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Rebamipide and Derivatives are Potent, Selective Inhibitors of Histidine Phosphatase Activity of the Suppressor of T Cell Receptor Signaling Proteins.

Faisal AzizKanamata ReddyVirneliz Fernandez VegaRaja DeyKatherine A HicksSumitha RaoLuis Ortiz JordanEmery SmithJustin ShumateLouis ScampaviaNicholas CarpinoTimothy P SpicerJarrod B French
Published in: Journal of medicinal chemistry (2024)
The suppressor of T cell receptor signaling (Sts) proteins are negative regulators of immune signaling. Genetic inactivation of these proteins leads to significant resistance to infection. From a 590,000 compound high-throughput screen, we identified the 2-( 1H )-quinolinone derivative, rebamipide, as a putative inhibitor of Sts phosphatase activity. Rebamipide, and a small library of derivatives, are competitive, selective inhibitors of Sts-1 with IC 50 values from low to submicromolar. SAR analysis indicates that the quinolinone, the acid, and the amide moieties are all essential for activity. A crystal structure confirmed the SAR and reveals key interactions between this class of compound and the protein. Although rebamipide has poor cell permeability, we demonstrated that a liposomal preparation can inactivate the phosphatase activity of Sts-1 in cells. These studies demonstrate that Sts-1 enzyme activity can be pharmacologically inactivated and provide foundational tools and insights for the development of immune-enhancing therapies that target the Sts proteins.
Keyphrases
  • high throughput
  • crystal structure
  • induced apoptosis
  • stem cells
  • mass spectrometry
  • cell therapy
  • signaling pathway
  • dna methylation