Discovery of indazole-pyridinone derivatives as a novel class of potent and selective MNK1/2 kinase inhibitors that protecting against endotoxin-induced septic shock

The mitogen-activated protein kinase (MAPK)-interacting kinases 1 and 2 (MNKs 1/2) and their downstream target eIF4E, play a role in oncogenic transformation, progression and metastasis. These results provided rationale for development of first MNKs inhibitors, currently in clinical trials for cancer treatment. Inhibitors of the MNKs/eIF4E pathway are also proposed as treatment strategy for inflammatory conditions. Here we present results of optimization of indazole-pyridinone derived MNK1/2 inhibitors among which compounds 24 and 26, selective and metabolically stable derivatives. Both compounds decreased levels of eIF4E Ser206 phosphorylation (pSer209-eIF4E) in MOLM16 cell line. When administered in mice compounds 24 and 26 significantly improved survival rates of animals in the endotoxin lethal dose challenge model, with concomitant reduction of proinflammatory cytokine levels - TNFα and IL-6 in serum. Identified MNK1/2 inhibitors represent a novel class of immunomodulatory compounds with a potential for the treatment of inflammatory diseases including sepsis.

Abstract 3656: Development of novel, selective SMARCA2 (BRM) degraders for treatment of SMARCA4 (BRG1) mutated tumors

Background: Synthetic lethality is one of the most innovative approaches for selective targeting of cancer cells with defined genetic background. SMARCA2 and SMARCA4 are two mutually exclusive helicase/ATPase catalytic subunits belonging to SWI/SNF chromatin remodeling complex. It is estimated that one in five tumors possess a mutation in proteins of this complex. The Cancer Genome Atlas (TCGA) and the Catalog of Somatic Mutation in Cancer (Cosmic) shows that SMARCA4 is one of the most mutated genes in lung, colorectal, breast, melanoma and CNS tumors. Herein, we present development of a potent and selective SMARCA2 degrader, structurally unrelated to known chemotypes with first in class potential selectively targeting SMARCA4 mutant cells.

Methods: ADP-Glo assay was used to identify SMARCA2 inhibitors through HTS. Binding was confirmed using MST, FTS and SPR methods. Biochemical and biophysical investigation guided rational optimization. Identified ligands were used to build a hybrid PROTAC by linking to a ligand for the E3 ligase. Western blotting was used to assess degradation efficiency and selectivity. Target engagement was confirmed using qPCR and AlphaLISA methods. On target activity was confirmed using SMARCA4 isogenic cells and a panel of SMARCA4 WT and mutant cell lines.

Results: High throughput screening allowed identification of novel inhibitors of SMARCA2 ATPase activity. Medicinal chemistry efforts improved potency and affinity to the target over 100 fold. Target engagement was confirmed using biophysical methods and biomarker modulation. Proprietary ligand was used to build a hybrid PROTAC. Western blotting confirmed selective and long-lasting degradation of SMARCA2. Co-treatment with Epoxomicin confirmed proteasomal dependent degradation of targeted protein. Specific SMARCA2 depletion in SMARCA4 mutated cancer cell lines induced apoptosis, growth inhibition and cell death. Observed mechanism of action is consistent with a phenotype seen with perturbation through inhibition of ATPase activity of SMARCA2 and genetic knock-down.

Conclusion: Treatment with Ryvu's PROTACs led to selective, proteasomal dependent degradation of SMARCA2 protein and in consequence to a targeted cell death of SMARCA4 mutated cancers. Fine-tuning of available compounds will allow for proof-of-concept experiments in animal models as a single agent or in combinations with radio- or immuno-therapies.

Citation Format: Andrzej Mazan, Anna Wróbel, Agnieszka Dreas, Adam Radzimierski, Kinga Michalik, Anna Kowal, Katarzyna Wiklik, Katarzyna Wnuk-Lipińska, Paulina Niedziejko, Kamila Kozłowska, Magdalena Łośko, Joanna Szczęśniak, Agnieszka Sroka-Porada, Justyna Martyka, Urszula Kulesza, Karol Zuchowicz, Magdalena Zastawna, Jose Alvarez, Luigi Stasi, Peter Littlewood, Tomasz Rzymski, Krzysztof Brzózka. Development of novel, selective SMARCA2 (BRM) degraders for treatment of SMARCA4 (BRG1) mutated tumors [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 3656.

