A new chemical series, triazolo[4,5-b]pyridines, has been identified as an inhibitor of PIM-1 by a chemotype hopping strategy based on a chemically feasible fragment database. In this case, structure-based virtual screening and in silico chemogenomics provide added value to the previously reported strategy of prioritizing among proposed novel scaffolds. Pairwise comparison between compound 3, recently discontinued from Phase I clinical trials, and molecule 8, bearing the selected novel scaffold, shows that the primary activities are similar (IC50 in the 20 to 150 nM range). At the same time, some ADME properties (for example, an increase of more than 45% in metabolic stability in human liver microsomes) and the off-target selectivity (for example, an increase of more than 2 log units in IC50 vs. FLT3) are improved, and the intellectual property (IP) position is enhanced. The discovery of a reliable starting point that fulfills critical criteria for a plausible medicinal chemistry project is demonstrated in this prospective study.
References
[1]
Cuypers HT, Selten G, Quint W, Martin Z, Maandag ER, et al. (1984) Murine leukemia virus-induced T-cell lymphomagenesis: Integration of proviruses in a distinct chromosomal region. Cell 37: 141–150.
[2]
Selten G, Cuypers HT, Berns A (1985) Proviral activation of the putative oncogene Pim-1 in MuLV induced T-cell lymphomas. EMBO J 4: 1793–1798.
[3]
van Lohuizen M, Verbeek S, Krimpenfort P, Domen J, Saris C, et al. (1989) Predisposition to lymphomagenesis in Pim- 1 transgenic mice: cooperation with c-myc and N-myc in murine leukemia virus-induced tumors. Cell 56: 673–682.
[4]
Selten G, Cuypers HT, Boelens W, Robanus-Maandag E, Verbeek J, et al. (1986) The primary structure of the putative oncogene Pim-1 shows extensive homology with protein kinases. Cell 46: 603–611.
[5]
Wang Z, Bhattacharya N, Weaver M, Petersen K, Meyer M, et al. (2001) Pim-1: a serine/threonine kinase with a role in cell survival, proliferation, differentiation and tumorigenesis. J Vet Sci 2: 167–179.
[6]
Hoover D, Friedmann M, Reeves R, Magnuson NS (1991) Recombinant human Pim-1 protein exhibits serine/threonine kinase activity. J Biol Chem 266: 14018–14023.
[7]
Mikkers H, Nawijn M, Allen J, Brouwers C, Verhoeven E, et al. (2004) Mice deficient for all PIM kinases display reduced body size and impaired responses to hematopoietic growth factors. Mol Cell Biol 24: 6104–6115.
[8]
Amson R, Sigaux F, Przedborski S, Flandrin G, Givol D, et al. (1989) The human protooncogene product p33pim is expressed during fetal hematopoiesis and in diverse leukemias. Proc Natl Acad Sci USA 86: 8857–8861.
[9]
Brault L, Gasser C, Bracher F, Huber K, Knapp S, et al. (2010) PIM serine/threonine kinases in the pathogenesis and therapy of hematologic malignancies and solid cancers. Haematologica 95: 1004–1015.
[10]
Hsi ED, Jung SH, Lai R, Johnson JL, Cook JR, et al. (2008) Ki67 and PIM1 expression predict outcome in mantle cell lymphoma treated with high dose therapy, stem cell transplantation and rituximab: a cancer and leukemia group B 59909 correlative science study. Leukemia Lymphoma 49: 2081–2090.
[11]
Chen J, Kobayashi M, Darmanin S, Qiao Y, Gully C, et al. (2009) Hypoxia-mediated upregulation of Pim-1 contributes to solid tumor formation. Am J Pathol 175: 400–411.
[12]
Warnecke-Eberz U, Bollschweiler E, Drebber U, Metzger R, Baldus SE, et al. (2009) Prognostic impact of protein overexpression of the proto-oncogene PIM-1 in gastric cancer. Anticancer Res 29: 4451–4455.
[13]
Xu Y, Zhang T, Tang H, Zhang S, Liu M, et al. (2005) Overexpression of PIM-1 is a potential biomarker in prostate carcinoma. J Surg Oncol 92: 326–330.
[14]
Wang J, Kim J, Roh M, Franco OE, Hayward SW, et al. (2009) Pim1 kinase synergizes with c-MYC to induce advanced prostate carcinoma. Oncogene 29: 2477–2487.
[15]
Willert M, Augstein A, Poitz DM, Schmeisser A, Strasser RH, et al. (2009) Transcriptional regulation of Pim-1 kinase in vascular smooth muscle cells and its role for proliferation. Basic Res. Cardiol 105: 267–277.
[16]
Lilly M, Sandholm J, Cooper JJ, Koskinen PJ, Kraft A (1999) The PIM-1 serine kinase prolongs survival and inhibits apoptosis-related mitochondrial dysfunction in part through a bcl-2-dependent pathway. Oncogene 18: 4022–4031.
[17]
Aho TL, Sandholm J, Peltola KJ, Mankonen HP, Lilly M, et al. (2004) Pim-1 kinase promotes inactivation of the pro-apoptotic bad protein by phosphorylating it on the Ser112 gatekeeper site. FEBS Lett 571: 43–49.
[18]
Macdonald A, Campbell DG, Toth R, McLauchlan H, Hastie CJ, et al. (2006) Pim kinases phosphorylate multiple sites on Bad and promote 14-3-3 binding and dissociation from Bcl-XL. BMC Cell Biol 7: 1.
