Your search keyword '"Doxepin chemistry"' showing total 37 results

1. Binding characteristics of the doxepin E/Z-isomers to the histamine H 1 receptor revealed by receptor-bound ligand analysis and molecular dynamics study.

Author

Kaneko H, Korenaga R, Nakamura R, Kawai S, Ando T, and Shiroishi M

Subjects

Humans, Ligands, Hydrogen Bonding, Isomerism, Binding Sites, Thermodynamics, Doxepin chemistry, Doxepin metabolism, Molecular Dynamics Simulation, Receptors, Histamine H1 chemistry, Receptors, Histamine H1 metabolism, Protein Binding

Abstract

Doxepin is an antihistamine and tricyclic antidepressant that binds to the histamine H 1 receptor (H 1 R) with high affinity. Doxepin is an 85:15 mixture of the E- and Z-isomers. The Z-isomer is well known to be more effective than the E-isomer, whereas based on the crystal structure of the H 1 R/doxepin complex, the hydroxyl group of Thr112 3.37 is close enough to form a hydrogen bond with the oxygen atom of the E-isomer. The detailed binding characteristics and reasons for the differences remain unclear. In this study, we analyzed doxepin isomers bound to the receptor following extraction from a purified H 1 R protein complexed with doxepin. The ratio of the E- and Z-isomers bound to wild-type (WT) H 1 R was 55:45, indicating that the Z-isomer was bound to WT H 1 R with an approximately 5.2-fold higher affinity than the E-isomer. For the T112 3.37 V mutant, the E/Z ratio was 89:11, indicating that both isomers have similar affinities. Free energy calculations using molecular dynamics (MD) simulations also reproduced the experimental results of the relative binding free energy differences between the isomers for WT and T112 3.37 V. Furthermore, MD simulations revealed that the hydroxyl group of T112 3.37 did not form hydrogen bonds with the E-isomer, but with the adjacent residues in the binding pocket. Analysis of the receptor-bound doxepin and MD simulations suggested that the hydroxyl group of T112 3.37 contributes to the formation of a chemical environment in the binding pocket, which is slightly more favorable for the Z-isomer without hydrogen bonding with doxepin., (© 2024 The Author(s). Journal of Molecular Recognition published by John Wiley & Sons Ltd.)

Published

2024

2. Development and characterization of a non-enzymatic electrochemical biosensor for rapid determination of sorbent-based extracted trazodone and doxepin in complicated samples.

Author

Kashi F, Ebrahimzadeh H, and Nejabati F

Subjects

Humans, Oxides chemistry, Manganese Compounds chemistry, Solid Phase Microextraction methods, Limit of Detection, Copper chemistry, Copper blood, Adsorption, Electrochemical Techniques, Doxepin blood, Doxepin isolation & purification, Doxepin chemistry, Doxepin analysis, Graphite chemistry, Biosensing Techniques methods, Trazodone blood, Trazodone analysis, Trazodone isolation & purification, Trazodone chemistry

Abstract

Background: Given the importance of achieving optimal therapeutical concentration in patients treated with antidepressants, this study investigates a novel technique for the simultaneous determination of trazodone (TRZ) and doxepin (DOX) in human plasma and serum samples for the first time., Results: To achieve simultaneous determination of two antidepressants, TRZ and DOX, a novel detection system was designed: a non-enzymatic voltammetric biosensor based on boron-reduced graphene oxide/manganese oxide nanoparticles (GCE/B-rGO/MnO NPs). The detection was accomplished after pre-concentration and extraction trace amounts of the analytes using the thin film-solid phase microextraction (TF-SPME) technique, which employed polyvinyl alcohol/polyvinyl acetate/copper oxide nanoparticles (PVA/PVAc/CuO NPs) electrospun nanofibers. The successful preparation of composite nanofibers and modified electrodes was confirmed using the evaluation of field emission-scanning electron microscopy (FE-SEM) and energy-dispersive X-ray spectroscopy (EDX). Also, the composite nanofibers were characterized with attenuated total reflectance-Fourier transform-infrared (ATR-FT-IR) and X-ray diffraction (XRD). In the solution of TRZ and DOX, under optimum experimental conditions, the linear dynamic ranges (LDRs) were 0.1-20.0 μmol L -1 and 0.5-27.0 μmol L -1 , respectively. Also, the limit of detection (LOD) values of TRZ and DOX were 0.032 and 0.150 μmol L -1 ., Significance: PVAc acts as a cross-linking agent for PVA, and their mixture is effective for sample preparation and pre-concentration of analytes in complex matrices. Also, adding CuO NPs to this polymeric mixture enhanced the adsorption efficiency. Taking advantage of the high surface area of MnO NPs and the high electrical conductivity of B-rGO, and considering the superiority of their simultaneous utilization, the constructed electrochemical biosensor is both cost-effective and rapid. It demonstrates excellent stability, repeatability, and sensitivity for the simultaneous determination of TRZ and DOX under optimal conditions. This biosensor, the first of its kind, is specifically designed for the simultaneous determination of TRZ and DOX in human plasma and serum samples, representing a significant advancement in biosensing technology., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

3. Effect of Ions and Sequence Variants on the Antagonist Binding Properties of the Histamine H 1 Receptor.

Author

Conrad M, Söldner CA, and Sticht H

Subjects

Binding Sites, Histamine H1 Antagonists, Humans, Ions, Receptors, G-Protein-Coupled metabolism, Receptors, Histamine metabolism, Receptors, Histamine H1 metabolism, Doxepin chemistry, Doxepin metabolism, Histamine metabolism

Abstract

The histamine H 1 receptor (H 1 R) is a G protein-coupled receptor (GPCR) and represents a main target in the treatment of allergic reactions as well as inflammatory reactions and depressions. Although the overall effect of antagonists on H 1 function has been extensively investigated, rather little is known about the potential modulatory effect of ions or sequence variants on antagonist binding. We investigated the dynamics of a phosphate ion present in the crystal structure and of a sodium ion, for which we determined the position in the allosteric pocket by metadynamics simulations. Both types of ions exhibit significant dynamics within their binding site; however, some key contacts remain stable over the simulation time, which might be exploited to develop more potent drugs targeting these sites. The dynamics of the ions is almost unaffected by the presence or absence of doxepin, as also reflected in their small effect (less than 1 kcal·mol -1 ) on doxepin binding affinity. We also examined the effect of four H 1 R sequence variants observed in the human population on doxepin binding. These variants cause a reduction in doxepin affinity of up to 2.5 kcal·mol -1 , indicating that personalized medical treatments that take into account individual mutation patterns could increase precision in the dosage of GPCR-targeting drugs.

Published

2022

4. High-throughput protein precipitation method with 96-well plate for determination of doxepin and nordoxepin in human plasma using LC-MS/MS.

Author

Margaryan T, Sargsyan M, Gevorgyan A, Zakaryan H, Aleksanyan A, Harutyunyan A, Armoudjian Y, and Mikayelyan A

Subjects

Chemical Precipitation, Doxepin chemistry, Doxepin isolation & purification, Drug Stability, High-Throughput Screening Assays, Humans, Linear Models, Reproducibility of Results, Sensitivity and Specificity, Chromatography, Liquid methods, Doxepin analogs & derivatives, Doxepin blood, Tandem Mass Spectrometry methods

Abstract

The aim of this study was to establish a high-throughput and sensitive LC-MS/MS method for the determination of doxepin and its major active metabolite nordoxepin in human plasma. It has been designed for bioequivalence study for formulations containing 25 mg of doxepin. Doxepin and nordoxepin were extracted from human plasma samples by protein precipitation with acetonitrile by using protein precipitation 96-well plates. The analyte was separated using a Phenomenex Kinetex Biphenyl column (100 × 2.1 mm, 2.6 μm) using isocratic elution with a mobile phase of 20 mM ammonium formate (30%) and acetonitrile:methanol 3:7 v:v (70%) at a flow rate of 0.5 mL/min and an injection volume of 10 μL. The detection was performed using a triple quadrupole mass spectrometer by multiple reaction monitoring mode to monitor the precursor-to-product ion transitions of m/z 280.4 → 107.0 and 283.4 → 235.0 for doxepin and doxepin-D3, respectively, and 266.3 → 106.9 and 269.3 → 235.0 for nordoxepin and nordoxepin-D3, respectively, in positive electrospray ionization mode. The total run time was 3.5 min. The method was validated over a concentration range of 50-10,000 pg/mL using a Triple Quad 4500 MS System (Sciex) for both analytes. The developed and validated method can be successfully used to study the bioequivalence/pharmacokinetics of doxepin and nordoxepin., (© 2020 John Wiley & Sons, Ltd.)