How to design potent and selective DYRK1B inhibitors? Molecular modeling study

DYRK1B protein kinase is an emerging anticancer target due to its overexpression in a variety of cancers and its role in cancer chemoresistance through maintaining cancer cells in the G0 (quiescent) state. Consequently, there is a growing interest in the development of potent and selective DYRK1B inhibitors for anticancer therapy. One of the major off-targets is another protein kinase, GSK3β, which phosphorylates an important regulator of cell cycle progression on the same residue as DYRK1B and is involved in multiple signaling pathways. In the current work, we performed a detailed comparative structural analysis of DYRK1B and GSK3β ATP-binding sites and identified key regions responsible for selectivity. As the crystal structure of DYRK1B has never been reported, we built and optimized a homology model by comparative modeling and metadynamics simulations. Calculation of interaction energies between docked ligands in the ATP-binding sites of both kinases allowed us to pinpoint key residues responsible for potency and selectivity. Specifically, the role of the gatekeeper residues in DYRK1B and GSK3β is discussed in detail, and two other residues are identified as key to selectivity of DYRK1B inhibition versus GSK3β. The analysis presented in this work was used to support the design of potent and selective azaindole-quinoline-based DYRK1B inhibitors and can facilitate development of more selective inhibitors for DYRK kinases.

Abstract 3516: Discovery of novel SHMT small molecule inhibitors for cancer treatment

Over-activation of the serine synthesis pathway, upregulation of SHMT2 has been described in over 20% of solid tumors (e.g. breast, lung, colorectal cancers). Such cancer cells are highly dependent on serine. Serine hydroxymethyltransferase (SHMT) plays a key role in a so-called one-carbon pathway, a group of biochemical reactions involved in amino acid metabolism. SHMT catalyzes the conversion of serine to glycine and also plays a role in the folate (vitamin B9) cycle. Antagonists of folate metabolism or antifolates are an established chemotherapy in certain cancers. Folate antagonism disrupts cell division, DNA/RNA synthesis and protein synthesis. Pemetrexed (for non-small cell lung carcinoma, mesothelioma) and methotreaxate (for autoimmune conditions like rheumatoid arthritis and certain cancers) are two well established and effective antifolates. The main drawback with antifolates in cancer treatment, however, is the development of resistance. In this study we report development of a series of small molecule SHMT1/2 inhibitors. Synthetized compounds exert potency in SHMT1/2 biochemical assay as well as in cellular assay (measured by the C13 serine to glycine conversion) with the low nanomolar range. Therapeutic effect of the compounds was investigated in the panel of cancer cell lines with different genetic background as well as with different SHMT2 levels. We identified several cell lines in which tested compounds inhibited cancer cell grow with nM GI50 values. Taken together, presented data supports our rationale for using SHMT1/2 inhibitors as a novel and interesting approach for the cancer therapy.

Citation Format: Anna Bartosik, Pawel Guzik, Marta Sowinska, Karolina Gluza, Marcin Krol, Anna Wrobel, Agnieszka Dreas, Faustyna Iwanska, Magdalena Zastawna, Urszula Kulesza, Nicolas Boutard, David Schultz, Justyna Wujkowska, Karolina Pyziak, Agnieszka Sroka-Porada, Agnieszka Przybylowicz, Agnieszka Adamus, Magdalena Sieprawska-Lupa, Przemyslaw Golik, Piotr Kowalczyk, Krzysztof Brzozka, Tomasz Rzymski, Mateusz Nowak. Discovery of novel SHMT small molecule inhibitors for cancer treatment [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 3516.

Abstract 5829: CDK8 inhibitor SEL120-34A targets CD34 positive AML cells by regulation of various transcriptional programs involved in maintenance of leukemia stem cells

Despite heterogeneity deregulated transcription is one of the universal features of leukemia cells. This has paved the way for the development of active compounds targeting epigenetic and transcriptional factors. A substituted tricyclic benzimidazole, SEL120-34A, is a novel inhibitor of Cyclin-dependent kinase 8 (CDK8), which regulates transcription by associating with the Mediator complex. In many cancer cells SEL120-34A regulates expression of STAT1- dependent genes as a major transcriptional effect. In AML cells regulation of NUP98-HOXA9 - dependent transcription and other transcriptional programs involved in maintenance of leukemia stem cells have been observed as a dominant mechanism of action. Treatment with the compound resulted in a differential efficacy on CD34 positive AML cells with elevated STAT5 S726 levels and stem cell characteristics. In contrast, resistant cells were negative for activated STAT5 and revealed lineage commitment. Prolonged exposure of AML cells lines to chemotherapy led to the enrichment in population of resistant CD34 positive cells, which proved to be oversensitive to SEL120-34A treatment, providing rationale for rational combinations with approved drugs. Further clinical development of SEL120-34A is warranted as a novel therapeutic approach in relapsed and refractory AML.

