The Discovery and Development of Thienopyrimidines as Inhibitors of Helicobacter pylori That Act through Inhibition of the Respiratory Complex I.
Alex K MugenganaNicole A VitaAutumn Brown GandtKevin MoranGeorge AgyapongLalit K SharmaElizabeth C GriffithJiuyu LiuLei YangEkaterina GavrishKirk E HevenerMichael D LaFleurRichard E LeePublished in: ACS infectious diseases (2021)
The successful treatment of Helicobacter pylori infections is becoming increasingly difficult due to the rise of resistance against current broad spectrum triple therapy regimens. In the search for narrow-spectrum agents against H. pylori, a high-throughput screen identified two structurally related thienopyrimidine compounds that selectively inhibited H. pylori over commensal members of the gut microbiota. To develop the structure-activity relationship (SAR) of the thienopyrimidines against H. pylori, this study employed four series of modifications in which systematic substitution to the thienopyrimidine core was explored and ultimately side-chain elements optimized from the two original hits were merged into lead compounds. During the development of this series, the mode of action studies identified H. pylori's respiratory complex I subunit NuoD as the target for lead thienopyrimidines. As this enzyme complex is uniquely essential for ATP synthesis in H. pylori, a homology model of the H. pylori NuoB-NuoD binding interface was generated to help rationalize the SAR and guide further development of the series. From these studies, lead compounds emerged with increased potency against H. pylori, improved safety indices, and a good overall pharmacokinetic profile with the exception of high protein binding and poor solubility. Although lead compounds in the series demonstrated efficacy in an ex vivo infection model, the compounds had no efficacy in a mouse model of H. pylori infection. Additional optimization of pharmacological properties of the series to increase solubility and free-drug levels at the sequestered sites of H. pylori infection would potentially result in a gain of in vivo efficacy. The thienopyrimidine series developed in this study demonstrates that NuoB-NuoD of the respiratory complex I can be targeted for development of novel narrow spectrum agents against H. pylori and that thienopyrimines can serve as the basis for future advancement of these studies.