[19]
Gu JJ, Wang Z, Reeves R, Magnuson NS (2009) PIM1 phosphorylates and negatively regulates ASK1-mediated apoptosis. Oncogene 28: 4261–4271.
[20]
Grundler R, Brault L, Gasser C, Bullock AN, Dechow T, et al. (2009) Dissection of PIM serine/threonine kinases in FLT 3-ITD-induced leukemogenesis reveals PIM1 as regulator of CXCL12-CXCR4-mediated homing and migration. J Exp Med 206: 1957–1970.
[21]
Blanco-Aparicio C, Collazo AM, Oyarzabal J, Leal JF, Albarran MI, et al. (2011) Pim 1 kinase inhibitor ETP-45299 suppresses cellular proliferation and synergizes with PI3K inhibition. Cancer Lett 300: 145–153.
[22]
Bullock AN, Debreczeni JE, Fedorov OY, Nelson A, Marsden BD, et al. (2005) Structural basis of inhibitor specificity of the human protooncogene proviral insertion site in moloney murine leukemia virus (PIM-1) kinase. J Med Chem 48: 7604–7614.
[23]
Pogacic V, Bullock AN, Fedorov O, Filippakopoulos P, Gasser C, et al. (2007) Structural analysis identifies imidazo[1,2-b]pyridazines as PIM kinase inhibitors with in vitro antileukemic activity. Cancer Res 67: 6916–6924.
[24]
Bearss D, Liu X-H, Vankayalapati H, Xu Y (2008) Imidazo[1,2-B]pyridazine and pyrazolo[1,5-A]pyrimidine derivatives and their use as protein kinase inhibitors. Patent WO2008058126 A2.
Mumenthaler SM, Ng PY, Hodge A, Bearss D, Berk G, et al. (2009) Pharmacologic inhibition of Pim kinases alters prostate cancer cell growth and resensitizes chemoresistant cells to taxanes. Mol Cancer Ther 8: 2882–2893.
[27]
Astex Pharmaceuticals Inc. website. Available: http://investor.astx.com/releasedetail.c?fm?ReleaseID=601548. Accessed 2011 Nov 11.
[28]
Oyarzabal J, Howe T, Alcazar J, Andres JI, Alvarez RM, et al. (2009) Novel Approach for Chemoptype Hopping Based on Annotated Databases of Chemically Feasible Fragments and a Prospective Case Study: New Melanin Concentrating Hormone Antagonists. J Med Chem 52: 2076–2089.
[29]
Pastor J, Oyarzabal J, Saluste G, Alvarez RM, Rivero V, et al. (2012) Hit to lead evaluation of 1,2,3-triazolo[4,5-b]pyridines as PIM kinase inhibitors. Bioorg Med Chem Lett 22: 1591–1597.
[30]
Pipeline Pilot. San Diego, CA: SciTegic Inc. Available: http://www.scitegic.com. Accessed 2010 Feb 10.
[31]
Molecular Operating Environment (MOE). Montreal, Quebec, Canada: Chemical Computing Group Inc. Available: http://www.chemcomp.com and http://svl.chemcomp.com. Accessed 2010 Feb 10.
[32]
Eidogen-Sertanty, Inc. website. Kinase Knowledgebase (KKB). Available: http://www.eidogen-sertanty.com. Accessed 2008 Feb 14.
[33]
Nicholls A, Grant AJ (2005) Molecular shape and electrostatics in the encoding of relevant chemical information. J Comput-Aided Mol Des 19: 661–686.
[34]
OpenEye Scientific Software. Santa Fe, NM: OpenEye Scientific Software, Inc. Available: http://www.eyesopen.com. Accessed 2010 Feb 10.
[35]
Bostr?m J (2001) Reproducing the conformations of protein-bound ligands: A critical evaluation of several popular conformational searching tools. J Comput-Aided Mol Des 15: 1137–1152.
[36]
Kirchmair J, Wolber G, Laggner C, Langer T (2006) Comparative Performance Assessment of the Conformational Model Generators Omega and Catalyst: A Large-Scale Survey on the Retrieval of Protein-Bound Ligand Conformations. J Chem Inf Model 46: 1848–1861.
[37]
Grant JA, Gallardo MA, Pickup BT (1996) A fast method of molecular shape comparison. A simple application of Gaussian description of molecular shape. J Comput Chem 17: 1653–1666.
[38]
Bostr?m J, Greenwood JR, Gottfries J (2003) Assessing the performance of OMEGA with respect to retrieving bioactive conformations. J Mol Graphics Modell 21: 449–462.
[39]
Jennings A, Tennant M (2007) Selection of Molecules Based on Shape and electrostatic Similarity: Proof of Concept of “Electroforms”. J Chem Inf Model 47: 1829–1838.
[40]
Ledeboer M, Davies RJ, Messersmith D, Moon Y-C, Mullican MD (2004) Benzisoxazole derivatives useful as inhibitors of protein kinases. Patent WO2004058749 A1.
[41]
Pierce AC, Jacobs M, Stuver-Moody C (2008) Docking Study Yields Four Novel Inhibitors of the Protooncogene Pim-1 Kinase. J Med Chem 51: 1972–1975.
[42]
Jones G, Willett P, Glen RC, Leach AR, Taylor R (1997) Development and validation of a genetic algorithm for flexible docking. J Mol Biol 267: 727–748.
[43]
Urbano-Cuadrado M, Rabal O, Oyarzabal J (2011) Centralizing discovery information: from logistics to knowledge at a public organization. Comb Chem High Throughput Screen 14: 429–449.