Published

2020

5. Binding of histamine to the H1 receptor-a molecular dynamics study.

Author

Söldner CA, Horn AHC, and Sticht H

Subjects

Amino Acid Sequence, Animals, Binding Sites genetics, Doxepin chemistry, Doxepin metabolism, Histamine metabolism, Histamine Antagonists chemistry, Histamine Antagonists metabolism, Humans, Ligands, Molecular Structure, Mutation, Protein Binding, Receptors, Histamine H1 genetics, Receptors, Histamine H1 metabolism, Histamine chemistry, Molecular Dynamics Simulation, Protein Domains, Receptors, Histamine H1 chemistry

Abstract

Binding of histamine to the G-protein coupled histamine H 1 receptor plays an important role in the context of allergic reactions; however, no crystal structure of the resulting complex is available yet. To deduce the histamine binding site, we performed unbiased molecular dynamics (MD) simulations on a microsecond time scale, which allowed to monitor one binding event, in which particularly the residues of the extracellular loop 2 were involved in the initial recognition process. The final histamine binding pose in the orthosteric pocket is characterized by interactions with Asp107 3.32 , Tyr108 3.33 , Thr194 5.43 , Asn198 5.46 , Trp428 6.48 , Tyr431 6.51 , Phe432 6.52 , and Phe435 6.55 , which is in agreement with existing mutational data. The conformational stability of the obtained complex structure was subsequently confirmed in 2 μs equilibrium MD simulations, and a metadynamics simulation proved that the detected binding site represents an energy minimum. A complementary investigation of a D107A mutant, which has experimentally been shown to abolish ligand binding, revealed that this exchange results in a significantly weaker interaction and enhanced ligand dynamics. This finding underlines the importance of the electrostatic interaction between the histamine ammonium group and the side chain of Asp107 3.32 for histamine binding.

Published

2018

6. Suitability of 1-hexyl-3-methylimidazolium ionic liquids for the analysis of pharmaceutical formulations containing tricyclic antidepressants.

Author

Calabuig-Hernández S, Peris-García E, García-Alvarez-Coque MC, and Ruiz-Angel MJ

Subjects

Amitriptyline analysis, Amitriptyline chemistry, Antidepressive Agents, Tricyclic analysis, Chromatography, Reverse-Phase methods, Doxepin analysis, Doxepin chemistry, Drug Compounding, Limit of Detection, Nortriptyline analysis, Nortriptyline chemistry, Spectrophotometry, Ultraviolet, Antidepressive Agents, Tricyclic chemistry, Borates chemistry, Imidazoles chemistry, Ionic Liquids chemistry

Abstract

The reversed-phase chromatographic behaviour of six tricyclic antidepressants (amitryptiline, clomipramine, doxepin, imipramine, nortryptiline and maprotiline) was examined in this work with acetonitrile-water mobile phases, in the absence and presence of the ionic liquids 1-hexyl-3-methylimidazolium chloride and 1-hexyl-3-methylimidazolium tetrafluoroborate, which have interesting features for the separation of basic compounds, in terms of peak shape combined with reduced retention. Tricyclic antidepressants are low polarity drugs that strongly associate to the alkyl chains of conventional stationary phases. They are also positively charged in the usual working pH range (2-8) in reversed-phase liquid chromatography, due to their strong basic character. In consequence, they may interact with the residual ionised silanols present in conventional silica-based stationary phases, which is translated in stronger retention, and tailed and broad peaks. A simple chromatographic procedure for the control of tricyclic antidepressants in pharmaceutical formulations was developed using a C8 column and a mobile phase containing 30% acetonitrile/10 mM 1-hexyl-3-methylimidazolium chloride at pH 3, with UV detection. Intra- and inter-day precisions were usually below +1.0%, and intra- and inter-day bias (trueness) ranged between ‒2.1% and +2.4%, and between ‒3.0% and +2.3%, respectively. Sample preparation was simple and only required solubilisation and filtration previous to injection., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

7. Development of a mucoadhesive delivery system for control release of doxepin with application in vaginal pain relief associated with gynecological surgery.

Author

Sanz R, Clares B, Mallandrich M, Suñer-Carbó J, Montes MJ, and Calpena AC

Subjects

Adhesiveness, Administration, Intravaginal, Analgesics chemistry, Animals, Doxepin chemistry, Drug Liberation, Drug Stability, Female, Mucous Membrane chemistry, Pain drug therapy, Rheology, Swine, Vagina, Viscosity, Analgesics administration & dosage, Doxepin administration & dosage, Drug Delivery Systems

Abstract

The main purpose of this study was to develop a semisolid mucoadhesive formulation for the non-invasive vaginal administration of doxepin (DOX) for relief of pain derived from the scarring process after surgery. An orafix ® platform loading DOX was tested for adequate stability, rheology and vaginal mucoadhesion capacity. The formulation exhibited appropriate pH and was microbiologically stable. The rheological studies confirmed its pseudoplastic and thixotropic nature with prevalence of the elastic behavior component over the viscous one. Appropriate syringeability and spreadability results were also confirmed. Different experiments showed adequate mucoadhesion capacity even in the presence of simulated vaginal fluid. Finally, DOX release, permeation and retention in vaginal mucosa studies were also accomplished with promising results. DOX release kinetics followed the modified Higuchi model and the permeation studies did not render such high values as to suggest potential systemic absorption which could lead to undesirable systemic side effects. Therefore, we can hypostatize that the proposed formulation may assist to fill in the therapeutic gap regarding pure pain relief at local level in vagina., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

8. Development of a buccal doxepin platform for pain in oral mucositis derived from head and neck cancer treatment.

Author

Sanz R, Calpena AC, Mallandrich M, Gimeno Á, Halbaut L, and Clares B

Subjects

Animals, Doxepin administration & dosage, Doxepin chemistry, Female, Head and Neck Neoplasms drug therapy, Histamine Antagonists administration & dosage, Histamine Antagonists chemistry, Histamine Antagonists metabolism, Male, Mouth Mucosa drug effects, Mouthwashes administration & dosage, Mouthwashes chemistry, Organ Culture Techniques, Pain drug therapy, Stomatitis drug therapy, Swine, Treatment Outcome, Doxepin metabolism, Head and Neck Neoplasms metabolism, Mouth Mucosa metabolism, Mouthwashes metabolism, Pain metabolism, Stomatitis metabolism

Abstract

This study describes the development of semisolid formulations containing doxepin (DOX) for pain relief in oral mucositis, frequently related to chemotherapy and/or radiotherapy treatments in patients with head and neck cancer. Chemical permeation enhancers were evaluated and selected according to the results obtained from rheological studies, drug release, and drug permeation and retention through buccal mucosa. Finally, the selected formulation was compared in vivo, with a reference DOX mouthwash, whose clinical efficacy had been previously reported. The obtained findings showed that an orabase® platform loading transcutol® (10%) and menthol (5%) for the buccal vehiculization of DOX exhibited a decreased elastic and viscous behavior improving its application. The main drug release mechanism could be considered as diffusion according to Higuchi model. Obtained DOX permeation rates were considered optimal for an analgesic effect and far below to an antidepressant activity. Similar in vivo plasma concentrations were found for the semisolid formulation and the reference mouthwash. However, DOX amounts retained in the mucosa of animals for the semisolid formulation were higher than the reference, which let us hypostatize even stronger potential local therapeutic effect with additional advantages such as, mucoadhesive properties, absence of alcohol, some degree of freshness, as well as, drug palatability improvement., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

