Browsing by Author "Vergelli, Claudia"

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2-Arylacetamido-4-phenylamino-5-substituted pyridazinones as formyl peptide receptors agonists
(2016-06) Vergelli, Claudia; Schepetkin, Igor A.; Ciciani, Giovanna; Cilibrizzi, Agostino; Crocetti, Letizia; Giovannoni, Maria Paola; Guerrini, Gabriella; Iacovone, Antonella; Kirpotina, Liliya N.; Khlebnikov, Andrei I.; Ye, Richard D.; Quinn, Mark T.
N-Formyl peptide receptors (FPRs: FPR1, FPR2, and FPR3) are G protein-coupled receptors that play key roles in modulating immune cells. FPRs represent potentially important therapeutic targets for the development of drugs that could enhance endogenous anti-inflammation systems associated with various pathologies, thereby reducing the progression of inflammatory conditions. Previously, we identified 2-arylacetamide pyridazin-3(2H)-ones as FPR1- or FPR2-selective agonists, as well as a large number of FPR1/FPR2-dual agonists and several mixed-agonists for the three FPR isoforms. Here, we report a new series of 2-arylacetamido-4-aniline pyridazin-3(2H)-ones substituted in position 5 as a further development of these FPR agonists. Chemical manipulation presented in this work resulted in mixed FPR agonists 8a, 13a and 27b, which had EC50 values in nanomolar range. In particular, compound 8a showed a preference for FPR1 (EC50 =45nM), while 13a and 27b showed a moderate preference for FPR2 (EC50 =35 and 61nM, respectively). Thus, these compounds may represent valuable tools for studying FPR activation and signaling.
Ebselen analogues with dual human neutrophil elastase (HNE) inhibitory and antiradical activity
(Royal Society of Chemistry, 2024-01) Crocetti, Letizia; Catarzi, Francesca; Giovannoni, Maria Paola; Vergelli, Claudia; Bartolucci, Gianluca; Pallecchi, Marco; Paoli, Paola; Rossi, Patrizia; Lippi, Martina; Schepetkin, Igor A.; Quinn, Mark T.; Guerrini, Gabriella
Human neutrophil elastase (HNE) plays an essential role in host defense against bacteria but is also involved in several respiratory diseases. Recent reports suggest that compounds exhibiting a combination of HNE inhibitory activity with antiradical properties may be therapeutically beneficial for the treatment of respiratory diseases involving inflammation and oxidative stress. We report here the synthesis and biological evaluation of novel ebselen analogues exhibiting HNE inhibitory and antiradical activities. HNE inhibition was evaluated in an enzymatic system using human HNE, whereas antiradical activity was evaluated in a cell-based assay system using phorbol 12-myristate 13-acetate (PMA)-stimulated murine bone marrow leukocytes as the source of reactive oxygen species (ROS). HNE inhibition was due to the N–CO group targeting Ser195-OH at position 2 of the scaffold, while antiradical activity was due to the presence of the selenium atom. The most active compounds 4d, 4f, and 4j exhibited a good balance between anti-HNE (IC50 = 0.9–1.4 μM) and antiradical activity (IC50 = 0.05–0.7 μM). Additionally, the solid-state structure of 4d was determined and compared to that of the similar compound N-propionyl-1,2-benzisoselenazol-3(2H)-one.
Exploration of nitrogen heterocycle scaffolds for the development of potent human neutrophil elastase inhibitors
(Elsevier BV, 2021-01) Cantini, Niccolò; Khlebnikov, Andrei I.; Crocetti, Letizia; Schepetkin, Igor A; Floresta, Giuseppe; Guerrini, Gabriella; Vergelli, Claudia; Bartolucci, Gianluca; Quinn, Mark T.; Giovannoni, Maria Paola
Human neutrophil elastase (HNE) is a potent protease that plays an important physiological role in many processes but is also involved in a variety of pathologies that affect the pulmonary system. Thus, compounds able to inhibit HNE proteolytic activity could represent effective therapeutics. We present here a new series of pyrazolopyridine and pyrrolopyridine derivatives as HNE inhibitors designed as modifications of our previously synthesized indazoles and indoles in order to evaluate effects of the change in position of the nitrogen and/or the insertion of an additional nitrogen in the scaffolds on biological activity and chemical stability. We obtained potent HNE inhibitors with IC50 values in the low nanomolar range (10–50 nM), and some compounds exhibited improved chemical stability in phosphate buffer (t1/2 > 6 h). Molecular modeling studies demonstrated that inhibitory activity was strictly dependent on the formation of a Michaelis complex between the OH group of HNE Ser195 and the carbonyl carbon of the inhibitor. Moreover, in silico ADMET calculations predicted that most of the new compounds would be optimally absorbed, distributed, metabolized, and excreted. Thus, these new and potent HNE inhibitors represent novel leads for future therapeutic development.
Pyridinone Derivatives as Interesting Formyl Peptide Receptor (FPR) Agonists for the Treatment of Rheumatoid Arthritis
(MDPI AG, 2021-10) Crocetti, Letizia; Vergelli, Claudia; Guerrini, Gabriella; Paola Giovannoni, Maria; Kirpotina, Liliya N.; Khlebnikov, Andrei I.; Ghelardini, Carla; Di Cesare Mannelli, Di Cesare Mannelli; Lucarini, Elena; Schepetkin, Igor A.; Quinn, Mark T.
