Abstract
Although several constitutive proteasome inhibitors have been reported these recent years, potent organic, noncovalent and readily available inhibitors are still poorly documented. Here we used a structure- and ligand-based in silico approach to identify commercially available 1,2,4-oxadiazole derivatives as non-covalent human 20S proteasome inhibitors. Their optimization led to the newly synthesized compound 4h that is a mixed proteasomal inhibitor of the chymotrypsin- like activity (Ki of 26,1 nM and K’i of 7.5 nM) which is in addition selective versus the challenging cathepsin B and calpain proteases. Molecular modelling studies corroborated the mechanism of inhibition and suggest an unusual binding of the inhibitor within the S5 binding pocket (β6 subunit). The cellular effects of our compounds validate their utility as potential pharmacological agents for anti-cancer pre-clinical studies.
Keywords: Chymotrypsin-like subsite S5 binding, cytotoxicity, non-covalent inhibitors, oxadiazoles, proteasome, virtual screening.
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Chronic inflammation is a hallmark of numerous diseases, significantly impacting global health. Although chronic inflammation is a hot topic, not much has been written about approaches to its treatment. This thematic issue aims to showcase the latest advancements in chronic inflammation treatment and foster discussion on future directions in this ...read more
Chalcogen-modified nucleic acid analogues
Chalcogen-modified nucleosides, nucleotides and oligonucleotides have been of great interest to scientific research for many years. The replacement of oxygen in the nucleobase, sugar or phosphate backbone by chalcogen atoms (sulfur, selenium, tellurium) gives these biomolecules unique properties resulting from their altered physical and chemical properties. The continuing interest in ...read more
Clinical and Computational Analysis of Variants Associated with Rare Genetic Disorders
This thematic issue focuses on integrating clinical insights and computational techniques in the study of genetic variants linked to rare genetic disorders. Rare diseases, while individually uncommon, collectively affect millions of people worldwide, making their understanding and diagnosis critical to personalized medicine. Advances in next-generation sequencing (NGS) and bioinformatics tools ...read more
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