9. Structural Analysis of the Histamine H 1 Receptor.

Author

Shiroishi M and Kobayashi T

Subjects

Animals, Binding Sites physiology, Doxepin chemistry, Doxepin pharmacology, Histamine chemistry, Histamine metabolism, Histamine Antagonists chemistry, Histamine Antagonists pharmacology, Histamine H1 Antagonists chemistry, Histamine H1 Antagonists metabolism, Humans, Protein Binding drug effects, Receptors, Histamine H1 metabolism, Receptors, Histamine H1 chemistry

Abstract

The crystal structure of the human histamine H 1 receptor (H 1 R) has been determined in complex with its inverse agonist doxepin, a first-generation antihistamine. The crystal structure showed that doxepin sits deeply inside the ligand-binding pocket and predominantly interacts with residues highly conserved among other aminergic receptors. This binding mode is considered to result in the low selectivity of the first-generation antihistamines for H 1 R. The crystal structure also revealed the mechanism of receptor inactivation by the inverse agonist doxepin. On the other hand, the crystal structure elucidated the anion-binding site near the extracellular portion of the receptor. This site consists of residues not conserved among other aminergic receptors, which are specific for H 1 R. Docking simulation and biochemical experimentation demonstrated that a carboxyl group on the second-generation antihistamines interacts with the anion-binding site. These results imply that the anion-binding site is a key site for the development of highly selective antihistamine drugs.

Published

2017

10. Spectroscopic, electrochemical and molecular docking studies of dothiepin and doxepin with bovine serum albumin and DNA base.

Author

Rajendiran N and Thulasidhasan J

Subjects

Animals, DNA chemistry, Electrochemistry, Molecular Docking Simulation, Oxidation-Reduction, Spectrometry, Fluorescence, DNA metabolism, Dothiepin chemistry, Dothiepin metabolism, Doxepin chemistry, Doxepin metabolism, Serum Albumin, Bovine metabolism

Abstract

The interaction of dothiepin (DOT) and doxepin (DOX) with bovine serum albumin (BSA) and a DNA base (adenine) was studied using UV-visible, fluorescence, attenuated total reflection-infra-red (ATR-IR), cyclic voltammetry and molecular docking methods. Strong fluorescence quenching was observed upon interaction of DOT and DOX with BSA/adenine and the mechanism suggested static quenching. Hydrophobic and hydrogen bonding interactions were the predominant intermolecular forces needed to stabilize the copolymer. Upon addition of the drugs: (i) the tautomeric equilibrium structure of the adenine was changed; and (ii) the oxidation and the reduction peaks of the adenine/BSA interaction shifted towards high and low potentials, respectively. In ATR-IR, the band shift of amides I and II indicated a change in secondary structure of BSA upon binding to DOT and DOX drugs. The reduction in voltammetric current in the presence of BSA/adenine was attributed to slow diffusion of BSA/adenine binding with DOX/DOT. The docking method indicated that the drug moiety interacted with the BSA molecule. Copyright © 2016 John Wiley & Sons, Ltd., (Copyright © 2016 John Wiley & Sons, Ltd.)

Published

2016

11. Contact allergens in oral antihistamines.

Author

McEnery-Stonelake M and Silvestri DL

Subjects

Administration, Oral, Azo Compounds analysis, Brompheniramine chemistry, Chemistry, Pharmaceutical, Coloring Agents analysis, Databases, Pharmaceutical, Dermatitis, Allergic Contact etiology, Dosage Forms, Doxepin chemistry, Histamine Antagonists administration & dosage, Nonprescription Drugs chemistry, Polysorbates analysis, Prescription Drugs chemistry, Propylene Glycol analysis, Terfenadine analogs & derivatives, Terfenadine chemistry, Allergens analysis, Excipients analysis, Histamine Antagonists chemistry

Abstract

Background: Excipients in various formulations of active drugs occasionally include known contact allergens. Their ingestion may trigger dermatitis or cause it to become widespread or refractory to therapy., Objective: The aim of this study was to investigate the prevalence of common contact allergens among the excipients of oral antihistamines available in this country., Methods: We gathered the complete ingredient lists of 2119 different preparations of 12 oral antihistamines from the National Library of Medicine data bank and entered them into an electronic database for analysis., Results: More than half the formulations (55.0%) contained at least 1 member of the 10 allergen families assessed. Most brompheniramine and doxepin preparations included potentially allergenic excipients, whereas fexofenadine was most often free of them. Sorbitan group members, azo dyes, and propylene glycol were the allergens found most frequently in the antihistamines, each present in over 25% of the products. Elixirs, liquids, solutions, suspensions, and syrups were more likely than nonchewable caplets, capsules, and tablets to contain the allergens tabulated (100% vs 39.3%, respectively). Chewable pills frequently contained azo dyes., Conclusions: Ingestion of antihistamines could precipitate a systemic contact dermatitis in a patient sensitized to an allergen present as an excipient in the medicine.

Published

2014

12. Dependence of the kinetic and thermodynamic parameters on hydrophilic-lipophilic character of alprazolam, clonazepam, diazepam, doxepin and haloperidol in alkaline environment.

Author

Maślanka A, Krzek J, Szlósarczyk M, Żmudzki P, and Wach K

Subjects

Drug Stability, Hydrogen-Ion Concentration, Hydrophobic and Hydrophilic Interactions, Kinetics, Thermodynamics, Alprazolam chemistry, Clonazepam chemistry, Diazepam chemistry, Doxepin chemistry, Haloperidol chemistry

Abstract

Examination of the stability of clonazepam, diazepam, alprazolam, haloperidol, and doxepin in basic solutions was performed, together with an assessment of the kinetic (k, t0.1i t0.5) and thermodynamic (Ea, ΔH(++)i ΔS(++)) stability-indicating parameters, which were compared with the lipophilicity (logP) of the studied drugs. It was observed that the calculated values of Ea, ΔH(++) and ΔS(++) for the studied drugs increased from 41.04 kJ/mol to 125.50 kJ/mol, from 37.82 kJ/mol to 122.24 kJ/mol and from -167.09 J/Kmol to 53.02 J/Kmol, respectively, along with an increase of lipophilicity (logP) from 2.12 to 4.30 for the most hydrophilic alprazolam to the most lipophilic haloperidol. The degradation products were identified using UPLC/MS/MS method., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

13. Electromembrane surrounded solid phase microextraction: a novel approach for efficient extraction from complicated matrices.

