Selective BET bromodomain inhibition as an antifungal therapeutic strategy
Copyright policy )Selective BET bromodomain inhibition as an antifungal therapeutic strategy
AbstractInvasive fungal infections cause significant morbidity and mortality among immunocompromised individuals, posing an urgent need for new antifungal therapeutic strategies. Here we investigate a chromatin-interacting module, the bromodomain (BD) from the BET family of proteins, as a potential antifungal target in Candida albicans, a major human fungal pathogen. We show that the BET protein Bdf1 is essential in C. albicans and that mutations inactivating its two BDs result in a loss of viability in vitro and decreased virulence in mice. We report small-molecule compounds that inhibit C. albicans Bdf1 with high selectivity over human BDs. Crystal structures of the Bdf1 BDs reveal binding modes for these inhibitors that are sterically incompatible with the human BET-binding pockets. Furthermore, we report a dibenzothiazepinone compound that phenocopies the effects of a Bdf1 BD-inactivating mutation on C. albicans viability. These findings establish BET inhibition as a promising antifungal therapeutic strategy and identify Bdf1 as an antifungal drug target that can be selectively inhibited without antagonizing human BET function.
Models, Molecular, Antifungal Agents, [SDV.BBM.BS] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Structural Biology [q-bio.BM], Pyridines, [CHIM.THER] Chemical Sciences/Medicinal Chemistry, Science, 610, Gene Expression, Protein-Degradation, [CHIM.THER]Chemical Sciences/Medicinal Chemistry, Crystallography, X-Ray, Salt Stress, [SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry, Histone Deacetylases, Article, Protein Structure, Secondary, Fungal Proteins, Benzodiazepines, Mice, Small-Molecule Inhibitors, Validation, Candida albicans, Candida-Albicans, Saccharomyces-Cerevisiae, Animals, Humans, Protein Interaction Domains and Motifs, Amino Acid Sequence, Molecular Targeted Therapy, Crystallography, Binding Sites, Molecular Biology/Structural Biology [q-bio.BM], Q, Small-Molecule Inhibitors;Saccharomyces-Cerevisiae ; Histone Deacetylases ; Protein-Degradation ; Candida-Albicans ;Salt Stress ;Acetylation ; Chromatin ;Crystallography ;Validation, Candidiasis, Acetylation, Azepines, 540, Chromatin, Azabicyclo Compounds, Protein Binding
Models, Molecular, Antifungal Agents, [SDV.BBM.BS] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Structural Biology [q-bio.BM], Pyridines, [CHIM.THER] Chemical Sciences/Medicinal Chemistry, Science, 610, Gene Expression, Protein-Degradation, [CHIM.THER]Chemical Sciences/Medicinal Chemistry, Crystallography, X-Ray, Salt Stress, [SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry, Histone Deacetylases, Article, Protein Structure, Secondary, Fungal Proteins, Benzodiazepines, Mice, Small-Molecule Inhibitors, Validation, Candida albicans, Candida-Albicans, Saccharomyces-Cerevisiae, Animals, Humans, Protein Interaction Domains and Motifs, Amino Acid Sequence, Molecular Targeted Therapy, Crystallography, Binding Sites, Molecular Biology/Structural Biology [q-bio.BM], Q, Small-Molecule Inhibitors;Saccharomyces-Cerevisiae ; Histone Deacetylases ; Protein-Degradation ; Candida-Albicans ;Salt Stress ;Acetylation ; Chromatin ;Crystallography ;Validation, Candidiasis, Acetylation, Azepines, 540, Chromatin, Azabicyclo Compounds, Protein Binding
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