Rheumatoid arthritis (RA) is a chronic inflammatory disease characterized by joint inflammation, cartilage damage and bone destruction. Although the pharmacological treatment of RA has evolved over the last few years, the new drugs have serious side effects and are very expensive. Thus, the research has been directed in recent years towards new possible targets. Among these targets, N-formyl peptide receptors (FPRs) are of particular interest. Recently, the mixed FPR1/FPR2 agonist Cpd43, the FPR2 agonist AT-01-KG, and the pyridine derivative AMC3 have been shown to be effective in RA animal models. As an extension of this research, we report here a new series of pyridinone derivatives containing the (substituted)phenyl acetamide chain, which was found to be essential for activity, but with different substitutions at position 5 of the scaffold. The biological results were also supported by molecular modeling studies and additional pharmacological tests on AMC3 have been performed in a rat model of RA, by repeating the treatments of the animals with 10 mg/kg/day of compound by 1 week.
Synthesis and analytical characterization of new thiazol-2-(3H)-ones as human neutrophil elastase (HNE) inhibitors
(2018-01) Crocetti, Letizia; Bartolucci, Gianluca; Cilibrizzi, Agostino; Giovannoni, Maria Paola; Guerrini, Gabriella; Iacovone, Antonella; Menicatti, Marta; Schepetkin, Igor A.; Khlebnikov, Andrei I.; Quinn, Mark T.; Vergelli, Claudia
Human neutrophil elastase (HNE) is a potent serine protease belonging to the chymotrypsin family and is involved in a variety of pathologies affecting the respiratory system. Thus, compounds able to inhibit HNE proteolytic activity could represent effective therapeutics. We present here the synthesis of new thiazol-2-(3H)-ones as an elaboration of potent HNE inhibitors with an isoxazol-5-(2H)-one scaffold that we recently identified. Two-dimensional NMR spectroscopic techniques and tandem mass spectrometry allowed us to correctly assign the structure of the final compounds arising from both tautomers of the thiazol-2-(3H)-one nucleus (N-3 of the thiazol-2-(3H)-one and 3-OH of the thiazole). All new compounds were tested as HNE inhibitors, and no activity was found at the highest concentration used (40 ÂµM), demonstrating that the thiazol-2-(3H)-one is not a good scaffold for HNE inhibitors. Molecular modelling experiments indicate that the low-energy pose might limit the nucleophilic attack on the endocyclic carbonyl group of the thiazolone-based compounds by HNE catalytic Ser195, in contrast to isoxazol-5-(2H)-one analogues.
Synthesis of Five- and Six-Membered N-Phenylacetamido Substituted Heterocycles as Formyl Peptide Receptor Agonists
(2016-11) Vergelli, Claudia; Schepetkin, Igor A.; Ciciani, Giovanna; Cilibrizzi, Agostino; Crocetti, Letizia; Giovannoni, Maria Paola; Guerrini, Gabriella; Iacovone, Antonella; Kirpotina, Liliya N.; Ye, Richard D.; Quinn, Mark T.
Preclinical Research Formyl peptide receptors (FPRs) are G-protein-coupled receptors that play an important role in the regulation of inflammatory process and cellular dysfunction. In humans, three different isoforms are expressed (FPR1, FPR2, and FPR3). FPR2 appears to be directly involved in the resolution of inflammation, an active process carried out by specific pro-resolving mediators that modulate specific receptors. Previously, we identified 2-arylacetamido pyridazin-3(2H)-ones as FPR1- or FPR2-selective agonists, as well as a large number of mixed-agonists for the three isoforms. Here, we report a new series of 2-arylacetamido pyridazinones substituted at position 5 and their development as FPR agonists. We also synthesized a new series of 2-oxothiazolones bearing a 4-bromophenylacetamido fragment, which was fundamental for activity in the pyridazinone series. The compounds of most interest were 4a, a potent, mixed FPR agonist recognized by all three isotypes (FPR1 EC50 â€‰=â€‰19 nM, FPR2 EC50 â€‰=â€‰43 nM, FPR3 EC50 â€‰=â€‰40 nM), and 4b, which had potent activity and a preference for FPR2 (EC50 â€‰=â€‰13 nM). These novel compounds may represent valuable tools for studying FPR activation and signaling.
Synthesis, biological evaluation, molecular modeling, and structural analysis of new pyrazole and pyrazolone derivatives as N-formyl peptide receptors agonists
(Wiley, 2021-06) Vergelli, Claudia; Khlebnikov, Andrei I.; Crocetti, Letizia; Guerrini, Gabriella; Cantini, Niccolò; Kirpotina, Liliya N.; Schepetkin, Igor A.; Cilibrizzi, Agostino; Quinn, Mark T.; Rossi, Patrizia; Paoli, Paola; Giovannoni, Maria Paola
N- formyl peptide receptors (FPR1, FPR2, and FPR3) play key roles in the regulation of inflammatory processes, and recently, it was demonstrated that FPR1 and FPR2 have a dual role in the progression/suppression of some cancers. Therefore, FPRs represent an important therapeutic target for the treatment of both cancer and inflammatory diseases. Previously, we identified selective or mixed FPR agonists with pyridazinone or pyridinone scaffolds showing a common 4-(bromophenyl)acetamide fragment, which was essential for activity. We report here new pyrazole and pyrazolone derivatives as restricted analogues of the above 6-membered compounds, all exhibiting the same 4-bromophenylacetamide side chain. Most new products had low or absent FPR agonist activity, suggesting that the pyrazole nucleus was not appropriate for FPR agonists. This hypothesis was confirmed by molecular modeling studies, which highlighted that the five-membered scaffold was responsible for a worse arrangement of the molecules in the receptor binding site.