Quantum molecular modelling of ibuprofen bound to human serum albumin

Dantas, Diego de Sousa; Neto, José Xavier; Costa, Roner F. da; Bezerra, Eveline M.; Freire, V. N.; Caetano, E. W. S.; Fulco, U. L.; Albuquerque, E.L.

doi:10.1039/c5ra04395f

Cited by 42 publications

(28 citation statements)

References 63 publications

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“…It has been seen that very few molecular studies in the literature have reported on MD-based molecular modelling to describe solid dispersion process as well as drug-polymer interactions. [7][8][9][10][11][12][13][14][15][16] Recently, the quantum mechanical (QM) calculations (Gaussian 09) were used to identify drug/polymer interactions.…”

Section: Introductionmentioning

confidence: 99%

Studies of intermolecular interactions in solid dispersions using advanced surface chemical analysis

et al. 2015

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The aim of this study is to utilise an advanced surface chemical analysis based on X-ray photoelectron spectroscopy (XPS) to determine and characterise drug/polymer interactions in solid dispersions manufactured via hot melt extrusion (HME). Cetirizine HCl (CTZ) and verapamil HCl (VRP) were used as model cationic drugs while Eudragit® grade L100 and L100-55 polymers were used as anionic carriers. A molecular dynamics (MD) based simulation approach predicted drug/polymer interactions while scanning electron microscopy/energy dispersive X-ray spectroscopy (SEM/EDS) mapping showed homogenous distribution of the drug particles onto the polymer matrices. Hot stage microscopy (HSM) characterised the solid state of the drugs in extruded formulations. XPS analysis revealed the strength and nature of interaction between the -NH 3 groups of the APIs with the -COOH groups of the polymers.The results obtained from XPS were supported by XRD and NMR studies. The estimation of non-protonated/ protonated N atom (N/N 0 ) ratios using XPS revealed the strength of the intermolecular interaction in drug/ polymer extrudates which can be used as an efficient tool to study the drug/polymer interaction.

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Section: Introductionmentioning

confidence: 99%

Studies of intermolecular interactions in solid dispersions using advanced surface chemical analysis

et al. 2015

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“…According to information in the literature, DCF binds to Site I with high affinity and Site II with low affinity [40,41]. IBU binds mainly to Site II with high affinity, but some articles also describe its binding to a fatty acid binding site located at the interface between the IIA and IIB domains [42,43]. Several articles describe the binding of CP to Site I [38,44], but in a study by Tao et al a secondary binding site in subdomain IIIA (Site II) was also observed [45].…”

Section: L-tryptophanmentioning

confidence: 99%

Applicability of capillary electrophoresis‐frontal analysis for displacement studies: Effect of several drugs on l‐tryptophan and lidocaine binding to human serum albumin

Nevídalová

Michalcová

Glatz

2020

J of Separation Science

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The effective concentration of a drug in the blood, i.e. the concentration of a free drug in the blood, is influenced by the strength of drug binding onto plasma proteins. Besides its efficacy, these interactions subsequently influence the liberation, absorption, distribution, metabolism, excretion, and toxicological properties of the drug. It is important to not only determine the binding strength and stoichiometry, but also the binding site of a drug on the plasma protein molecule, because the co-administration of drugs with the same binding site can affect the above-mentioned concentration and as a result the pharmacological behavior of the drugs and lead to side effects caused by the change in free drug concentration, its toxicity. In this study, the binding characteristics of six drugs with human serum albumin, the most abundant protein in human plasma, were determined by capillary electrophoresis-frontal analysis, and the obtained values of binding parameters were compared with the literature data. The effect of several drugs and site markers on the binding of l-tryptophan and lidocaine to human serum albumin was investigated in subsequent displacement studies which thus demonstrated the usability of capillary electrophoresis as an automated high-throughput screening method for drug-protein binding studies.

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“… 50 and Dantas et al . 51 to calculate binding affinity in protein-ligand complexes, by assuming different values of the dielectric constant ( ε ) to take into account the effect of the protein and solvent environment in the evaluation of the electrostatic energies. Here, we have employed the MFCC approach together with the CPCM (Conductor-like Polarizable Continuum Model) continuum solvation model 52 with dielectric constants ε considered to be 20 ( ε 20 and 40 ( ε 40 ), respectively) to increase the similarity with the protein environment and estimate energy effects, such as the electrostatic polarization promoted by the solvent.…”

Section: Methodsmentioning

confidence: 99%

Inhibition of the checkpoint protein PD-1 by the therapeutic antibody pembrolizumab outlined by quantum chemistry

Tavares

Neto

Fulco

et al. 2018

Sci Rep

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Much of the recent excitement in the cancer immunotherapy approach has been generated by the recognition that immune checkpoint proteins, like the receptor PD-1, can be blocked by antibody-based drugs with profound effects. Promising clinical data have already been released pointing to the efficiency of the drug pembrolizumab to block the PD-1 pathway, triggering the T-lymphocytes to destroy the cancer cells. Thus, a deep understanding of this drug/receptor complex is essential for the improvement of new drugs targeting the protein PD-1. In this context, by employing quantum chemistry methods based on the Density Functional Theory (DFT), we investigate in silico the binding energy features of the receptor PD-1 in complex with its drug inhibitor. Our computational results give a better understanding of the binding mechanisms, being also an efficient alternative towards the development of antibody-based drugs, pointing to new treatments for cancer therapy.

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Quantum molecular modelling of ibuprofen bound to human serum albumin

Cited by 42 publications

References 63 publications

Studies of intermolecular interactions in solid dispersions using advanced surface chemical analysis

Studies of intermolecular interactions in solid dispersions using advanced surface chemical analysis

Applicability of capillary electrophoresis‐frontal analysis for displacement studies: Effect of several drugs on l‐tryptophan and lidocaine binding to human serum albumin

Inhibition of the checkpoint protein PD-1 by the therapeutic antibody pembrolizumab outlined by quantum chemistry

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