Energy and biomass production in cancer cells are largely supported by aerobic glycolysis in what is called the Warburg effect. The process is regulated by key enzymes, among which phosphofructokinase PFK‐2 plays a significant role by producing fructose‐2,6‐biphosphate; the most potent activator of the glycolysis rate‐limiting step performed by phosphofructokinase PFK‐1. Herein, the synthesis, biological evaluation and structure–activity relationship of novel inhibitors of 6‐phosphofructo‐2‐kinase/fructose‐2,6‐biphosphatase 3 (PFKFB3), which is the ubiquitous and hypoxia‐induced isoform of PFK‐2, are reported. X‐ray crystallography and docking were instrumental in the design and optimisation of a series of N‐aryl 6‐aminoquinoxalines. The most potent representative, N‐(4‐methanesulfonylpyridin‐3‐yl)‐8‐(3‐methyl‐1‐benzothiophen‐5‐yl)quinoxalin‐6‐amine, displayed an IC50 of 14 nm for the target and an IC50 of 0.49 μm for fructose‐2,6‐biphosphate production in human colon carcinoma HCT116 cells. This work provides a new entry in the field of PFKFB3 inhibitors with potential for development in oncology.
Background: Stimulator of Interferon Genes (STING) is a major player in the activation of robust innate immune response leading to initiation and enhancement of tumor-specific adaptive immunity. Several clinical and pre-clinical programs are developing cyclic dinucleotides - analogues of endogenous STING ligands. However their chemical nature and stability limit their use as systemic immuno-therapeutics. Herein, we present potent and selective non-nucleotide, non-macrocyclic, small molecule direct STING agonists, structurally unrelated to known chemotypes and suitable for systemic administration. Methods: Binding to recombinant STING protein was examined using FTS, MST, FP and crystallography studies. Phenotypic screen was performed in THP-1 Dual reporter cells. Human macrophages (HMDM) and dendritic cells (HMDC) were differentiated from monocytes (obtained from PBMC) in the presence of M-CSF and GM-CSF/IL-4 for HMDM and HMDC, respectively. Mouse bone marrow-derived dendritic cells (BMDC) were obtained from C57BL/6 or STING KO mice and differentiated with mIL-4 and mGM-CSF. STING agonists were administered into BALB/c mice and cytokine release was measured in plasma. Additionally, mice were inoculated with CT26 murine colon carcinoma cells and the compound was administered, followed by the regular tumor growth monitoring. Finally, the compound was administered to C57BL/6 WT and STING KO mice in several escalating doses. Results: Ryvu's agonists demonstrate a strong binding affinity to recombinant STING proteins across tested species. They trigger pro-inflammatory cytokine release from human PBMC and HMDC and induce dendritic cell maturation regardless of the STING haplotype. Systemic in vivo administration leads to dose-dependent upregulation of STING-dependent pro-inflammatory cytokines, suggesting immune activation which translates into efficacy in vivo in CT26 mouse colorectal cancer model and complete tumor remissions. Furthermore, cured animals develop lasting immunological response demonstrated by diminished tumor growth or lack of palpable tumors in re-challenged mice. Conclusion: Ryvu's STING agonists selectively activate STING-dependent signaling in both mouse and human immune cells promoting anti-tumor immunity. Treatment with Ryvu's STING agonists leads to engagement of the immune system which results in complete tumor remission and development of immunological memory against cancer cells. The compounds show good selectivity and ADME properties enabling development for systemic administration as a single agent or in combinations with immunotherapies or targeted agents. Citation Format: Stefan Chmielewski, Magdalena Zawadzka, Jolanta Mazurek, Maciej K. Rogacki, Karolina Gluza, Katarzyna Wójcik-Jaszczyńska, Aleksandra Poczkaj, Grzegorz Ćwiertnia, Grzegorz Topolnicki, Maciej Kujawa, Eliza Zimoląg, Urszula Głowniak-Kwitek, Magdalena Mroczkowska, Agnieszka Gibas, Marcin Leś, Sylwia Sudoł, Marek Wronowski, Kinga Michalik, Katarzyna Banaszak, Katarzyna Wiklik, Federico Malusa, Michał Combik, Karolina Wiatrowska, Łukasz Dudek, Jose Alvarez, Anna Rajda, Faustyna Gajdosz, Aniela Gołas, Katarzyna Wnuk-Lipińska, Kamil Kuś, Ewelina Gabor-Worwa, Charles Fabritius, Luigi Stasi, Peter Littlewood, Krzysztof Brzózka, Monika Dobrzańska. Development of selective small molecule STING agonists suitable for systemic administration [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 4532A.
