Compounds > 5-nitro-8-(1-pyrrolidinyl)quinoline

5-nitro-8-(1-pyrrolidinyl)quinoline and nitroxoline

5-nitro-8-(1-pyrrolidinyl)quinoline has been researched along with nitroxoline* in 2 studies

Other Studies

2 other study(ies) available for 5-nitro-8-(1-pyrrolidinyl)quinoline and nitroxoline

Article	Year
Nitroxoline and its derivatives are potent inhibitors of metallo-β-lactamases. European journal of medicinal chemistry, 2022, Jan-15, Volume: 228 Carbapenemases such as metallo-β-lactamases (MBLs) are spreading among Gram-negative bacterial pathogens. Infections due to these multidrug-resistant bacteria constitute a major global health challenge. Therapeutic strategies against carbapenemase producing bacteria include β-lactamase inhibitor combinations. Nitroxoline is a broad-spectrum antibiotic with restricted indication for urinary tract infections. In this study, we report on nitroxoline as an inhibitor of MBLs. We investigate the structure-activity relationships of nitroxoline derivatives considering in vitro MBL inhibitory potency in a fluorescence based assay using purified recombinant MBLs, NDM-1 and VIM-1. We investigated the most potent nitroxoline derivative in combination with imipenem against clinical isolates as well as transformants producing MBL by broth microdilution and time-kill kinetics. Our findings demonstrate that nitroxoline derivatives are potent MBL inhibitors and in combination with imipenem overcome MBL-mediated carbapenem resistance. Topics: Anti-Bacterial Agents; beta-Lactamase Inhibitors; beta-Lactamases; Cell Survival; Cells, Cultured; Dose-Response Relationship, Drug; Gram-Negative Bacteria; Humans; Microbial Sensitivity Tests; Molecular Structure; Nitroquinolines; Recombinant Proteins; Structure-Activity Relationship	2022
Development of new cathepsin B inhibitors: combining bioisosteric replacements and structure-based design to explore the structure-activity relationships of nitroxoline derivatives. Journal of medicinal chemistry, 2013, Jan-24, Volume: 56, Issue:2 Human cathepsin B has many house-keeping functions, such as protein turnover in lysosomes. However, dysregulation of its activity is associated with numerous diseases, including cancers. We present here the structure-based design and synthesis of new cathepsin B inhibitors using the cocrystal structure of 5-nitro-8-hydroxyquinoline in the cathepsin B active site. A focused library of over 50 compounds was prepared by modifying positions 5, 7, and 8 of the parent compound nitroxoline. The kinetic parameters and modes of inhibition were characterized, and the selectivities of the most promising inhibitors were determined. The best performing inhibitor 17 was effective in cell-based in vitro models of tumor invasion, where it significantly abrogated invasion of MCF-10A neoT cells. These data show that we have successfully explored the structure-activity relationships of nitroxoline derivatives to provide new inhibitors that could eventually lead to compounds with clinical usefulness against the deleterious effects of cathepsin B in cancer progression. Topics: Cathepsin B; Cysteine Proteinase Inhibitors; Nitroquinolines; Structure-Activity Relationship	2013

Article

Year

Nitroxoline and its derivatives are potent inhibitors of metallo-β-lactamases.

European journal of medicinal chemistry, 2022, Jan-15, Volume: 228

Carbapenemases such as metallo-β-lactamases (MBLs) are spreading among Gram-negative bacterial pathogens. Infections due to these multidrug-resistant bacteria constitute a major global health challenge. Therapeutic strategies against carbapenemase producing bacteria include β-lactamase inhibitor combinations. Nitroxoline is a broad-spectrum antibiotic with restricted indication for urinary tract infections. In this study, we report on nitroxoline as an inhibitor of MBLs. We investigate the structure-activity relationships of nitroxoline derivatives considering in vitro MBL inhibitory potency in a fluorescence based assay using purified recombinant MBLs, NDM-1 and VIM-1. We investigated the most potent nitroxoline derivative in combination with imipenem against clinical isolates as well as transformants producing MBL by broth microdilution and time-kill kinetics. Our findings demonstrate that nitroxoline derivatives are potent MBL inhibitors and in combination with imipenem overcome MBL-mediated carbapenem resistance.

Topics: Anti-Bacterial Agents; beta-Lactamase Inhibitors; beta-Lactamases; Cell Survival; Cells, Cultured; Dose-Response Relationship, Drug; Gram-Negative Bacteria; Humans; Microbial Sensitivity Tests; Molecular Structure; Nitroquinolines; Recombinant Proteins; Structure-Activity Relationship

2022

Development of new cathepsin B inhibitors: combining bioisosteric replacements and structure-based design to explore the structure-activity relationships of nitroxoline derivatives.

Journal of medicinal chemistry, 2013, Jan-24, Volume: 56, Issue:2

Human cathepsin B has many house-keeping functions, such as protein turnover in lysosomes. However, dysregulation of its activity is associated with numerous diseases, including cancers. We present here the structure-based design and synthesis of new cathepsin B inhibitors using the cocrystal structure of 5-nitro-8-hydroxyquinoline in the cathepsin B active site. A focused library of over 50 compounds was prepared by modifying positions 5, 7, and 8 of the parent compound nitroxoline. The kinetic parameters and modes of inhibition were characterized, and the selectivities of the most promising inhibitors were determined. The best performing inhibitor 17 was effective in cell-based in vitro models of tumor invasion, where it significantly abrogated invasion of MCF-10A neoT cells. These data show that we have successfully explored the structure-activity relationships of nitroxoline derivatives to provide new inhibitors that could eventually lead to compounds with clinical usefulness against the deleterious effects of cathepsin B in cancer progression.

Topics: Cathepsin B; Cysteine Proteinase Inhibitors; Nitroquinolines; Structure-Activity Relationship

2013