Citation Format: Eliza Majewska, Milena Mazan, Michal Mikula, Agnieszka Dreas, Katarzyna Wiklik, Aniela Golas, Katarzyna Wojcik, Magdalena Masiejczyk, Malgorzata Statkiewicz, Urszula Kuklinska, Krzysztof Goryca, Aleksandra Grochowska, Aleksandra Cabaj, Michal Combik, Jerzy Ostrowski, Krzysztof Brzozka, Tomasz Rzymski. CDK8 inhibitor SEL120-34A targets CD34 positive AML cells by regulation of various transcriptional programs involved in maintenance of leukemia stem cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 5829.

SEL120-34A is a novel CDK8 inhibitor active in AML cells with high levels of serine phosphorylation of STAT1 and STAT5 transactivation domains

Inhibition of oncogenic transcriptional programs is a promising therapeutic strategy. A substituted tricyclic benzimidazole, SEL120-34A, is a novel inhibitor of Cyclin-dependent kinase 8 (CDK8), which regulates transcription by associating with the Mediator complex. X-ray crystallography has shown SEL120-34A to be a type I inhibitor forming halogen bonds with the protein's hinge region and hydrophobic complementarities within its front pocket. SEL120-34A inhibits phosphorylation of STAT1 S727 and STAT5 S726 in cancer cells in vitro. Consistently, regulation of STATs- and NUP98-HOXA9- dependent transcription has been observed as a dominant mechanism of action in vivo. Treatment with the compound resulted in a differential efficacy on AML cells with elevated STAT5 S726 levels and stem cell characteristics. In contrast, resistant cells were negative for activated STAT5 and revealed lineage commitment. In vivo efficacy in xenotransplanted AML models correlated with significant repression of STAT5 S726. Favorable pharmacokinetics, confirmed safety and in vivo efficacy provide a rationale for the further clinical development of SEL120-34A as a personalized therapeutic approach in AML.

MNK1/2 inhibition limits oncogenicity and metastasis of KIT-mutant melanoma

Melanoma can be stratified into unique subtypes based on distinct pathologies. The acral/mucosal melanoma subtype is characterized by aberrant and constitutive activation of the proto-oncogene receptor tyrosine kinase C-KIT, which drives tumorigenesis. Treatment of these melanoma patients with C-KIT inhibitors has proven challenging, prompting us to investigate the downstream effectors of the C-KIT receptor. We determined that C-KIT stimulates MAP kinase-interacting serine/threonine kinases 1 and 2 (MNK1/2), which phosphorylate eukaryotic translation initiation factor 4E (eIF4E) and render it oncogenic. Depletion of MNK1/2 in melanoma cells with oncogenic C-KIT inhibited cell migration and mRNA translation of the transcriptional repressor SNAI1 and the cell cycle gene CCNE1. This suggested that blocking MNK1/2 activity may inhibit tumor progression, at least in part, by blocking translation initiation of mRNAs encoding cell migration proteins. Moreover, we developed an MNK1/2 inhibitor (SEL201), and found that SEL201-treated KIT-mutant melanoma cells had lower oncogenicity and reduced metastatic ability. Clinically, tumors from melanoma patients harboring KIT mutations displayed a marked increase in MNK1 and phospho-eIF4E. Thus, our studies indicate that blocking MNK1/2 exerts potent antimelanoma effects and support blocking MNK1/2 as a potential strategy to treat patients positive for KIT mutations.

