: 20.808

7.  Development of amidine-based sphingosine kinase 1 nanomolar inhibitors and reduction of sphingosine 1-phosphate in human leukemia cells.

Authors:  Andrew J Kennedy; Thomas P Mathews; Yugesh Kharel; Saundra D Field; Morgan L Moyer; James E East; Joseph D Houck; Kevin R Lynch; Timothy L Macdonald
Journal:  J Med Chem       Date:  2011-05-02       Impact factor: 7.446

8.  Interleukin-1 regulates the expression of sphingosine kinase 1 in glioblastoma cells.

Authors:  Barbara S Paugh; Lauren Bryan; Steven W Paugh; Katarzyna M Wilczynska; Silvina M Alvarez; Sandeep K Singh; Dmitri Kapitonov; Hanna Rokita; Sarah Wright; Irene Griswold-Prenner; Sheldon Milstien; Sarah Spiegel; Tomasz Kordula
Journal:  J Biol Chem       Date:  2008-12-11       Impact factor: 5.157

Review 9.  The emergence of acid ceramidase as a therapeutic target for acute myeloid leukemia.

Authors:  Su-Fern Tan; Jennifer M Pearson; David J Feith; Thomas P Loughran
Journal:  Expert Opin Ther Targets       Date:  2017-05-02       Impact factor: 6.902

Review 10.  Never say die: survival signaling in large granular lymphocyte leukemia.

Authors:  Mithun Vinod Shah; Ranran Zhang; Thomas P Loughran
Journal:  Clin Lymphoma Myeloma       Date:  2009
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