Although amantadine derivatives are the only M2 drugs for influenza virus A, their use is limited in the U.S. because of drug resistance. Here we report the identification of multiple M2 inhibitors that were rapidly generated through focused screening of a small primary amine library that was designed using a scaffold-hopping strategy based on amantadine. These compounds are as active as amantadine and might be hits for further lead generation processes.
P2X receptors are cation-permeable ion channels gated by extracellular adenosine triphosphate (ATP). Available crystallographic data suggest that ATP-binding ectodomain is connected to the transmembrane pore domain by three structurally conserved linker regions, which additionally frame the lateral fenestrations through which permeating ions enter the channel pore. The role of these linker regions in relaying the conformational change evoked by ATP binding of the ectodomain to the pore-forming transmembrane domain has not been investigated systematically. Using P2X 4 R as our model, we employed alanine and serine replacement mutagenesis to determine how the side chain structure of these linker regions influences gating. The mutants Y54A/S, F198A/S, and W259A/S all trafficked normally to the plasma membrane of transfected HEK293 cells but were poorly responsive to ATP. Nevertheless, the function of the F198A/S mutants could be recovered by pretreatment with the known positive allosteric modulator of P2X 4 R, ivermectin (IVM), although the IVM sensitivity of this mutant was significantly impaired relative to wild type. The functional mutants Y195A/S, F200A/S, and F330A/S exhibited ATP sensitivities identical to wild type, consistent with these side chains playing no role in ATP binding. However, Y195A/S, F200A/S, and F330A/S all displayed markedly changed sensitivity to the specific effects of IVM on current deactivation, suggesting that these positions influence allosteric modulation of gating. Taken together, our data indicate that conserved amino acids within the regions linking the ectodomain with the pore-forming transmembrane domain meaningfully contribute to signal transduction and channel gating in P2X receptors.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.