Abstract 442: Small molecule inhibitors of SHMT1/2 validate serine metabolism as a target in the treatment of c-Myc positive solid tumors

Many oncogenes modulate metabolic pathways and altered metabolism is one of the hallmarks of cancer. In order to sustain proliferation, cell growth and adopt to a very specific tumor microenvironment, cancer cells have to undergo metabolic reprogramming. Increased uptake of glucose, consumed in anaerobic manner, allows to maintain essential bioenergetic and biosynthetic pathways. Various reports indicated that many cancers cells are crucially dependent on serine, which could be either imported or synthesized by the serine synthesis pathway (SSP) branched from glycolysis. Serine can be converted to glycine by Serine Hydroxymethyltransferases isoforms 1 and 2 (SHMT1/2), which provide also carbon for the folate cycle. There is a growing interest in targeting SSP and SHMT1/2 have been proposed as druggable targets for the treatment of various cancers. One of the major challenges is validation of these concepts by high quality pharmacological and genetic tools, particularly in the context of high tumor heterogeneity, artificial tissue culture conditions and many branching points of tumor metabolism, which eventually result in acquired resistance. We have identified and characterized a series of sub micromolar dual SHMT1/2 inhibitors. Affinity of these compounds to protein targets has been confirmed in biochemical and binding assays and further corroborated by X-ray crystallography studies. In order to confirm efficacy of these compounds in cancer cells, both sensitive and resistant cells to the inhibition of SSP have been identified by using conditioned serine and glycine depleted media. Moreover functional roles of both paralogs: SHMT1, which fuels cytoplasmic folate cycle and SHMT2, which is responsible for the mitochondrial branch, were further confirmed by gene knockdown studies. Cell lines resistant to depletion of serine in cell culture media were characterized by elevated levels of proteins involved in the synthesis of serine, namely PHGDH, PSAT1, SHMT2, c-Myc amplification and increased 13C flux from glucose to serine and glycine. Metabolic flux analysis further indicated that treatment with presented SHMT1/2 inhibitors effectively blocked the production of glycine from glucose and serine in cancer cells. Viability studies confirmed anti-cancer efficacy of SHMT1/2 inhibitors at concentrations consistent with metabolic flux studies in the same cells. Moreover rescue experiments with media supplemented with glycine and formate, which is a crucial intermediate between mitochondrial and cytoplasmic branches of folate cycle, were sufficient to reduce activity of SHMT1/2 inhibitors. Finally synergistic studies with antifolates provided an insight how efficacy of SHMT1/2 could be exploited therapeutically also in rational combinations with approved drugs.

Citation Format: Tomasz Rzymski, Anna Wrobel, Karolina Pyziak, Agnieszka Sroka, Marta Sowinska, Agnieszka Dreas, Marcin Krol, Pawel Guzik, Agnieszka Adamus, Agnieszka Przybylowicz, Katarzyna Hamara, Magdalena Sieprawska-Lupa, Artur Biela, Krzysztof Brzozka. Small molecule inhibitors of SHMT1/2 validate serine metabolism as a target in the treatment of c-Myc positive solid tumors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 442. doi:10.1158/1538-7445.AM2017-442

Abstract 2174: Inhibition of CDK8 kinase with SEL120-34A allows for a personalized approach in AML

Inhibition of oncogenic transcriptional programs is recognized to be a promising therapeutic strategy. SEL120-34A is a novel inhibitor of Cyclin- dependent kinase 8 (CDK8), which regulates transcription by associating with the Mediator complex. SEL120-34A interacts with the ATP binding site of CDK8 in type I inhibitor fashion and forms several types of interactions, including halogen bonds with the protein’s hinge region and hydrophobic complementarities within its front pocket. Although the compound was only modestly active in solid tumor cell lines, it repressed phosphorylation of STAT5 Ser726 and could differentially inhibit viability of AML and ALL cell lines in vitro and in vivo, along with other type I CDK8 inhibitors. Transcriptomic analysis identified major transcriptional programs altered in responder cell lines, which strongly indicated that apart from repression of survival pathways, CDK8 inhibitors could induce differentiation in cell lines with leukemia stem cells characteristics. Further studies on a large panels of responder and non-responder cell lines identified robust biomarkers which could be used with high confidence for stratification and personalized approach in CDK8-dependent AML cases. Favorable pharmacokinetics, confirmed safety and in vivo efficacy in leukemia models provide the rationale for further clinical development of SEL120-34A.

