From proteomics to discovery of first-in-class ST2 inhibitors active in vivo
Abdulraouf M. Ramadan, Etienne Daguindau, Jason C. Rech, Krishnapriya Chinnaswamy, Jilu Zhang, Greg L. Hura, Brad Griesenauer, Zachary Bolten, Aaron Robida, Martha Larsen, Jeanne A. Stuckey, Chao-Yie Yang, Sophie Paczesny
Abdulraouf M. Ramadan, Etienne Daguindau, Jason C. Rech, Krishnapriya Chinnaswamy, Jilu Zhang, Greg L. Hura, Brad Griesenauer, Zachary Bolten, Aaron Robida, Martha Larsen, Jeanne A. Stuckey, Chao-Yie Yang, Sophie Paczesny
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Research Article Therapeutics Transplantation

From proteomics to discovery of first-in-class ST2 inhibitors active in vivo

Abstract

Soluble cytokine receptors function as decoy receptors to attenuate cytokine-mediated signaling and modulate downstream cellular responses. Dysregulated overproduction of soluble receptors can be pathological, such as soluble ST2 (sST2), a prognostic biomarker in cardiovascular diseases, ulcerative colitis, and graft-versus-host disease (GVHD). Although intervention using an ST2 antibody improves survival in murine GVHD models, sST2 is a challenging target for drug development because it binds to IL-33 via an extensive interaction interface. Here, we report the discovery of small-molecule ST2 inhibitors through a combination of high-throughput screening and computational analysis. After in vitro and in vivo toxicity assessment, 3 compounds were selected for evaluation in 2 experimental GVHD models. We show that the most effective compound, iST2-1, reduces plasma sST2 levels, alleviates disease symptoms, improves survival, and maintains graft-versus-leukemia activity. Our data suggest that iST2-1 warrants further optimization to develop treatment for inflammatory diseases mediated by sST2.

Authors

Abdulraouf M. Ramadan, Etienne Daguindau, Jason C. Rech, Krishnapriya Chinnaswamy, Jilu Zhang, Greg L. Hura, Brad Griesenauer, Zachary Bolten, Aaron Robida, Martha Larsen, Jeanne A. Stuckey, Chao-Yie Yang, Sophie Paczesny

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Figure 2

In vitro and in vivo toxicity evaluation of selected candidates.

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In vitro and in vivo toxicity evaluation of selected candidates. (A) Hum...
(A) Human PBMC death induced by compounds at 3 concentrations after incubation for 20 hours (duplicate per compound at each concentration). IC50 values determined by the AlphaLISA are shown in parentheses. Compounds belonging to chemotypes I, II, and III and unclassified are grouped together. CB6114052, CB5107562, and NAT13-343201 are 3 initial hits. The average IC50 values of 17 compounds at 63.7 μM were used as references for setting the maximum concentration at 66 μM. (B) Titration curves for iST2-1, iST2-2, and iST2-4 measured with the AlphaLISA and the HEK-Blue IL-33 assay. (C) In vivo dose-escalation toxicity evaluation of 7 selected compounds in healthy mice. Data represent mean ± SEM (n = 3 per compound). hPBMC, human peripheral blood mononuclear cell.