Author

Rezazadeh M, Yamini Y, Seidi S, and Ebrahimpour B

Subjects

Amitriptyline blood, Amitriptyline chemistry, Amitriptyline isolation & purification, Amitriptyline urine, Doxepin blood, Doxepin chemistry, Doxepin isolation & purification, Doxepin urine, Ethers chemistry, Humans, Hydrogen-Ion Concentration, Limit of Detection, Linear Models, Reproducibility of Results, Chromatography, Gas methods, Membranes, Artificial, Models, Chemical, Solid Phase Microextraction methods

Abstract

In the present work, electromembrane surrounded solid phase microextraction (EM-SPME) is introduced for the first time. The organic liquid membrane, which consists of 2-nitrophenyl octyl ether (NPOE), was immobilized in the pores of a hollow fiber (HF) and the basic analytes migrated in an electrical field from aqueous sample solution through the liquid membrane and into aqueous acceptor phase and then they were adsorbed on the solid sorbent, which acts as the cathode. Effective parameters such as composition of organic liquid membrane, pH of donor and acceptor phases, applied voltage and extraction time were optimized for extraction of amitriptyline (AMI) and doxepin (DOX) as model analytes and figures of merit of the method were investigated in pure water, human plasma, and urine samples. To extract the model analytes from 24 mL neutral sample solution across organic liquid membrane and into aqueous acceptor phase, 120 V electrical potential was applied for 20 min and finally the drugs were adsorbed on a carbonaceous cathode. Regardless of high sample cleanup, which make the proposed method suitable for the analysis of drugs from complicated matrices, extraction efficiencies in the range of 3.1-11.5% and good detection limits (less than 5 ngmL(-1)) with admissible repeatability and reproducibility (intra- and inter-assay precisions ranged between 4.0-8.5% and 7.5-12.2%, respectively) were obtained from different extraction media. Linearity of the method was studied in the range of 2.0-500.0 ngmL(-1) and 5.0-500.0 ngmL(-1) for AMI and DOX, respectively and coefficient of determination higher than 0.9947 were achieved. Finally, the proposed method was applied for the analysis of AMI and DOX in real samples., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

14. Docking and MD study of histamine H4R based on the crystal structure of H1R.

Author

Feng Z, Hou T, and Li Y

Subjects

Doxepin chemistry, Doxepin metabolism, Histamine chemistry, Histamine metabolism, Humans, Hydrogen Bonding, Ligands, Protein Binding, Protein Conformation, Receptors, G-Protein-Coupled metabolism, Receptors, Histamine metabolism, Receptors, Histamine H1 metabolism, Receptors, Histamine H4, Molecular Docking Simulation, Molecular Dynamics Simulation, Receptors, G-Protein-Coupled chemistry, Receptors, Histamine chemistry, Receptors, Histamine H1 chemistry

Abstract

Histamine H4 receptor (H4R), a member of histamine receptor family, which belongs to class A of G-protein coupled receptors (GPCRs), has been reported to play a critical role in histamine-induced chemotaxis in mast cells and eosinophils. Recently, the crystal structure of human histamine H1 receptor (H1R) was reported, which facilitates structure-based drug discovery of histamine receptor significantly. In the current work, the homology models of H4R and H3R are first constructed based on the crystal structure of H1R. Clobenpropit is then docked into the binding pocket of H4R and two different binding modes can be identified. In order to select a reasonable binding mode, several other ligands including agonists and antagonists are docked into H4R, and the results reveal that all ligands share one preferable binding mode: the protonated NH tightly interacts with Asp(3.32) and the imidazole NH interacts with Glu(5.46). By comparing H3R and H4R, we find that Glu(5.20) and Thr(6.55) in H4R involve in the selectivity of H4R. Then, we perform molecular dynamics (MD) simulations for H4R in complex with its compounds. MD results indicate that the preferable docking mode is more stable. Finally, we dock agonist histamine into H1R and H4R, and then perform 20ns MD simulations for the complexes. H1R or H4R bound with histamine show strong conformational changes from TM5, TM6 and TM7, outward movement of intracellular part of TM6, and conformational change of Tyr(7.53), which is consistent with the recent crystal structures of active GPCRs. Our results reveal the mechanism of selectivity and activation for H4R, which is important for developing selective antagonists and agonists for H4R., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

15. Fully automated production of 11C-doxepin for PET imaging histamine H1 receptor.

Author

Cai H, Mangner TJ, Muzik O, Lu X, Chakraborty PK, Chugani DC, and Chugani HT

Subjects

Automation, Carbon Radioisotopes, Chromatography, High Pressure Liquid, Doxepin chemistry, Humans, Quality Control, Doxepin chemical synthesis, Positron-Emission Tomography methods, Receptors, Histamine H1 metabolism

Abstract

Objectives: (11)C-Doxepin is an established positron emission tomography (PET) probe for imaging the histamine H1 receptor, which is associated with various neurological disorders and allergic diseases. A fully automated current Good Manufacturing Practices (cGMP)-compliant radiosynthesis is therefore desirable in order to facilitate clinical PET studies. We report here a fully automated production method for (11)C-doxepin using a multipurpose PET module for clinical use., Methods: (11)C-Doxepin was radiosynthesized by N-[(11)C]methylation of nordoxepin using [(11)C]methyl iodide in DMF solvent, and then purified by HPLC, and finally reformulated with solid phase extraction (SPE) using a cGMP-compliant automated multipurpose PET module developed in house. The final product was analyzed and subjected to quality control according to current US Pharmacopeia requirements., Results: The radiochemical yield (decay corrected) of (11)C-doxepin for clinical use was 47.0 ± 5.2% (n = 12) based on [(11)C]methyl iodide, moreover the radiochemical purity of (11)C-doxepin was more than 97.5% with 1,200 ± 500 Ci/mmol specific activity(end of production). The total production time of (11)C-doxepin was 37 min from end of bombardment (EOB) with the final product passing all tests under cGMP requirements for clinical use., Conclusions: A simplified and reliable fully automated production of (11) C-doxepin for clinical use was developed, allowing the synthesis of the tracer with high yield using a cGMP-compliant module and procedure. The success of this approach could make the PET tracer (11) C-doxepin more accessible for clinical studies.

Published

2012

16. Microcoil NMR study of the interactions between doxepin, β-cyclodextrin, and acetate during capillary isotachophoresis.

Author

Jones CJ and Larive CK

Subjects

Antidepressive Agents chemistry, Antidepressive Agents isolation & purification, Buffers, Magnetic Resonance Spectroscopy, Motion, Stereoisomerism, Acetates chemistry, Doxepin chemistry, Doxepin isolation & purification, Electrophoresis, Capillary methods, Isotachophoresis methods, beta-Cyclodextrins chemistry

Abstract

The capillary isotachophoresis (cITP) separation of the isomers of the tricyclic antidepressant doxepin using β-cyclodextrin (β-CD) as a buffer additive is investigated by online microcoil NMR detection. Capillary electrophoresis (CE) is also used to determine the binding constant between the doxepin E and Z geometric isomers and β-CD. Although the doxepin isomers could be easily baseline resolved by CE, their separation by cITP was more challenging due in part to the high concentration of doxepin after cITP-focusing. The use of online (1)H NMR detection allows observation of changes in doxepin dynamics due to formation of the β-CD inclusion complex, changes in the fraction complexed and the intracapillary pH. It also provides novel experimental evidence that a weak complex between β-CD and acetate contributes to its active transport from the leading electrolyte through the sample band to the trailing electrolyte in this cationic cITP separation. The results of these cITP-NMR experiments provide new mechanistic details about the interactions of the buffer counterion acetate with various components of the separation system and have important implications for other analyses based on formation of cyclodextrin inclusion complexes.

Published

2012

17. Structure of the human histamine H1 receptor complex with doxepin.

Author

Shimamura T, Shiroishi M, Weyand S, Tsujimoto H, Winter G, Katritch V, Abagyan R, Cherezov V, Liu W, Han GW, Kobayashi T, Stevens RC, and Iwata S

Subjects

Binding Sites, Crystallography, X-Ray, Doxepin chemistry, Histamine Antagonists chemistry, Humans, Hydrophobic and Hydrophilic Interactions, Isomerism, Ligands, Models, Molecular, Phosphates chemistry, Phosphates metabolism, Protein Binding, Protein Conformation, Receptors, Adrenergic, beta-2 chemistry, Receptors, Dopamine D3 chemistry, Substrate Specificity, Doxepin metabolism, Histamine Antagonists metabolism, Receptors, Histamine H1 chemistry, Receptors, Histamine H1 metabolism

Abstract

The biogenic amine histamine is an important pharmacological mediator involved in pathophysiological processes such as allergies and inflammations. Histamine H(1) receptor (H(1)R) antagonists are very effective drugs alleviating the symptoms of allergic reactions. Here we show the crystal structure of the H(1)R complex with doxepin, a first-generation H(1)R antagonist. Doxepin sits deep in the ligand-binding pocket and directly interacts with Trp 428(6.48), a highly conserved key residue in G-protein-coupled-receptor activation. This well-conserved pocket with mostly hydrophobic nature contributes to the low selectivity of the first-generation compounds. The pocket is associated with an anion-binding region occupied by a phosphate ion. Docking of various second-generation H(1)R antagonists reveals that the unique carboxyl group present in this class of compounds interacts with Lys 191(5.39) and/or Lys 179(ECL2), both of which form part of the anion-binding region. This region is not conserved in other aminergic receptors, demonstrating how minor differences in receptors lead to pronounced selectivity differences with small molecules. Our study sheds light on the molecular basis of H(1)R antagonist specificity against H(1)R., (©2011 Macmillan Publishers Limited. All rights reserved)

Published

2011

18. Quantification of rimonabant (SR 141716A) in monkey plasma using HPLC with UV detection.

Author

Javors MA, Sanchez JJ, and McMahon LR

Subjects

Animals, Doxepin analysis, Doxepin chemistry, Female, Linear Models, Male, Piperidines chemistry, Pyrazoles chemistry, Reproducibility of Results, Rimonabant, Sensitivity and Specificity, Chromatography, High Pressure Liquid methods, Macaca mulatta blood, Piperidines blood, Pyrazoles blood, Spectrophotometry, Ultraviolet methods

Abstract

Using an isocratic high-performance liquid chromatography (HPLC) system and UV detection, a simple and precise analytical procedure was developed to quantify levels of the CB(1) receptor antagonist rimonabant in the plasma of rhesus monkeys. Rimonabant was extracted from plasma samples into 5% isopropanol in hexane. After separation, the isopropanol-hexane fractions were dried to residue, redissolved in mobile phase, and then injected into the HPLC. The HPLC system included an acetonitrile-phosphate buffer (62:38, v/v) mobile phase (pH 6.7), flow rate of 1.5 mL/min, C(18) column (4.6 mm i.d. x 150 mm length, 5 microm), and UV detection at 280 nm. Retention times for rimonabant and doxepin (internal standard) were 9.9 and 2.4 min, respectively. The regression of the spiked calibrator curve was linear from 60 to 4000 ng/mL (r(2) = 0.996). The lower limit of quantification was 60 ng/mL, and recovery was 83.6%. Rimonabant was stable in stock solutions and monkey plasma across a range of temperatures and concentrations. To demonstrate utility, plasma rimonabant was measured in six rhesus monkeys at 60 and 240 min after intramuscular administration of 1 mg/kg rimonabant. Rimonabant levels ranged from 175 to 1290 ng/mL. The analytical assay described here provides a simple and accurate procedure for multiple within-subject measurements of the CB(1) antagonist rimonabant.

Published

2010

19. Determination of perhexiline and its metabolite hydroxyperhexiline in human plasma by liquid chromatography/tandem mass spectrometry.

Author

Zhang M, Moore GA, Barclay ML, and Begg EJ

Subjects

Doxepin analogs & derivatives, Doxepin chemistry, Humans, Linear Models, Reproducibility of Results, Sensitivity and Specificity, Chromatography, Liquid methods, Perhexiline analogs & derivatives, Perhexiline blood, Tandem Mass Spectrometry methods

Abstract

Perhexiline is a drug that is used for treatment of moderate to severe angina pectoris that has not responded to other treatment. It has a low therapeutic index, and saturable metabolism that is also subject to genetic polymorphism (CYP2D6). Concentration monitoring of the parent drug and its major metabolite is considered necessary to optimise efficacy and reduce the risk of hepatotoxicity and neuropathy. A rapid, simple and sensitive liquid chromatography/tandem mass spectrometry (LC-MS/MS) assay was developed for the determination of perhexiline and its metabolite cis-hydroxyperhexiline in human plasma. After proteins were precipitated with acetonitrile, perhexiline, the major metabolite cis-hydroxyperhexiline and nordoxepin as the internal standard were resolved on a phenyl-hexyl column using gradient elution of 0.05% formic acid and methanol. The three compounds were detected using electrospray ionisation in the positive mode. Standard curves were linear over the concentration range 10-2000microg/L (r>0.999), bias was

Published

2009

20. Low-dose doxepin for the treatment of insomnia: emerging data.

Author

Goforth HW

Subjects

Antidepressive Agents, Tricyclic administration & dosage, Chemistry, Pharmaceutical, Doxepin administration & dosage, Doxepin chemistry, Drug Administration Schedule, Humans, Hypnotics and Sedatives pharmacology, Polysomnography, Psychiatric Status Rating Scales, Severity of Illness Index, Sleep drug effects, Sleep physiology, Sleep Initiation and Maintenance Disorders metabolism, Sleep Wake Disorders drug therapy, Treatment Outcome, Wakefulness, Antidepressive Agents, Tricyclic pharmacokinetics, Antidepressive Agents, Tricyclic therapeutic use, Dose-Response Relationship, Drug, Doxepin pharmacokinetics, Doxepin therapeutic use, Sleep Initiation and Maintenance Disorders drug therapy

Abstract

Background: Doxepin is a tricyclic compound that has been used extensively for the treatment of depressive and anxiety disorders for approximately thirty years. It was noted early to have sedative effects and assist with the improvement of disrupted sleep patterns, but in higher antidepressant doses it was also noted to have significant anticholinergic and antinoradrenergic properties. These properties led to significant dose-limiting side effects, which at times precluded its effective use. Recently, doxepin has seen renewed interest in low doses as an H1 specific antagonist in sleep disorders., Objective: The review seeks systematically to examine currently published data on the use of doxepin for the treatment of insomnia, and its pharmacological basis., Methods: Medline articles showing from a search of 'doxepin and insomnia' were included in the review., Results/conclusion: Currently available data support the use of low-dose doxepin as preferential H1 antagonist for the treatment of primary insomnia. There are likely preferential effects upon sleep maintenance insomnia compared with sleep initiation given the role of histamine in the sleep-wake cycle.

Published

2009

21. NMR characterization of the host-guest inclusion complex between beta-cyclodextrin and doxepin.

Author

Cruz JR, Becker BA, Morris KF, and Larive CK

Subjects

Binding Sites, Magnetic Resonance Spectroscopy standards, Molecular Structure, Reference Standards, Doxepin chemistry, Magnetic Resonance Spectroscopy methods, beta-Cyclodextrins chemistry

Abstract

The interaction between doxepin, a member of the tricyclic antidepressant (TCA) class of drugs, with beta-cyclodextrin (beta-CD) was investigated using NMR. Several TCAs have been reported to form a complex with beta-CD having 1:1 stoichiometry. Previous results from UV-visible spectroscopy, fluorescence measurements, and molecular modeling indicated that for imipramine, desipramine, and amitriptyline, the TCA aliphatic tail is included in the cyclodextrin cavity with apparently no interaction of the tricyclic ring. An alternative view of the doxepin-beta-CD complex is presented in this work using analysis of complexation-induced chemical shifts (CICSs), the method of continuous variation (Job's analysis), and analysis of ROESY spectra. The Job's plot derived from the NMR spectral data confirms that the complex formed has 1:1 stoichiometry. The largest changes in the CICS data were observed for the aromatic protons of one of the doxepin rings, with much smaller chemical shift changes observed for the protons of the other aromatic ring and the doxepin tail. Perhaps the most significant evidence for inclusion of the doxepin tricyclic ring is the strong ROESY cross peaks between the doxepin aromatic resonances and the protons located inside the beta-CD cavity. Changes in the doxepin (1)H NMR spectrum and the behavior of ROESY exchange cross peaks suggest that inclusion complex formation decreases the rate of internal motions of doxepin., (2008 John Wiley & Sons, Ltd.)

Published

2008

22. Novel therapeutic usage of low-dose doxepin hydrochloride.

Author

Singh H and Becker PM

Subjects

Animals, Dose-Response Relationship, Drug, Doxepin chemistry, Drug Administration Schedule, Humans, Sleep Initiation and Maintenance Disorders drug therapy, Doxepin administration & dosage

Abstract

Low-dose doxepin hydrochloride (1, 3 and 6 mg) is a tricyclic antidepressant currently being investigated for the treatment of primary insomnia in adult and geriatric patients. Although it has been used at much higher doses to treat depression effectively for a number of decades, it offers a unique potency and selectivity for antagonizing the H1 (histamine) receptor at low doses. This mechanism of action may prove to be advantageous compared with other medications currently approved for the treatment of insomnia. This article reviews previous clinical studies using doxepin for insomnia and the recent clinical trial data, and briefly discusses other potential roles of this compound in clinical practice.

Published

2007

23. Study of the interaction between doxepin hydrochloride and bovine serum albumin by spectroscopic techniques.

Author

Kandagal PB, Seetharamappa J, Ashoka S, Shaikh SM, and Manjunatha DH

Subjects

Animals, Antidepressive Agents, Tricyclic chemistry, Antidepressive Agents, Tricyclic pharmacology, Binding, Competitive, Cattle, Circular Dichroism, Drug Interactions, Energy Transfer, Hydrogen Bonding, Hydrophobic and Hydrophilic Interactions, In Vitro Techniques, Ions pharmacology, Protein Binding, Serum Albumin, Bovine drug effects, Spectrometry, Fluorescence, Thermodynamics, Doxepin chemistry, Doxepin pharmacology, Serum Albumin, Bovine chemistry

Abstract

The binding of doxepin hydrochloride (DH) to bovine serum albumin (BSA) was investigated by spectroscopic (fluorescence, UV-vis absorption and circular dichroism) techniques. The binding parameters have been evaluated by fluorescence quenching method. The thermodynamic parameters, Delta H major, Delta S major, and Delta G major calculated at different temperatures indicated that the hydrogen bond and hydrophobic forces played a major role in the interaction of DH with BSA. Based on the Förster's theory of non-radiation energy transfer, the binding average distance, r between the donor (BSA) and acceptor (DH) was evaluated and found to be 2.7 nm. Spectral results observed showed that the binding of DH to BSA induced conformational changes in BSA. The effect of common ions on the binding of DH to BSA was also examined.

Published

2006

24. Application of copper (II) in spectrophotometric determination of some drugs of aliphatic amine nature.

Author

Somogyi E, Piotrowska J, and Rzeszutko W

Subjects

Amitriptyline chemistry, Calibration, Doxepin chemistry, Lidocaine chemistry, Spectrophotometry methods, Amines chemistry, Copper chemistry, Organometallic Compounds chemistry

Abstract

Anhydrous copper(II) acetate was applied to spectrophotometric determination of amitriptilline, doxepin and lignocaine in acetone solutions. The developed method was employed for determining these substances in pharmaceutical preparations. The obtained results has indicated both high precision and accuracy of the method.

Published

2004

25. The N-demethylation of the doxepin isomers is mainly catalyzed by the polymorphic CYP2C19.

Author

Härtter S, Tybring G, Friedberg T, Weigmann H, and Hiemke C

Subjects

Aryl Hydrocarbon Hydroxylases antagonists & inhibitors, Catalysis, Cytochrome P-450 CYP2C19, Humans, Isoenzymes antagonists & inhibitors, Isoenzymes metabolism, Isothiocyanates pharmacology, Mixed Function Oxygenases antagonists & inhibitors, Tranylcypromine pharmacology, Aryl Hydrocarbon Hydroxylases metabolism, Doxepin analogs & derivatives, Doxepin chemistry, Doxepin metabolism, Microsomes, Liver enzymology, Mixed Function Oxygenases metabolism

Abstract

Purpose: This study was conducted to identify the cytochrome P450s (CYPs) responsible for the metabolism of the cis- and trans-isomers of the tricyclic antidepressant doxepin to its pharmacologically active N-desmethylmetabolite by in vitro techniques., Methods: The doxepin N-demethylation was studied by means of pooled human liver microsomes and chemical inhibitors, recombinant human (rh)-CYPs, and geno- and phenotyped human liver microsomes., Results: The N-demethylation of both isomers was inhibited most prominently by tranylcypromine (CYP2C19) to more than 50%. Furafylline (CYP1A2) and sulfaphenazole (CYP2C9) inhibited the N-demethylation to a lesser extent while quinidine (CYP2D6) or troleandomycine (CYP3A4) had no effect. Rh-CYP2C19, -CYP1A2, and -CYP2C9 were able to N-demethylate cis- and trans-doxepin. Only traces of trans-desmethyldoxepin were detectable when CYP3A4 was used. The maximum velocity in the cis- and transdoxepin N-demethylation was significantly (P < 0.05) lower in microsomes with low CYP2C19 activity (345 +/- 44 and 508 +/- 75 pmol/min/ mg protein, respectively) compared to those with high CYP2C19 activity (779 +/- 132 and 1,189 +/- 134 pmollmin/mg)., Conclusion: The present study demonstrates a significant contribution of the polymorphic CYP2C19 to the N-demethylation of doxepin. CYP2C9 and CYP1A2 play a minor role and CYP3A4 does not contribute substantially.

Published

2002

26. Absolute bioavailability and stereoselective pharmacokinetics of doxepin.

Author

Yan JH, Hubbard JW, McKay G, Korchinski ED, and Midha KK

Subjects

Administration, Oral, Adult, Antidepressive Agents, Tricyclic administration & dosage, Biological Availability, Cross-Over Studies, Doxepin administration & dosage, Humans, Injections, Intravenous, Male, Models, Biological, Stereoisomerism, Antidepressive Agents, Tricyclic chemistry, Antidepressive Agents, Tricyclic pharmacokinetics, Doxepin chemistry, Doxepin pharmacokinetics

Abstract

1. Commercial doxepin contains geometric isomers in the proportions Z:E = 15:85. Z-doxepin and its metabolite Z-N-desmethyldoxepin are both active antidepressants, whereas the corresponding E-isomers are less active therapeutically. 2. The present pharmacokinetic study was a balanced, randomized, two-treatment, two-period, two-sequence crossover design in which 12 healthy male volunteers were given single doses of commercial doxepin intravenously and orally on two occasions separated by a washout period. 3. A two-compartment model with no lag time and first-order elimination fitted the plasma concentration-time curves after intravenous dosing. Pharmacokinetic parameters estimated from the model were comparable with those estimated by non-compartmental methods. 4. All pharmacokinetic parameters displayed a wide between-subject variability. Both isomers of doxepin showed large volumes of distribution and relatively short half-lives in plasma, suggestive of extensive distribution and/or tissue binding. The mean fraction absorbed after oral administration was 0.29 for each isomer. Renal clearances of each isomer were very low after either oral or intravenous dosing, although all four analytes were quantifiable in the urine for prolonged periods. 5. After oral dosing, plasma concentrations of the doxepin isomers remained roughly in the ratio Z:E = 15:85, whereas those of N-desmethyldoxepin were closer to 1:1 in all but two outliers, who had high levels E-N-desmethyldoxepin.

Published

2002

27. Separation of cis- and trans-isomers of thioxanthene and dibenz[b,e]oxepin derivatives on calixarene- and resorcinarene-bonded high-performance liquid chromatography stationary phases.

Author

Sokoliess T, Menyes U, Roth U, and Jira T

Subjects

Calixarenes, Chlorprothixene chemistry, Chlorprothixene isolation & purification, Chromatography, High Pressure Liquid, Clopenthixol chemistry, Clopenthixol isolation & purification, Dibenzoxepins chemistry, Doxepin chemistry, Flupenthixol chemistry, Flupenthixol isolation & purification, Hydrogen-Ion Concentration, Indicators and Reagents, Isomerism, Thioxanthenes chemistry, Dibenzoxepins isolation & purification, Macromolecular Substances, Phenylalanine analogs & derivatives, Phenylalanine chemistry, Thioxanthenes isolation & purification

Abstract

The chromatographic behavior of six calix[n]arene phases (n=4, 6, 8) and one calix[4]resorcinarene phase is described for the separation of cis- and trans-isomers of three thioxanthene (flupentixol, clopenthixol, chlorprothixene) and one benz[b,e]oxepin derivative (doxepin). The influences of two different organic modifiers (MeOH, MeCN) for the separation of the isomers on every column are described. Different selectivities of the stationary phases exist as a function of the ring size of the calixarenes and their substitution at the "upper rim" with p-tert.-butyl groups. Furthermore, the influence of free phenol groups on the resorcinarene phase is discussed. Relations between structural elements of the analytes and the retention behavior on the stationary phases are found. The selectivity of the calixarene and resorcinarene stationary phases is compared with a RP-C18 phase containing the same base silica. Advantages of the resorcinarene as well as of the calixarene columns exist for the separation of cis- and trans-isomers of three compounds dependent from the substitution in position 2 of the thioxanthenes, respectively the kind of the basic side chain of all substances.

Published

2002

28. Ring flexibility within tricyclic antidepressant drugs.

Author

Casarotto MG and Craik DJ

Subjects

Amitriptyline chemistry, Carbon Radioisotopes, Dothiepin chemistry, Doxepin chemistry, Imipramine chemistry, Magnetic Resonance Spectroscopy, Molecular Conformation, Pliability, Temperature, Antidepressive Agents, Tricyclic chemistry

Abstract

The internal flexibility of the central seven-membered ring of a series of tricyclic antidepressant drugs (TCAs), imipramine [1], amitriptyline [2], doxepin [3], and dothiepin [4], has been investigated by (1)H and (13)C nuclear magnetic (NMR) techniques. Two dynamic processes were examined: ring inversion and bridge flexing. (1)H NMR line-shape analysis was used to obtain ring inversion barriers for 2-4. These studies yielded energy barriers of 14.3, 16.7, and 15.7 +/- 0.6 kcal/mol for the hydrochloride salts of doxepin, dothiepin, and amitriptyline, respectively. The barriers for the corresponding free bases were lower by 0.6 kcal/mol on average. (13)C T(1) relaxation measurements were used to determine the degree of bridge flexing associated with the central seven-membered ring for all four compounds. By fitting the T(1) data to a two-state jump model, lifetimes and amplitudes of rapid bridge flexing motions were determined. The results show that imipramine has the fastest rate of bridge flexing, followed by amitriptyline, doxepin, and dothiepin. The pharmacological profiles of the TCAs are complex and they interact with many receptor sites, resulting in numerous side effects and a general lack of understanding of their precise mode of action in different anxiety-related disorders. They all have similar three-dimensional structures, which makes it difficult to rationalize their differing relative potency in different assays/clinical settings. However, the clear finding here that there are significantly different degrees of internal mobility suggests that molecular dynamics should be an additional factor considered when trying to understand the mode of action of this clinically important family of molecules., (Copyright 2001 Wiley-Liss, Inc.)

Published

2001

29. Adverse effects in a newborn infant breast-fed by a mother treated with doxepin.

Author

Frey OR, Scheidt P, and von Brenndorff AI

Subjects

Adult, Antidepressive Agents, Tricyclic pharmacokinetics, Doxepin analogs & derivatives, Doxepin chemistry, Doxepin metabolism, Doxepin pharmacokinetics, Female, Humans, Infant, Newborn, Milk, Human chemistry, Milk, Human metabolism, Antidepressive Agents, Tricyclic adverse effects, Breast Feeding adverse effects, Doxepin adverse effects

Abstract

Objective: To report adverse effects in a newborn infant whose mother had been treated with doxepin during pregnancy and while breast-feeding., Case Summary: The nine-day-old white boy was admitted because of poor sucking and swallowing, with muscle hypotonia and vomiting. He was drowsy and had lost 150 g. At the time of admission, he was breast-fed by his mother who was being treated with doxepin 35 mg/d. Samples of plasma and breast milk were taken and analyzed by HPLC and fluorescence polarization immunoassay. The amount of doxepin and N-desmethyldoxepin (DDP) ingested via breast-feeding was approximately 10-20 micrograms/kg/d (i.e., only 2.5% of the weight-adjusted dose of the mother). Doxepin was detectable in small amounts in the infant's plasma (approximately 10 micrograms/L); DDP was below the lower limit of detection of 10 micrograms/L. All adverse effects subsided within 48 hours after breast-feeding was stopped., Discussion: Despite the small doses of doxepin and its active metabolite ingested by breast-fed babies, there is a risk of accumulation and resultant adverse effects. In newborns, the metabolic activity is considerably decreased and may be further reduced by hyperbilirubinemia., Conclusions: Available data suggest that women treated with doxepin should breast-feed their infants with great caution, if at all, although much larger databases are needed to confirm this.

Published

1999

30. Bioequivalence of chiral drugs. Stereospecific versus non-stereospecific methods.

Author

Mehvar R and Jamali F

Subjects

Adrenergic Uptake Inhibitors chemistry, Anti-Arrhythmia Agents chemistry, Anti-Inflammatory Agents, Non-Steroidal chemistry, Antirheumatic Agents chemistry, Area Under Curve, Computer Simulation, Disopyramide chemistry, Disopyramide pharmacokinetics, Doxepin chemistry, Doxepin pharmacokinetics, Drug Interactions, Flurbiprofen chemistry, Flurbiprofen pharmacokinetics, Food-Drug Interactions, Guidelines as Topic, Hydroxychloroquine chemistry, Hydroxychloroquine pharmacokinetics, Ibuprofen chemistry, Ibuprofen pharmacokinetics, Nadolol chemistry, Nadolol pharmacokinetics, Nortriptyline chemistry, Nortriptyline pharmacokinetics, Propafenone chemistry, Propafenone pharmacokinetics, Stereoisomerism, Therapeutic Equivalency, Verapamil chemistry, Verapamil pharmacokinetics, Adrenergic Uptake Inhibitors pharmacokinetics, Anti-Arrhythmia Agents pharmacokinetics, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Antirheumatic Agents pharmacokinetics

Abstract

Guidelines for bioequivalence of non-racemic pharmaceuticals are abundant in the literature. However, few guidelines exist for the bioequivalence of racemic drugs which consist of 2 or more stereoisomers. The aim of this article is to address the question of whether the bioequivalence of racemic drugs should be based on the measurement of the individual enantiomers or that of the total drug. Several pharmacokinetic-pharmacodynamic cases are examined to test the validity of extrapolating the bioequivalence of racemic drugs to that of their individual enantiomers after administration of the racemate; simulation and experimental data are presented to support these cases. It is shown that for drugs which exhibit non-linear pharmacokinetics, the results of bioequivalence studies based on the total drug may differ from those based on the individual enantiomers. Similar discrepancies can be shown for a racemic drug with linear pharmacokinetics whose enantiomers substantially differ from each other in their pharmacokinetic parameters. Therefore, it is suggested that stereospecific assays be used for these drugs. Additionally, it is recommended that for racemic drugs which undergo chiral inversion, and for most products with modified release characteristics, the bioequivalence be assessed using stereospecific assays. Conversely, for racemic drugs with linear pharmacokinetics and minimal to modest stereoselectivity in their kinetic parameters, and for those with non-stereoselective pharmacodynamics, the use of stereospecific analytical methods are not warranted. Finally, the limited, controversial literature in favour of or against the use of stereospecific assays in bioequivalence of chiral drugs are reviewed and a preliminary guideline is proposed.

Published

1997

31. [The diffusion and dissolution of metronidazole and doxepin in semisolid pharmaceutical forms through synthetic membranes].

Author

Széliga ME, Lamas MC, Lillo DA, and Bregni C

Subjects

Antidepressive Agents, Tricyclic administration & dosage, Antiprotozoal Agents administration & dosage, Diffusion, Doxepin administration & dosage, Membranes, Artificial, Metronidazole administration & dosage, Solubility, Antidepressive Agents, Tricyclic chemistry, Antiprotozoal Agents chemistry, Doxepin chemistry, Metronidazole chemistry

Abstract

The dissolution and diffussion methods through homogeneous synthetic membrane were studied in different semisolid topical formulations containing metronidazole and doxepin. The results suggest that the rate of release showed a first order kinetic for one of the formulations and the rate of release described by Higuchi for the others.

Published

1997

32. Stereoselective and simultaneous measurement of cis- and trans-isomers of doxepin and N-desmethyldoxepin in plasma or urine by high-performance liquid chromatography.

Author

Yan J, Hubbard JW, McKay G, and Midha KK

Subjects

Doxepin chemistry, Humans, Kinetics, Linear Models, Quality Control, Sensitivity and Specificity, Stereoisomerism, Antidepressive Agents, Tricyclic blood, Antidepressive Agents, Tricyclic urine, Chromatography, High Pressure Liquid methods, Doxepin analogs & derivatives, Doxepin blood, Doxepin urine

Abstract

Doxepin is a tricyclic antidepressant marketed as an irrational mixture of cis- and trans-geometric isomers in the ratio of 15:85. A convenient high-performance liquid chromatographic (HPLC) procedure for simultaneous quantitation of geometric isomers of doxepin and N-desmethyldoxepin in plasma and urine is described. The HPLC procedure employed a normal phase system with a silica column and a mobile phase consisting of hexane-methanol-nonylamine (95:5:0.3, v/v/v), a UV detector and nortriptyline as the internal standard. The liquid-liquid extraction solvent was a mixture of n-pentane-isopropanol (95:5, v/v). The limit of quantitation was 1 ng/ml for each isomer. The calibration curves were linear over the ranges 1-200 ng/ml (plasma) and 1-400 ng/ml (urine). In plasma, the accuracy (mean +/- S.D.) (97.53 +/- 1.67%) and precision (3.89 +/- 1.65%) data for trans-doxepin were similar to corresponding values for urine, i.e., 97.10 +/- 2.40 and 3.82 +/- 1.14%. Accuracy and precision data for trans-N-desmethyldoxepin in plasma were 97.57 +/- 2.06 and 4.38 +/- 3.24%, and in urine were 97.64 +/- 3.32 and 5.26 +/- 1.83%, respectively. Stability tests under three different conditions of storage indicated no evidence of degradation. The recovery of doxepin was 61-64% from plasma and 63-68% from urine. The method has been applied to analyses of plasma and urine samples from human volunteers and animals dosed with doxepin.

Published

1997

33. Polyelectrolyte/amphiphile interaction studied by surface tension measurements.

Author

Persson B, Caram-Lelham N, and Sundelöf LO

Subjects

Adsorption, Hydrogen-Ion Concentration, Osmolar Concentration, Salts, Structure-Activity Relationship, Surface Tension, Time Factors, Amitriptyline chemistry, Carrageenan chemistry, Clomipramine chemistry, Doxepin chemistry, Electrolytes chemistry

Abstract

The interaction of kappa-carrageenan with three positively charged drug molecules with amphiphile character has been examined using surface tension measurements. The surface tension was measured by the pendant drop method which makes possible the determination at an apparent steady state which is important for polymeric systems. The results are compared with adsorption isotherms from dialysis equilibrium. The surface tension data, show that the presence of kappa-carrageenan in the amphiphile solutions leads to an increased and pronounced lowering of the surface tension in a low concentration range of amphiphile. It is also shown that not only the hydrophobicity of the amphiphile but also the structure of the polyelectrolyte (charge density and helix-coil structure) largely determine the extent of interaction.

Published

1996

34. Quantitative determination of E- and Z-doxepin and E- and Z-desmethyldoxepin by high-performance liquid chromatography.

Author

Adamczyk M, Fishpaugh JR, and Harrington C

Subjects

Antidepressive Agents, Tricyclic therapeutic use, Calibration, Chromatography, High Pressure Liquid standards, Doxepin chemistry, Doxepin standards, Doxepin therapeutic use, Drug Monitoring, Humans, Antidepressive Agents, Tricyclic blood, Doxepin analogs & derivatives, Doxepin blood

Abstract

A high-performance liquid chromatographic (HPLC) method was developed for the quantitative, simultaneous determination of the following four compounds in serum: E-doxepin, Z-doxepin, E-desmethyldoxepin, and Z-desmethyldoxepin. A 3-microns analytical silica column (6 x 100 mm) was employed with the mobile phase 0.025 M phosphate:acetonitrile:n-nonylamine (80:20:1). This HPLC method allows for the accurate measurement of all four isomeric compounds.

Published

1995

35. Study on zwitter-ionization of drugs. II. Synthesis and pharmacological activity of some N-[3-(5H-dibenzo[a, d]cyclohepten-5-ylidene) propyl]-N-methylamino- and N-[3-(6H-dibenz[b, e]oxepin-11-ylidene) propyl]-N-methylamino-alkanoic acid derivatives and related compounds.

Author

Muramatsu H, Sawanishi H, Iwasaki N, Kakiuchi M, Ohashi T, Kato H, and Ito Y

Subjects

Amitriptyline chemistry, Amitriptyline pharmacology, Animals, Doxepin analogs & derivatives, Guinea Pigs, In Vitro Techniques, Male, Mice, Mice, Inbred Strains, Molecular Structure, Rabbits, Rats, Rats, Wistar, Receptors, Biogenic Amine drug effects, Receptors, Histamine H1 drug effects, Structure-Activity Relationship, Amitriptyline analogs & derivatives, Biogenic Monoamines antagonists & inhibitors, Doxepin chemistry, Doxepin pharmacology, Muscle Relaxants, Central chemistry, Muscle Relaxants, Central pharmacology

Abstract

A series of N-[3-(5H-dibenzo[a, d]cyclohepten-5-ylidene)propyl]-N-methylamino- (6a) and N-[3-(6H-dibenz-[b, e]oxepin-11-ylidene)propyl]-N-methylamino-alkanoic acid derivatives (6b) and related compounds (6c-f) were synthesized and examined for pharmacological activities in vitro, i.e., inhibitory effect on monoamine [noradrenaline (NA) and 5-hydroxytryptamine (5-HT)] uptake, inhibitory effect on 5-HT-, histamine-, acetylcholine- and NA-induced contraction, and binding affinity for alpha 2-adrenoceptor and dopamine D2-receptor. In vitro tests indicated that zwitter-ionization was capable of maintaining H1-antihistaminic activity while greatly reducing other pharmacological activities. Further, 6a-f showed much stronger inhibitory effects on compound 48/80-induced lethality in rats than did the corresponding N,N-dimethylamines (2a-f). 3-[N-[3-(6H-Dibenz[b, e]oxepin-11-ylidene)propyl]-N-methylamino]- propionic acid (6b-2), selected as a candidate antiallergic agent of a new type, equally potent in rats and guinea-pigs, exhibited strong inhibitory effects on 48 h homologous passive cutaneous anaphylaxis (PCA) in rats (ED50 = 0.019 mg/kg, p.o.) and on histamine-induced bronchoconstriction in anesthetized guinea-pigs (ED50 = 0.0067 mg/kg, p.o.).

Published

1993

36. Conventional versus novel conditions for the in vitro dissolution testing of parenteral slow release formulations: application to doxepin parenteral dosage forms.

Author

Gido C, Langguth P, Kreuter J, Winter G, Woog H, and Mutschler E

Subjects

Buffers, Chromatography, High Pressure Liquid, Delayed-Action Preparations, Doxepin administration & dosage, Doxepin blood, Humans, Infusions, Parenteral, