Your search keyword '"Milite, C."' showing total 6 results

1. Novel 2-substituted-benzimidazole-6-sulfonamides as carbonic anhydrase inhibitors: synthesis, biological evaluation against isoforms I, II, IX and XII and molecular docking studies

Author

Ettore Novellino, Alessio Nocentini, Sandro Cosconati, Sabrina Castellano, Alessandra Feoli, Federico Da Settimo, Elisabetta Barresi, Giorgio Amendola, Sabrina Taliani, Claudiu T. Supuran, Alessandra Cipriano, Silvia Bua, Ciro Milite, Milite, C., Amendola, G., Nocentini, A., Bua, S., Cipriano, A., Barresi, E., Feoli, A., Novellino, E., Da Settimo, F., Supuran, C. T., Castellano, S., Cosconati, S., and Taliani, S.

Subjects

Gene isoform, Benzimidazole, Carbonic anhydrase inhibitors, benzimidazole-sulfonamides, reduced flexibility approach, isoform-selective inhibitors, molecular docking, Carbonic Anhydrase I, Nerve Tissue Proteins, benzimidazole-sulfonamide, Carbonic Anhydrase II, Structure-Activity Relationship, chemistry.chemical_compound, isoform-selective inhibitors, Carbonic anhydrase, Drug Discovery, Humans, isoform-selective inhibitor, Amines, benzimidazole-sulfonamides, Carbonic anhydrase inhibitors, molecular docking, reduced flexibility approach, Benzimidazoles, Carbonic Anhydrase Inhibitors, Carbonic Anhydrases, Isoenzymes, Molecular Docking Simulation, Molecular Structure, Schiff Bases, Sulfonamides, Carbonic anhydrase inhibitor, Biological evaluation, Pharmacology, chemistry.chemical_classification, biology, Chemistry, lcsh:RM1-950, General Medicine, Transmembrane protein, Enzyme inhibition, lcsh:Therapeutics. Pharmacology, Enzyme, Biochemistry, biology.protein, Selectivity, Research Paper

Abstract

Inhibition of Carbonic Anhydrases (CAs) has been clinically exploited for many decades for a variety of therapeutic applications. Within a research project aimed at developing novel classes of CA inhibitors (CAIs) with a proper selectivity for certain isoforms, a series of derivatives featuring the 2-substituted-benzimidazole-6-sulfonamide scaffold, conceived as frozen analogs of Schiff bases and secondary amines previously reported in the literature as CAIs, were investigated. Enzyme inhibition assays on physiologically relevant human CA I, II, IX and XII isoforms revealed a number of potent CAIs, showing promising selectivity profiles towards the transmembrane tumor-associated CA IX and XII enzymes. Computational studies were attained to clarify the structural determinants behind the activities and selectivity profiles of the novel inhibitors., Graphical Abstract

Published

2019

2. Discovery of a novel chemotype of histone lysine methyltransferase EHMT1/2 (GLP/G9a) inhibitors: rational design, synthesis, biological evaluation and co-crystal structure

Author

Xiaodong Cheng, Alessandra Cipriano, Ettore Novellino, John R. Horton, Giorgio Amendola, Giacomo Pepe, Donatella Rescigno, Gianluca Sbardella, Sabrina Castellano, Alessandra Feoli, Sandro Cosconati, Monica Viviano, Vincenzo Pisapia, Ciro Milite, Milite, C., Feoli, A., Horton, J. R., Rescigno, D., Cipriano, A., Pisapia, V., Viviano, M., Pepe, G., Amendola, G., Novellino, E., Cosconati, S., Cheng, X., Castellano, S., and Sbardella, G.