Accumulating evidence highlights an important role of type I interferon response in the immune surveillance mechanisms. IFNβ release by antigen-presenting cells promotes spontaneous anti-tumor CD8+ T cell priming being largely dependent on activation of Stimulator of Interferon Genes (STING). STING agonists promote regression of established tumors and generation of long-term immunologic memory in preclinical animal models. Herein we report the discovery of potent and selective, first-in-class non-nucleotide, non-macrocyclic, small molecule direct STING agonists with molecular weight below 500, structurally unrelated to known cyclic dinucleotide chemotypes with potential for systemic administration. Activation of STING pathway was monitored in THP-1 Dual reporter monocytic cell line as well as peripheral blood mononuclear cells (PBMC) or antigen presenting cells from human and mouse origin. Surface expression of the antigen-presenting cell maturation markers i.e. CD80, CD86, CD83 and HLA-DR was assessed by flow cytometry. Binding affinity was confirmed by three independent assays. RNA sequencing was performed on total RNA isolated from THP-1 cells and PBMC isolated from 2 healthy human donors. Direct binding to both mouse and human STING protein of Selvita agonists have been confirmed in biophysical binding assays (FTS, MST and FP) and by crystallography studies. The compounds have fine-tunable ADME properties with good solubility, permeability and human plasma stability. They selectively activates STING-dependent signaling in both THP-1 reporter assays and in primary cells of human and mouse origin. In addition, RNA sequencing data confirmed selectivity of the Selvita compounds. In vitro functional assays demonstrated their ability to induce cytokine responses (IFNβ, TNFα) in a panel of human peripheral blood mononuclear cell (PBMC), human monocyte derived macrophage (HMDM) and human dendritic cells samples with various STING haplotypes including refractory alleles. Additionally, the compounds efficiently induced cytokine release in mouse bone marrow-derived macrophages and dendritic cells. Pro-inflammatory cytokine profile was accompanied by up-regulation of the maturation markers, i.e. CD80, CD86, CD83 and HLA-DR, on the surface of human antigen presenting cells. These data demonstrate potent, novel, next-generation small molecule STING agonists activating STING-dependent signaling in both mouse and human immune cells to promote potential antitumor immunity. The compounds show good selectivity and in vitro ADME properties enabling further development for systemic administration as a single agent or in combinatory immunotherapies for cancer treatment. Citation Format: Monika Dobrzańska, Stefan Chmielewski, Magdalena Zawadzka, Jolanta Mazurek, Karolina Gluza, Katarzyna Wójcik-Jaszczyńska, Maciej Kujawa, Grzegorz Topolnicki, Grzegorz Ćwiertnia, Aleksandra Poczkaj, Izabela Dolata, Magdalena Mroczkowska, Agnieszka Gibas, Marcin Leś, Sylwia Sudoł, Adam Radzimierski, Kinga Michalik, Magdalena Sieprawska-Lupa, Katarzyna Banaszak, Katarzyna Wiklik, Federico Malusa, Michał Combik, Karolina Wiatrowska, Agnieszka Adamus, Lukasz Dudek, Jose Alvarez, Charles Fabritius, Anna Rajda, Maciej Rogacki, Faustyna Gajdosz, Peter Littlewood, Luigi Stasi, Krzysztof Brzózka. Discovery and characterization of next-generation small molecule direct STING agonists [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 4983.
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