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1.
Bioorg Med Chem Lett ; 110: 129844, 2024 Sep 15.
Artigo em Inglês | MEDLINE | ID: mdl-38851357

RESUMO

Gram-negative bacteria pose a major challenge in antibiotic drug discovery because their cell envelope presents a permeability barrier that affords high intrinsic resistance to small-molecule drugs. The identification of correlations between chemical structure and Gram-negative permeability would thus enable development of predictive tools to facilitate antibiotic discovery. Toward this end, have advanced a library design paradigm in which various chemical scaffolds are functionalized at different regioisomeric positions using a uniform reagent set. This design enables decoupling of scaffold, regiochemistry, and substituent effects upon Gram-negative permeability of these molecules. Building upon our recent synthesis of a library of C2-substituted sulfamidoadenosines, we have now developed an efficient synthetic route to an analogous library of regioisomeric C8-substituted congeners. The C8 library samples a region of antibiotic-relevant chemical space that is similar to that addressed by the C2 library, but distinct from that sampled by a library of analogously substituted oxazolidinones. Selected molecules were tested for accumulation in Escherichia coli in a pilot analysis, setting the stage for full comparative evaluation of these libraries in the future.


Assuntos
Antibacterianos , Desenho de Fármacos , Escherichia coli , Bibliotecas de Moléculas Pequenas , Antibacterianos/farmacologia , Antibacterianos/síntese química , Antibacterianos/química , Bibliotecas de Moléculas Pequenas/química , Bibliotecas de Moléculas Pequenas/síntese química , Bibliotecas de Moléculas Pequenas/farmacologia , Escherichia coli/efeitos dos fármacos , Estrutura Molecular , Testes de Sensibilidade Microbiana , Relação Estrutura-Atividade , Permeabilidade
2.
Bioorg Med Chem Lett ; 97: 129486, 2024 01 01.
Artigo em Inglês | MEDLINE | ID: mdl-37734424

RESUMO

Antibiotic resistance is a major threat to public health, and Gram-negative bacteria pose a particular challenge due to their combination of a low permeability cell envelope and efflux pumps. Our limited understanding of the chemical rules for overcoming these barriers represents a major obstacle in antibacterial drug discovery. Several recent efforts to address this problem have involved screening compound libraries for accumulation in bacteria in order to understand the structural properties required for Gram-negative permeability. Toward this end, we used cheminformatic analysis to design a library of sulfamidoadenosines (AMSN) having diverse substituents at the adenine C2 position. An efficient synthetic route was developed with installation of a uniform cross-coupling reagent set using Sonogashira and Suzuki reactions of a C2-iodide. The potential utility of these compounds was demonstrated by pilot analysis of selected analogues for accumulation in Escherichia coli.


Assuntos
Antibacterianos , Bactérias Gram-Negativas , Antibacterianos/química , Descoberta de Drogas , Escherichia coli , Permeabilidade/efeitos dos fármacos , Adenosina/química , Adenosina/farmacologia
3.
J Am Chem Soc ; 144(32): 14687-14697, 2022 08 17.
Artigo em Inglês | MEDLINE | ID: mdl-35917476

RESUMO

The LC3/GABARAP family of proteins is involved in nearly every stage of autophagy. Inhibition of LC3/GABARAP proteins is a promising approach to blocking autophagy, which sensitizes advanced cancers to DNA-damaging chemotherapy. Here, we report the structure-based design of stapled peptides that inhibit GABARAP with nanomolar affinities. Small changes in staple structure produced stapled peptides with very different binding modes and functional differences in LC3/GABARAP paralog selectivity, ranging from highly GABARAP-specific to broad inhibition of both subfamilies. The stapled peptides exhibited considerable cytosolic penetration and resistance to biological degradation. They also reduced autophagic flux in cultured ovarian cancer cells and sensitized ovarian cancer cells to cisplatin. These small, potent stapled peptides represent promising autophagy-modulating compounds that can be developed as novel cancer therapeutics and novel mediators of targeted protein degradation.


Assuntos
Proteínas Associadas aos Microtúbulos , Neoplasias Ovarianas , Proteínas Reguladoras de Apoptose/metabolismo , Autofagia , Feminino , Humanos , Proteínas Associadas aos Microtúbulos/química , Proteínas Associadas aos Microtúbulos/metabolismo , Peptídeos/farmacologia
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