Your search keyword '"Callegari, Donatella"' showing total 6 results

1. Metadynamics for Perspective Drug Design: Computationally Driven Synthesis of New Protein-Protein Interaction Inhibitors Targeting the EphA2 Receptor.

Author

Incerti M, Russo S, Callegari D, Pala D, Giorgio C, Zanotti I, Barocelli E, Vicini P, Vacondio F, Rivara S, Castelli R, Tognolini M, and Lodola A

Subjects

Animals, Drug Stability, Ligands, Lithocholic Acid administration & dosage, Lithocholic Acid chemical synthesis, Lithocholic Acid chemistry, Lithocholic Acid pharmacokinetics, Male, Mice, Microsomes, Liver metabolism, Models, Chemical, Molecular Docking Simulation, Protein Binding, Receptor, EphA2 chemistry, Structure-Activity Relationship, Tryptophan administration & dosage, Tryptophan chemical synthesis, Tryptophan chemistry, Tryptophan pharmacokinetics, Computer Simulation, Drug Design, Lithocholic Acid analogs & derivatives, Receptor, EphA2 antagonists & inhibitors, Tryptophan analogs & derivatives

Abstract

Metadynamics (META-D) is emerging as a powerful method for the computation of the multidimensional free-energy surface (FES) describing the protein-ligand binding process. Herein, the FES of unbinding of the antagonist N-(3α-hydroxy-5β-cholan-24-oyl)-l-β-homotryptophan (UniPR129) from its EphA2 receptor was reconstructed by META-D simulations. The characterization of the free-energy minima identified on this FES proposes a binding mode fully consistent with previously reported and new structure-activity relationship data. To validate this binding mode, new N-(3α-hydroxy-5β-cholan-24-oyl)-l-β-homotryptophan derivatives were designed, synthesized, and tested for their ability to displace ephrin-A1 from the EphA2 receptor. Among them, two antagonists, namely compounds 21 and 22, displayed high affinity versus the EphA2 receptor and resulted endowed with better physicochemical and pharmacokinetic properties than the parent compound. These findings highlight the importance of free-energy calculations in drug design, confirming that META-D simulations can be used to successfully design novel bioactive compounds.

Published

2017

2. Exploiting Free-Energy Minima to Design Novel EphA2 Protein-Protein Antagonists: From Simulation to Experiment and Return.

Author

Russo S, Callegari D, Incerti M, Pala D, Giorgio C, Brunetti J, Bracci L, Vicini P, Barocelli E, Capoferri L, Rivara S, Tognolini M, Mor M, and Lodola A

Subjects

Binding Sites, Humans, Kinetics, Ligands, Molecular Docking Simulation, Protein Binding, Protein Structure, Tertiary, Receptor, EphA2 antagonists & inhibitors, Surface Plasmon Resonance, Thermodynamics, Drug Design, Receptor, EphA2 metabolism

Abstract

The free-energy surface (FES) of protein-ligand binding contains information useful for drug design. Here we show how to exploit a free-energy minimum of a protein-ligand complex identified by metadynamics simulations to design a new EphA2 antagonist with improved inhibitory potency., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

3. Applicazione di metodi di enhanced sampling alla progettazione di farmaci

Author

Callegari, Donatella

Subjects

covalent drugs, drug design, umbrella sampling, CHIM/08, metadynamics, enhanced sampling, residence time, protein-ligand binding, unbinding kinetics

Abstract

In this thesis I focused my efforts in developing and applying computational approaches aimed to characterize the complex phenomena of molecular recognition, including both kinetic and thermodynamic aspects. In details, I worked on i) prediction of the correct binding mode of small molecules within biological targets of pharmaceutical interest, ii) prediction of the kinetics of protein-ligand unbinding and iii) estimation of covalent drug affinity and reactivity in mutated forms of the targeted protein. Procedures based on the application of enhanced sampling methods are described and employed to solve these challenging tasks.

Published

2018

4. Exploiting Free-Energy Minima to Design Novel EphA2 Protein-Protein Antagonists: From Simulation to Experiment and Return.

