RESUMEN
The ongoing global threats posed by COVID-19 pandemic, catalyzed by SARS-CoV-2, underscores the pressing need for effective antiviral strategies. The viral non-structural protein 1 (Nsp1) significantly influences pathogenicity by impeding host protein expression and enhancing viral RNA translation through its interaction with the stem-loop 1 (SL1) in the 5' untranslated region (UTR). We have developed a novel dual-luciferase reporter assay, designed to investigate the critical Nsp1-SL1 interaction, and identified P23E02 as a potential inhibitor. Our investigation, combining molecular docking studies and alanine mutagenesis, has unveiled that P23E02 disrupts Nsp1-40S ribosomal subunit interaction, liberating translational inhibition and empowering host antiviral responses. P23E02 exhibits antiviral efficacy against various sarbecoviruses, making it a promising candidate for combatting COVID-19 and related diseases. This study underscores the therapeutic potential of targeting the Nsp1/SL1 axis and lays the foundation for innovative antiviral interventions, ultimately fortifying global preparedness against future viral threats.
RESUMEN
Pyridine, an essential structure in drug development, shows a wide array of bioactivities according to its substitution patterns. Among the bioactive pyridines, meta-substituted pyridines suffer from limited synthetic approaches despite their significance. In this study, we present a condensation-based synthetic method enabling the facile incorporation of biologically relevant functional groups at the meta position of pyridine. This methodology unveiled the concealed reactivity of 3-formyl(aza)indoles as diformylmethane analogs for synthesizing dissymmetric di-meta-substituted pyridines without ortho and para substitutions. Furthermore, we uncovered resonance-assisted hydrogen bonding (RAHB) as the requirement for the in situ generation of enamines, the key intermediates of this transformation. Successful development of the designed methodology linked to wide applications-core remodeling of natural products, drug-natural product conjugation, late-stage functionalization of drug molecules, and synthesis of the regioisomeric CZC24832. Furthermore, we discovered anti-inflammatory agents through the functional evaluation of synthesized bi-heteroaryl analogs, signifying the utility of this methodology.