Your search keyword '"Pieroni, Marco"' showing total 5 results

1. Refining the structure−activity relationships of 2-phenylcyclopropane carboxylic acids as inhibitors of O-acetylserine sulfhydrylase isoforms.

Author

Magalhães, Joana, Franko, Nina, Annunziato, Giannamaria, Pieroni, Marco, Benoni, Roberto, Nikitjuka, Anna, Mozzarelli, Andrea, Bettati, Stefano, Karawajczyk, Anna, Jirgensons, Aigars, Campanini, Barbara, and Costantino, Gabriele

Subjects

STRUCTURE-activity relationships, CARBOXYLIC acids, SALMONELLA enterica serovar typhimurium, MULTIDRUG resistance in bacteria, PHARMACEUTICAL chemistry

Abstract

The lack of efficacy of current antibacterials to treat multidrug resistant bacteria poses a life-threatening alarm. In order to develop enhancers of the antibacterial activity, we carried out a medicinal chemistry campaign aiming to develop inhibitors of enzymes that synthesise cysteine and belong to the reductive sulphur assimilation pathway, absent in mammals. Previous studies have provided a novel series of inhibitors for O-acetylsulfhydrylase – a key enzyme involved in cysteine biosynthesis. Despite displaying nanomolar affinity, the most active representative of the series was not able to interfere with bacterial growth, likely due to poor permeability. Therefore, we rationally modified the structure of the hit compound with the aim of promoting their passage through the outer cell membrane porins. The new series was evaluated on the recombinant enzyme from Salmonella enterica serovar Typhimurium, with several compounds able to keep nanomolar binding affinity despite the extent of chemical manipulation. [ABSTRACT FROM AUTHOR]

Published

2019

2. Discovering a new class of antifungal agents that selectively inhibits microbial carbonic anhydrases.

Author

Annunziato, Giannamaria, Giovati, Laura, Angeli, Andrea, Pavone, Marialaura, Del Prete, Sonia, Pieroni, Marco, Capasso, Clemente, Bruno, Agostino, Conti, Stefania, Magliani, Walter, Supuran, Claudiu T., and Costantino, Gabriele

Subjects

ANTIFUNGAL agents, CARBONIC anhydrase, CRYPTOCOCCUS neoformans, ANTI-infective agents, DRUG development, DRUG design

Abstract

Infections caused by pathogens resistant to the available antimicrobial treatments represent nowadays a threat to global public health. Recently, it has been demonstrated that carbonic anhydrases (CAs) are essential for the growth of many pathogens and their inhibition leads to growth defects. Principal drawbacks in using CA inhibitors (CAIs) as antimicrobial agents are the side effects due to the lack of selectivity toward human CA isoforms. Herein we report a new class of CAIs, which preferentially interacts with microbial CA active sites over the human ones. The mechanism of action of these inhibitors was investigated against an important fungal pathogen, Cryptococcus neoformans, revealing that they are also able to inhibit CA in microbial cells growing in vitro. At our best knowledge, this is the first report on newly designed synthetic compounds selectively targeting β-CAs and provides a proof of concept of microbial CAs suitability as an antimicrobial drug target. [ABSTRACT FROM AUTHOR]

Published

2018

3. Discovery of novel fragments inhibiting O-acetylserine sulphhydrylase by combining scaffold hopping and ligand-based drug design.