Citation Format: Tomasz Rzymski, Michal Mikula, Eliza Zylkiewicz, Agnieszka Dreas, Katarzyna Wiklik, Aniela Golas, Katarzyna Wojcik, Magdalena Masiejczyk, Iga Dudzicz, Katarzyna Kucwaj, Malgorzata Statkiewicz, Krzysztof Goryca, Aleksandra Grochowska, Aleksandra Cabaj, Jerzy Ostrowski, Urszula Kukliniska, Krzysztof Brzozka. Inhibition of CDK8 kinase with SEL120-34A allows for a personalized approach in AML [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 2174. doi:10.1158/1538-7445.AM2017-2174

Abstract C194: Repression of tumor survival pathways by novel and selective inhibitors of MNK1 and MNK2 kinases in cancer

Herewith, we report development of small molecule inhibitors of MNK1 and MNK2 kinases and their cellular activity. MNK1 and 2 are MAP kinase-interacting kinases are activated by RAS and MAPK signaling pathways, and are involved in regulation of translation. Both kinases phosphorylate translation initiation factor eIF4e on a conserved serine 209. eIF4E can contribute to the oncogenic transformation both in vitro and in vivo and is highly expressed in diverse types of cancer. Interestingly, mice that lack both Mnk1 and Mnk2 do not have any apparent phenotype. Recently first dual MNK1/MNK2 inhibitors have entered clinical trials as a combinational therapy with docetaxel in NSCLC.

SEL201 is a series of small molecule inhibitors which inhibit activity of both MNK1 and MNK2 in a low nM range and high selectivity confirmed in kinome panels. Analysis of SEL201 cellular activity indicated potent inhibition of eIF4e Ser209 in vitro in cancer cells and in vivo after oral administration in xenograft tumors. Repressed phosphorylation of eIF4e resulted in impaired translation of several proteins involved in metastasis and activation of immune cells. High potency, selectivity and favorable ADME/PK profile indicates that SEL201 inhibitors would be useful tools in probing molecular consequences of eIF4e Ser209 inhibition in cancer cells. SEL201 in vitro and in vivo activities on viability and metastasis will be presented in cellular and in vivo models of solid tumors and hematological malignancies. SEL201 series is further developed as a cancer therapy with a good therapeutic window.

Citation Format: Tomasz Rzymski, Agnieszka Dreas, Ewelina Wincza, Charles-Henry Fabritius, Urszula Kulesza, Katarzyna Kucwaj- Brysz, Mariusz Milik, Aniela Gołas, Renata Windak, Eliza Żyłkiewicz, Anna Wróbel, Maciej Sułkowski, Krzysztof Brzózka. Repression of tumor survival pathways by novel and selective inhibitors of MNK1 and MNK2 kinases in cancer. [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2015 Nov 5-9; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2015;14(12 Suppl 2):Abstract nr C194.

Abstract 1663: Selective CDK8 inhibitor SEL120-34A alters expression of interferon-related DNA damage resistance signature genes in colorectal cancer

CDK8 (cyclin-dependent kinase 8) is a kinase component of a multi - protein Mediator complex, involved in transcription control. Several studies indicated that high overexpression and activity of CDK8 could be a driver of malignant progression in colorectal cancer (CRC). Herewith we present molecular insights into mechanism of action of SEL120-34A - a selective small molecule inhibitor of CDK8 kinase. Biochemical and binding studies indicated that SEL120-34A selectively binds and inhibits enzymatic activity of CDK8 in the low nM range. Recently CDK8 has been described as a regulator of STAT1 activity in NK cells where by phosphorylating STAT1 serine 727 (Ser727) influences a possible immunoescape mechanism in various cancers. Consistently, SEL120-34A and other recently reported selective CDK8 inhibitors could repress phosphorylation of STAT1 at a Ser727 at low nM concentrations in cancer cells without any significant changes on tyrosine sites directly regulated by JAK kinases. SEL120-34A inhibited expression of several STAT1 dependent genes in CRC cell lines, stimulated by various cytokines and growth factors. These results were further corroborated with specific CDK8 siRNA knockdown experiments and chromatin immunoprecipitation studies showing CDK8 occupancy on promoters of SEL120-34A regulated genes. In order to better characterize in vivo mechanism of action, mice bearing HCT116 and Colo205 xenograft tumors were treated with SEL120-34A and gene expression changes were measured with microarrays in excised tumors. In animals treated with the CDK8 inhibitor a dose dependent repression of STAT1 Ser727 was observed. The functional analyses of significantly (adj. p. value < 0.05) altered genes with Gene Ontology revealed that those with reduced expression belong to interferon I pathway and type I interferon-mediated signaling pathway terms. This subset of STAT regulated genes was further characterized as an interferon-related DNA damage resistance signature (IRDS) - a prosurvival pathway which correlated strongly with resistance to radiation and chemotherapy in various tumors. Consistently, SEL120-34A has shown very potent cytotoxic synergy with standard of care drugs in CRC, particularly in cells stimulated with interferons. Taken together, for the first time we have shown that selective CDK8 inhibitors are potent regulators of STAT related - IRDS signaling pathway in vitro and in vivo. In addition to previously reported stand-alone efficacy of CDK8 inhibitors in vivo, we provide also a combination treatment rationale for CRC.

