Hydrophobic and Ionic Factors in the Binding of Local Anesthetics to the Major Variant of Human α<sub>1</sub>-Acid Glycoprotein

Taheri, Saeed; Cogswell, Lawrence P.; Gent, Alison; Strichartz, Gary R.

doi:10.1124/jpet.102.042028

Cited by 42 publications

(29 citation statements)

References 29 publications

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“…Moreover, the thermodynamic parameters did not show any correlation with the drug octanol/water partition coefficients or polar surface area (PSA) of the test compounds (Figure B,C and Table S1). This observation contrasts with the direct correlation between ∆ H º, ∆ S º, and ∆Gº and hydrophobicity (log P ) reported for the binding of a series of local anesthetics and phenothiazine neuroleptics and AGP (Miyoshi et al ., ; Urien et al ., ; Taheri et al ., ). However, it should be noted that these studies employed equilibrium dialysis or fluorometric binding assays to generate affinity constants from which the thermodynamic parameters were indirectly derived.…”

Section: Resultsmentioning

confidence: 97%

Drug‐binding energetics of human α‐1‐acid glycoprotein assessed by isothermal titration calorimetry and molecular docking simulations

Huang

Cooper

Baker

et al. 2012

J of Molecular Recognition

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This study utilizes sensitive, modern isothermal titration calorimetric (ITC) methods to characterize the microscopic thermodynamic parameters that drive the binding of basic drugs to α-1-acid glycoprotein (AGP) and thereby rationalize the thermodynamic data in relation to docking models and crystallographic structures of the drug-AGP complexes. The binding of basic compounds from the tricyclic antidepressant series, together with miaserine, chlorpromazine, disopyramide and cimetidine all displayed an exothermically driven binding interaction with AGP. The impact of protonation/deprotonation events, ionic strength, temperature and the individual selectivity of the A and F1*S AGP variants on drug-binding thermodynamics were characterized. A correlation plot of the thermodynamic parameters for all of the test compounds revealed enthalpy-entropy compensation is in effect. The exothermic binding energetics of the test compounds were driven by a combination of favorable (negative) enthalpic (ΔH°) and favorable (positive) entropic (ΔS°) contributions to the Gibbs free energy (ΔG°). Collectively, the data imply that the free energies that drive drug binding to AGP and its relationship to drug-serum residency evolve from the complex interplay of enthalpic and entropic forces from interactions with explicit combinations of hydrophobic and polar side-chain sub-domains within the multi-lobed AGP ligand binding cavity.

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Section: Resultsmentioning

confidence: 97%

Drug‐binding energetics of human α‐1‐acid glycoprotein assessed by isothermal titration calorimetry and molecular docking simulations

Huang

Cooper

Baker

et al. 2012

J of Molecular Recognition

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“…From the above results, the number of binding sites ( n ) which were less than 1 for both R ‐ and S ‐mexiletine indicated that mexiletine may have selectively bound with hAGP variants [29] . Mifepristone and imipramine were the specific ligands of the F1‐S and A variants of hAGP, respectively [30,31] . In this competition binding study we investigated the binding of mexiletine enantiomers with different genetic variants of hAGP and determined the possible enantioselectivity (as shown in Table 1).…”

Section: Resultsmentioning

confidence: 99%

Enantioselective drug–protein interaction between mexiletine and plasma protein

Hong

et al. 2012

Journal of Pharmacy and Pharmacology

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“…Several techniques have been used to study the interactions and affinities of drugs with either HSA or AGP 5–15. These methods include ultrafiltration 5, 9, equilibrium dialysis 6, 8, fluorescence assays 7, 12, capillary electrophoresis 10, UV–Vis spectroscopy 11, and solid‐phase microextraction 13–15. Another technique used to study drug–protein interactions is high‐performance affinity chromatography (HPAC) 1, 16.…”

Section: Introductionmentioning

confidence: 99%

High‐throughput analysis of drug dissociation from serum proteins using affinity silica monoliths

Yoo

Hage

2011

J of Separation Science

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A noncompetitive peak decay method was used with 1 mm × 4.6 mm i.d. silica monoliths to measure the dissociation rate constants (kd) for various drugs with human serum albumin (HSA) and α1-acid glycoprotein (AGP). Flow rates up to 9 mL/min were used in these experiments, resulting in analysis times of only 20-30 s. Using a silica monolith containing immobilized HSA, dissociation rate constants were measured for amitriptyline, carboplatin, cisplatin, chloramphenicol, nortriptyline, quinidine, and verapamil, giving values that ranged from 0.37 s−1 to 0.78 s−1. Similar work with an immobilized AGP silica monolith gave kd values for amitriptyline, nortriptyline, and lidocaine of 0.39 s−1 to 0.73 s−1. These kd values showed good agreement with values determined for drugs with similar structures and/or affinities for HSA or AGP. It was found that a kd of up to roughly 0.80 s−1 could be measured by this approach. This information made it possible to obtain a better understanding of the advantages and possible limitations of the noncompetitive peak decay method and in the use of affinity silica monoliths for the high-throughput analysis of drug-protein dissociation.

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Hydrophobic and Ionic Factors in the Binding of Local Anesthetics to the Major Variant of Human α₁-Acid Glycoprotein

Cited by 42 publications

References 29 publications

Drug‐binding energetics of human α‐1‐acid glycoprotein assessed by isothermal titration calorimetry and molecular docking simulations

Drug‐binding energetics of human α‐1‐acid glycoprotein assessed by isothermal titration calorimetry and molecular docking simulations

Enantioselective drug–protein interaction between mexiletine and plasma protein

High‐throughput analysis of drug dissociation from serum proteins using affinity silica monoliths

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Hydrophobic and Ionic Factors in the Binding of Local Anesthetics to the Major Variant of Human α1-Acid Glycoprotein

Cited by 42 publications

References 29 publications

Drug‐binding energetics of human α‐1‐acid glycoprotein assessed by isothermal titration calorimetry and molecular docking simulations

Drug‐binding energetics of human α‐1‐acid glycoprotein assessed by isothermal titration calorimetry and molecular docking simulations

Enantioselective drug–protein interaction between mexiletine and plasma protein

High‐throughput analysis of drug dissociation from serum proteins using affinity silica monoliths

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Product

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Hydrophobic and Ionic Factors in the Binding of Local Anesthetics to the Major Variant of Human α₁-Acid Glycoprotein