Subjects

Cell Membrane Permeability, Methyltransferase, GLP, Drug Evaluation, Preclinical, SELECTIVE INHIBITORS, G9A INHIBITOR, Crystallography, X-Ray, 01 natural sciences, DNA methyltransferase, Article, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, EHMT1, Cell Line, Tumor, Drug Discovery, Quinazoline, Humans, ASSAY, Enzyme Inhibitors, DNA METHYLATION, 030304 developmental biology, 0303 health sciences, Molecular Structure, Rational design, CHEMICAL PROBE, Histone-Lysine N-Methyltransferase, G9A-LIKE PROTEIN, Small molecule, In vitro, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Diazepine, Biochemistry, chemistry, HISTONE/PROTEIN METHYLTRANSFERASE, Blood-Brain Barrier, Drug Design, Molecular Medicine, SMALL-MOLECULE INHIBITORS, H3K9 METHYLATION

Abstract

Since the discovery of compound BIX01294 over 10 years ago, only a very limited number of nonquinazoline inhibitors of H3K9-specific methyltransferases G9a and G9a-like protein (GLP) have been reported. Herein, we report the identification of a novel chemotype for G9a/GLP inhibitors, based on the underinvestigated 2-alkyl-5-amino- and 2-aryl-5-amino-substituted 3 H-benzo[ e][1,4]diazepine scaffold. Our research efforts resulted in the identification 12a (EML741), which not only maintained the high in vitro and cellular potency of its quinazoline counterpart, but also displayed improved inhibitory potency against DNA methyltransferase 1, improved selectivity against other methyltransferases, low cell toxicity, and improved apparent permeability values in both parallel artificial membrane permeability assay (PAMPA) and blood-brain barrier-specific PAMPA, and therefore might potentially be a better candidate for animal studies. Finally, the co-crystal structure of GLP in complex with 12a provides the basis for the further development of benzodiazepine-based G9a/GLP inhibitors. Since the discovery of compound BIX01294 over 10 years ago, only a very limited number of nonquinazoline inhibitors of H3K9-specific methyltransferases G9a and G9a-like protein (GLP) have been reported. Herein, we report the identification of a novel chemotype for G9a/GLP inhibitors, based on the underinvestigated 2-alkyl-5-amino- and 2-aryl-5-amino-substituted 3H-benzo[e][1,4]diazepine scaffold. Our research efforts resulted in the identification 12a (EML741), which not only maintained the high in vitro and cellular potency of its quinazoline counterpart, but also displayed improved inhibitory potency against DNA methyltransferase 1, improved selectivity against other methyltransferases, low cell toxicity, and improved apparent permeability values in both parallel artificial membrane permeability assay (PAMPA) and blood-brain barrier-specific PAMPA, and therefore might potentially be a better candidate for animal studies. Finally, the co-crystal structure of GLP in complex with 12a provides the basis for the further development of benzodiazepine-based G9a/GLP inhibitors.

Published

2019

3. Structure–Activity Relationship Refinement and Further Assessment of 4-phenylquinazoline-2-carboxamide Translocator Protein (TSPO) Ligands as Antiproliferative Agents in Human Glioblastoma Tumors

Author

Luciana Marinelli, Federico Da Settimo, Giovanni Greco, Claudia Martini, Monica Viviano, Sabrina Taliani, Ciro Milite, Sandro Cosconati, Eleonora Da Pozzo, Ettore Novellino, Elisabetta Barresi, Gianluca Sbardella, Barbara Costa, Sabrina Castellano, Agostino Bruno, Castellano, S, Taliani, S, Viviano, M, Milite, C, Da Pozzo, E, Costa, B, Barresi, E, Bruno, A, Cosconati, Sandro, Marinelli, L, Greco, G, Novellino, E, Sbardella, G, Da Settimo, F, Martini, C., Sabrina, Castellano, Sabrina, Taliani, Monica, Viviano, Ciro, Milite, Eleonora Da, Pozzo, Barbara, Costa, Elisabetta, Barresi, Agostino, Bruno, Sandro, Cosconati, Marinelli, Luciana, Greco, Giovanni, Novellino, Ettore, Gianluca, Sbardella, Federico Da, Settimo, and Claudia, Martini

Subjects

Models, Molecular, 18 KDA, Molecular Conformation, Carboxamide, Plasma protein binding, translocator protein (TSPO), steroidogenesis, 4-phenylquinazoline-2-carboxamide derivatives, structure-activity relationships, pharmacophore model, Kidney, COLORECTAL-CANCER, Drug Discovery, PERIPHERAL BENZODIAZEPINE-RECEPTOR, Inner mitochondrial membrane, Membrane Potential, Mitochondrial, biology, Chemistry, DERIVATIVES, Brain Neoplasms, glioblastoma tumor, BINDING-SITES, BIOLOGICAL EVALUATION, TSPO EXPRESSION, BREAST-CANCER, CELLS, APOPTOSIS, Biochemistry, Molecular Medicine, Pharmacophore, Intracellular, Protein Binding, medicine.drug_class, Cell Survival, Antineoplastic Agents, Structure-Activity Relationship, antiproliferative agents, Receptors, GABA, Cell Line, Tumor, medicine, Translocator protein, TRANSLOCATOR PROTEIN, Structure–activity relationship, Animals, Humans, Binding site, Dose-Response Relationship, Drug, Computational Biology, Rats, Kinetics, biology.protein, Glioblastoma