Citation Format: Tomasz Rzymski, Michał Mikula, Małgorzata Szajewska-Skuta, Eliza Zyłkiewicz, Łukasz Sapała, Izabela Dolata, Agata Kitlińska, Krzysztof Goryca, Aleksandra Grochowska, Aleksandra Cabaj, Agnieszka Dreas, Katarzyna Kucwaj, Artur Białas, Adam Radzimierski, Aniela Gołas, Renata Windak, Jerzy Ostrowski, Krzysztof Brzózka. Selective CDK8 inhibitor SEL120-34A alters expression of interferon-related DNA damage resistance signature genes in colorectal cancer. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 1663. doi:10.1158/1538-7445.AM2015-1663

Abstract 755: Repression of tumor survival pathways by novel and selective inhibitors of MNK1 and MNK2 kinases in glioblastoma and colorectal cancer

Herewith, we report development of small molecule inhibitors of MNK1 and MNK2 kinases and their cellular activity. MNK1 and 2 are MAP kinase-interacting kinases that are activated by RAS and MAPK signaling pathways and are involved in regulation of translation. Both kinases phosphorylate translation initiation factor eIF4e on a conserved serine 209 residue. eIF4E can contribute to the oncogenic transformation both in vitro and in vivo and is highly expressed in various tumor types. Interestingly, mice that lack both MNK1 and MNK2 do not have any apparent phenotype, which is promising for the therapeutic window of MNK1/2 inhibitors. SEL201 is a series of small molecule inhibitors which inhibit activity of both MNK1 and MNK2 in a low nM range. Selected compounds were tested on the kinome panels and indicated MNK1 and MNK2 as primary kinase targets. SEL201 compounds caused dose dependent inhibition of phosphorylation of eIF4e at Ser209 in various cancer cell lines at concentrations <100nM, which were lower when compared with other reported MNK1/2 inhibitors such as Cercosporamid and CGP57380. Consistently, potent inhibition of eIF4e Ser209 was observed also in vivo after oral administration of the inhibitors in xenograft models. High potency, selectivity and favorable ADME/PK profile indicates that SEL201 inhibitors would be useful tools in probing molecular consequences of eIF4e Ser209 inhibition in cancer cells alone and in combination with other inhibitors targeting PI3K/mTOR or RAS/MEK pathway. SEL201 in vitro and in vivo activities on viability and metastasis will be presented in cellular and in vivo models of colorectal cancer and glioblastoma. SEL201 series is further developed as a promising anticancer therapy with potentially wide therapeutic window.

Citation Format: Tomasz Rzymski, Malgorzata Szajewska-Skuta, Adrian Zarebski, Kamil Sitarz, Lukasz Sapala, Malgorzata Zurawska, Magdalena Salwinska, Renata Windak, Ewa Trebacz, Joanna Daniel-Wojcik, Radoslaw Obuchowicz, Bozena Winnik, Ewelina Wincza, Urszula Kulesza, Katarzyna Kucwaj-Borysz, Mariusz Milik, Agnieszka Dreas, Krzysztof Brzozka. Repression of tumor survival pathways by novel and selective inhibitors of MNK1 and MNK2 kinases in glioblastoma and colorectal cancer. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 755. doi:10.1158/1538-7445.AM2014-755

Abstract A49: Repression of tumor survival pathways by novel, selective inhibitors of MNK1 and MNK2 kinases

MNK1 and MNK2 are MAP kinase-interacting kinases involved in regulation of translation. Both kinases phosphorylate translation initiation factor eIF4E on a conserved serine 209. eIF4E can contribute to the oncogenic transformation both in vitro and in vivo and is highly expressed in diverse types of cancer. Interestingly, mice that lack both MNK1 and MNK2 do not have any apparent phenotype and therefore represent interesting possibility to develop targeted and safe anticancer therapies.