Author

Magalhães, Joana, Franko, Nina, Annunziato, Giannamaria, Welch, Martin, Dolan, Stephen K., Bruno, Agostino, Mozzarelli, Andrea, Armao, Stefano, Jirgensons, Aigars, Pieroni, Marco, Costantino, Gabriele, and Campanini, Barbara

Subjects

DRUG development, CYSTEINE synthase, LIGANDS (Biochemistry), DRUG design, PHARMACOLOGY, VIRULENCE of bacteria

Abstract

Several bacteria rely on the reductive sulphur assimilation pathway, absent in mammals, to synthesise cysteine. Reduction of virulence and decrease in antibiotic resistance have already been associated with mutations on the genes that codify cysteine biosynthetic enzymes. Therefore, inhibition of cysteine biosynthesis has emerged as a promising strategy to find new potential agents for the treatment of bacterial infection. Following our previous efforts to explore OASS inhibition and to expand and diversify our library, a scaffold hopping approach was carried out, with the aim of identifying a novel fragment for further development. This novel chemical tool, endowed with favourable pharmacological characteristics, was successfully developed, and a preliminary Structure-Activity Relationship investigation was carried out. [ABSTRACT FROM AUTHOR]

Published

2018

4. Cyclopropane-1,2-dicarboxylic acids as new tools for the biophysical investigation of O -acetylserine sulfhydrylases by fluorimetric methods and saturation transfer difference (STD) NMR.

Author

Annunziato, Giannamaria, Pieroni, Marco, Benoni, Roberto, Campanini, Barbara, Pertinhez, Thelma A., Pecchini, Chiara, Bruno, Agostino, Magalhães, Joana, Bettati, Stefano, Franko, Nina, Mozzarelli, Andrea, and Costantino, Gabriele

Subjects

*CYCLOPROPANE, *DICARBOXYLIC acids, *PHYSICAL biochemistry, *NUCLEAR magnetic resonance, *DRUG resistance

Abstract

Cysteine is a building block for many biomolecules that are crucial for living organisms.O-Acetylserine sulfhydrylase (OASS), present in bacteria and plants but absent in mammals, catalyzes the last step of cysteine biosynthesis. This enzyme has been deeply investigated because, beside the biosynthesis of cysteine, it exerts a series of “moonlighting” activities in bacteria. We have previously reported a series of molecules capable of inhibiting Salmonella typhimurium (S. typhymurium) OASS isoforms at nanomolar concentrations, using a combination of computational and spectroscopic approaches. The cyclopropane-1,2-dicarboxylic acids presented herein provide further insights into the binding mode of small molecules to OASS enzymes. Saturation transfer difference NMR (STD-NMR) was used to characterize the molecule/enzyme interactions for both OASS-A and B. Most of the compounds induce a several fold increase in fluorescence emission of the pyridoxal 5′-phosphate (PLP) coenzyme upon binding to either OASS-A or OASS-B, making these compounds excellent tools for the development of competition-binding experiments. [ABSTRACT FROM PUBLISHER]

Published

2016

5. Cyclopropane derivatives as potential human serine racemase inhibitors: unveiling novel insights into a difficult target.

Author

Beato, Claudia, Pecchini, Chiara, Cocconcelli, Chiara, Campanini, Barbara, Marchetti, Marialaura, Pieroni, Marco, Mozzarelli, Andrea, and Costantino, Gabriele

Subjects

CYCLOPROPANE, ENZYME inhibitors, RACEMASES, SERINE, METHYL aspartate receptors, NEURODEGENERATION, MOLECULAR docking

Abstract

d-Serine is the co-agonist of NMDA receptors and binds to the so-called glycine site.d-Serine is synthesized by human serine racemase (SR). Over activation of NMDA receptors is involved in many neurodegenerative diseases and, therefore, the inhibition of SR might represent a novel strategy for the treatment of these pathologies. SR is a very difficult target, with only few compounds so far identified exhibiting weak inhibitory activity. This study was aimed at the identification of novel SR inhibitor by mimicking malonic acid, the best-known SR inhibitor, with a cyclopropane scaffold. We developed, synthesized, and tested a series of cyclopropane dicarboxylic acid derivatives, complementing the synthetic effort with molecular docking. We identified few compounds that bind SR in high micromolar range with a lack of significant correlation between experimental and predicted binding affinities. The thorough analysis of the results can be exploited for the development of more potent SR inhibitors. [ABSTRACT FROM AUTHOR]

Published

2016