Abstract

Structure-activity relationships (SARs) within the 4-phenylquinazoline-2- carboxamide series of translocator protein (TSPO) ligands have been explored further by the synthesis and TSPO binding affinity evaluation of N-benzyl-N-ethyl/methyl derivatives variously decorated at the 6-, 2′-, 4′-, and 4″-positions. Most of the compounds showed high affinity with Ki values in the nanomolar/subnanomolar range. A pharmacophore model was developed and employed to better address SAR data presented by the new TSPO ligands. A subset of the new compounds (5, 8, 12, and 19) were tested for their ability to inhibit the viability of human glioblastoma cell line U343. The observed antiproliferative effect was demonstrated to be specific for compound 19, endowed with the best combination of binding affinity and efficacy. Furthermore, the ability of 19 to induce mitochondrial membrane dissipation (Δψm) substantiated the intracellular pro-apoptotic mechanism activated by the binding of this class of ligands to TSPO. © 2014 American Chemical Society.

Published

2014

4. Synthesis and cytotoxic activity evaluation of 2,3-thiazolidin-4-one derivatives on human breast cancer cell lines

Author

Carmela Saturnino, Alessia Bertamino, Rosa Sirianni, Ciro Milite, Pietro Campiglia, Simona Musella, Adele Chimento, Maria Stefania Sinicropi, Ettore Novellino, Vincenzo Pezzi, Marina Sala, Anna Caruso, Paolo Tortorella, Isabel Gomez-Monterrey, Sala, M, Chimento, A, Saturnino, C, GOMEZ MONTERREY, ISABEL MARIA, Musella, S, Bertamino, A, Milite, C, Sinicropi, M, Caruso, A, Sirianni, R, Tortorella, P, Novellino, Ettore, Campiglia, P, and Pezzi, V.

Subjects

Clinical Biochemistry, Pharmaceutical Science, Breast Neoplasms, Pharmacology, Resveratrol, Biochemistry, chemistry.chemical_compound, Cell Line, Tumor, Drug Discovery, Stilbenes, medicine, Cytotoxic T cell, Humans, skin and connective tissue diseases, Molecular Biology, Cell Proliferation, Chemistry, Organic Chemistry, Cancer, medicine.disease, Antineoplastic Agents, Phytogenic, Bioavailability, MCF-7, Polyphenol, SKBR3, Molecular Medicine, Female, Thiazolidinediones, Drug Screening Assays, Antitumor, Human breast

Abstract

It is well known that resveratrol (RSV) displayed cancer-preventing and anticancer properties but its clinical application is limited because of a low bioavailability and a rapid clearance from the circulation. Aim of this work was to synthesize pharmacologically active resveratrol analogs with an enhanced structural rigidity and bioavailability. In particular, we have synthesized a library of 2,3-thiazolidin-4-one derivatives in which a thiazolidinone nucleus connects two aromatic rings. Some of these compounds showed strong inhibitory effects on breast cancer cell growth. Our results indicate that some of thiazolidin-based resveratrol derivatives may become a new potent alternative tool for the treatment of human breast cancer.