Herewith, we report the development of first selective small molecule inhibitors of MNK1 and MNK2 kinases and their in vitro cellular activity. Selvita developed a series of small molecule type I, ATP-competitive inhibitors targeting both MNK1 and MNK2 with mid nM activity range. Selected compounds were tested on a panel of 456 kinases and showed very high selectivity. Additionally, in cellular models such as serum stimulated SW480 cells, synthesized MNK1/2 inhibitors caused dose dependent inhibition of phosphorylation of eIF4e at Ser209 in line with the kinase activity profile. The observed cellular activity on biomarker inhibition was more potent than observed for reported in the literature MNK1/2 inhibitors such as cercosporamide and CGP57380. High activity of MNK1/2 inhibitors on in vitro biomarkers correlated with efficacy on cancer cells challenged with various stress conditions, typical for tumor microenvironment. These initial findings confirm that selective inhibition of MNK1/2 may repress major tumor survival pathways induced under stress and support further development of this class of compounds as a novel anticancer therapy with a promising therapeutic window.

Citation Format: Tomasz Rzymski, Agnieszka Dreas, Mariusz Milik, Katarzyna Kucwaj, Adrian Zarebski, Malgorzata Szajewska Skuta, Anna Cierpich, Charles Fabritius, Krzysztof Brzozka. Repression of tumor survival pathways by novel, selective inhibitors of MNK1 and MNK2 kinases. [abstract]. In: Proceedings of the Third AACR International Conference on Frontiers in Basic Cancer Research; Sep 18-22, 2013; National Harbor, MD. Philadelphia (PA): AACR; Cancer Res 2013;73(19 Suppl):Abstract nr A49.

Abstract 696: Development of selective CDK8 inhibitors for colorectal cancer and mantle cell lymphoma treatment

CDK8 is a kinase component of the mediator complex which functions as a bridge between a basal transcriptional machinery and specific transcription factors. CDK8 is amplified and differentially expressed in colorectal cancer and in certain hematological malignancies such as mantle cell lymphomas. Cells that express elevated CDK8 levels are highly dependent on its expression for proliferation. Here we report development of first-in-class selective inhibitors CDK8. Compounds from the SEL120 series have binding affinities towards CDK8 in the low nM range. Results from the kinome panel indicated that selectivity of SEL120 compounds was comparable with some of the most selective clinical kinase inhibitors. SEL120 compounds reduced viability of mantle cell lymphoma and colorectal cancer cell lines, with particularly good activity in cell lines overexpressing CDK8 and with G13D mutation in KRAS. Slightly lower sensitivity was observed for cells with mutated P53 and other mutations in KRAS/BRAF pathway. In contrast to pan-CDK inhibitors with main target activity on CDK9, treatment with SEL120 compounds did not repress phosphorylation of PolII and did not cause global transcriptional shutdown. Selective inhibition of CDK8 was sufficient to inhibit both paracrine and autocrine activities of cancer cells and stimulated normal cells. Production of proinflammatory cytokines, such as IL6 was repressed by SEL120 compounds in normal and cancer cells stimulated by sub-optimal doses of chemotherapeutics. SEL120 also reduced both murine and human IL6 in blood of mice bearing human xenograft models. Oral administration of SEL120 revealed favorable pharmacokinetics profile and strong, dose dependent potency in colon cancer mouse xenograft models. Presented data validate inhibition of CDK8 as a promising strategy for anticancer treatment, particularly for CRC and mantle cell lymphomas resistant to current treatments.

Citation Format: Tomasz Rzymski, Adrian Zarebski, Renata Windak, Karolina Krawczynska, Ewa Trebacz, Agnieszka Dreas, Katarzyna Kucwaj, Karolina Osowska, Marek Cholody, Paulina Szczepanska, Jakub Woyciechowski, Radosław Obuchowicz, Magdalena Salwińska, Joanna Fogt, Malgorzata Zurawska, Arkadiusz Białas, Katarzyna Wiklik, Mariusz Milik, Angelo Sanzone, Adam Radzimierski, Krzysztof Brzózka. Development of selective CDK8 inhibitors for colorectal cancer and mantle cell lymphoma treatment. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 696. doi:10.1158/1538-7445.AM2013-696

(4S)-(−)-4-Benzyl-2,2-dimethyl-3-o-toluoyl-1,3-oxazolidine

The absolute configuration of the title compound, C₂₀H₂₃NO₂, has been confirmed as 4S. The benzyl residue and H atom at the asymmetric C-atom centre occupy pseudo-axial and bis­ectional positions, respectively. The oxazolidine ring adopts an envelope conformation. In the crystal structure, the mol­ecular packing is stabilized by non-classical C—H⋯O hydrogen bonds.