Author

Russo, Simonetta, Callegari, Donatella, Incerti, Matteo, Pala, Daniele, Giorgio, Carmine, Brunetti, Jlenia, Bracci, Luisa, Vicini, Paola, Barocelli, Elisabetta, Capoferri, Luigi, Rivara, Silvia, Tognolini, Massimiliano, Mor, Marco, and Lodola, Alessio

Subjects

FREE energy (Thermodynamics), PROTEIN-ligand interactions, DRUG design, PROTEIN-protein interactions, INTERMOLECULAR interactions

Abstract

The free-energy surface (FES) of protein-ligand binding contains information useful for drug design. Here we show how to exploit a free-energy minimum of a protein-ligand complex identified by metadynamics simulations to design a new EphA2 antagonist with improved inhibitory potency. [ABSTRACT FROM AUTHOR]

Published

2016

5. Comparative Analysis of Virtual Screening Approaches in the Search for Novel EphA2 Receptor Antagonists.

Author

Callegari, Donatella, Pala, Daniele, Scalvini, Laura, Tognolini, Massimiliano, Incerti, Matteo, Rivara, Silvia, Mor, Marco, and Lodola, Alessio

Subjects

*MEDICAL screening, *ALPHA adrenoceptors, *BILE acids, *TUMORS, *LIGAND binding (Biochemistry)

Abstract

The EphA2 receptor and its ephrin-A1 ligand form a key cell communication system, which has been found overexpressed in many cancer types and involved in tumor growth. Recent medicinal chemistry efforts have identified bile acid derivatives as low micromolar binders of the EphA2 receptor. However, these compounds suffer from poor physicochemical properties, hampering their use in vivo. The identification of compounds able to disrupt the EphA2-ephrin-A1 complex lacking the bile acid scaffold may lead to new pharmacological tools suitable for in vivo studies. To identify the most promising virtual screening (VS) protocol aimed at finding novel EphA2 antagonists, we investigated the ability of both ligand-based and structure-based approaches to retrieve known EphA2 antagonists from libraries of decoys with similar molecular properties. While ligand-based VSs were conducted using UniPR129 and ephrin-A1 ligand as reference structures, structure-based VSs were performed with Glide, using the X-ray structure of the EphA2 receptor/ephrin-A1 complex. A comparison of enrichment factors showed that ligand-based approaches outperformed the structure-based ones, suggesting ligand-based methods using the G-H loop of ephrin-A1 ligand as template as the most promising protocols to search for novel EphA2 antagonists. [ABSTRACT FROM AUTHOR]

Published

2015

6. Δ5-Cholenoyl-amino acids as selective and orally available antagonists of the Eph–ephrin system.

Author

Castelli, Riccardo, Tognolini, Massimiliano, Vacondio, Federica, Incerti, Matteo, Pala, Daniele, Callegari, Donatella, Bertoni, Simona, Giorgio, Carmine, Hassan-Mohamed, Iftiin, Zanotti, Ilaria, Bugatti, Antonella, Rusnati, Marco, Festuccia, Claudio, Rivara, Silvia, Barocelli, Elisabetta, Mor, Marco, and Lodola, Alessio

Subjects

*AMINO acid analysis, *EPHRIN receptors, *DRUG design, *DRUG development, *TARGETED drug delivery, *PHARMACOLOGY

Abstract

The Eph receptor–ephrin system is an emerging target for the development of novel anti-angiogenic therapies. Research programs aimed at developing small-molecule antagonists of the Eph receptors are still in their initial stage as available compounds suffer from pharmacological drawbacks, limiting their application in vitro and in vivo . In the present work, we report the design, synthesis and evaluation of structure–activity relationships of a class of Δ 5 -cholenoyl-amino acid conjugates as Eph–ephrin antagonists. As a major achievement of our exploration, we identified N -(3β-hydroxy-Δ 5 -cholen-24-oyl)- l -tryptophan (UniPR1331) as the first small molecule antagonist of the Eph–ephrin system effective as an anti-angiogenic agent in endothelial cells, bioavailable in mice by the oral route and devoid of biological activity on G protein-coupled and nuclear receptors targeted by bile acid derivatives. [ABSTRACT FROM AUTHOR]

Published

2015