Published

2013

5. Synthesis and biological evaluation of 4-phenylquinazoline-2-carboxamides designed as a novel class of potent ligands of the translocator protein

Author

Ciro Milite, Giorgio Stefancich, Claudia Martini, Elisa Rizzetto, Eleonora Da Pozzo, S Bendinelli, Federico Da Settimo, Barbara Costa, Sabrina Taliani, Sandro Cosconati, Giovanni Greco, Isabella Pugliesi, Ettore Novellino, Gianluca Sbardella, Sabrina Castellano, Castellano, S, Taliani, S, Milite, C, Pugliesi, I, Da Pozzo, E, Rizzetto, E, Bendinelli, S, Costa, B, Cosconati, Sandro, Greco, G, Novellino, E, Sbardella, G, Stefancich, G, Martini, C, Da, Settimo, Castellano, Sabrina, Taliani, Sabrina, Milite, Ciro, Pugliesi, Isabella, Da Pozzo, Eleonora, Rizzetto, Elisa, Bendinelli, Sara, Costa, Barbara, Greco, Giovanni, Novellino, Ettore, Sbardella, Gianluca, Stefancich, Giorgio, Martini, Claudia, and Da Settimo, Federico

Subjects

18 KDA, Cell Survival, Pharmaceutical Science, Binding, Competitive, Inhibitory Concentration 50, Structure-Activity Relationship, chemistry.chemical_compound, PERIPHERAL BENZODIAZEPINE-RECEPTOR, 18 KDA, GLIOBLASTOMA CELLS, APOPTOSIS, BINDING, BIOSYNTHESIS, RADIOLIGANDS, DERIVATIVES, TSPO, Biosynthesis, Cell Line, Tumor, Drug Discovery, BINDING, Translocator protein, Animals, Structure–activity relationship, PERIPHERAL BENZODIAZEPINE-RECEPTOR, BIOSYNTHESIS, Receptor, Biological evaluation, Molecular Structure, biology, Animal, Ligand, GLIOBLASTOMA CELLS, DERIVATIVES, Quinazoline, Receptors, GABA-A, Combinatorial chemistry, Rats, APOPTOSIS, chemistry, RADIOLIGANDS, Quinazolines, biology.protein, Rat, Molecular Medicine, Pharmacophore, Carrier Proteins, Carrier Protein, Selectivity, TSPO

Abstract

A series of novel 4-phenylquinazoline-2-carboxamides (1-58) were designed as aza-isosters of PK11195, the well-known 18 kDa translocator protein (TSPO) reference ligand, and synthesized by means of a very simple and efficient procedure. A number of these derivatives bind to the TSPO with K i values in the nanomolar/subnanomolar range, show selectivity toward the central benzodiazepine receptor (BzR) and exhibit structure-affinity relationships consistent with a previously published pharmacophore/topological model of ligand-TSPO interaction. © 2012 American Chemical Society.

Published

2012

6. Modulation of the activity of histone acetyltransferases by long chain alkylidenemalonates (LoCAMs)

Author

Ciro Milite (a), Sabrina Castellano (a), Rosaria Benedetti (b, Alessandra Tosco (a), Carmen Ciliberti(a), Caterina Vicidomini (a), Ludovic Boully (a), Gianluigi Franci (b, Lucia Altucci (b, Antonello Mai (e), Gianluca Sbardella (a), Milite, C, Castellano, S, Benedetti, R, Tosco, A, Ciliberti, C, Vicidomini, C, Boully, L, Franci, G, Altucci, Lucia, Mai, A, and Sbardella, G.

Subjects

Lysine Acetyltransferases, Alkylation, Blotting, Western, Clinical Biochemistry, Pharmaceutical Science, Histone acetyltransferases modulators, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, Drug Discovery, Humans, Epigenetics, Enzyme Inhibitors, Molecular Biology, P300/CBP, PCAF activator, KAT, Histone Acetyltransferases, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, biology, Activator (genetics), Organic Chemistry, Biological activity, U937 Cells, Histone acetyltransferase, Malonates, Enzyme Activation, Enzyme, chemistry, Acyltransferases, 030220 oncology & carcinogenesis, biology.protein, Molecular Medicine, p300/CBP

Abstract

A novel class of KAT modulators (long chain alkylidenemalonates, LoCAMs) has been identified. Variations of the alkyl chain length can change the activity profile from inhibition of both KAT3A/KAT2B (as derivative 2a) to the peculiar profile of pentadecylidenemalonate 1b, the first activator/inhibitor of histone acetyltransferases. Together with the powerful apoptotic effect (particularly notable if considering that anacardic acid and other KAT inhibitors are not cell permeable) appoint them as valuable biological tools to understand the mechanisms of lysine acetyltransferases. (C) 2011 Elsevier Ltd. All rights reserved.

Published

2011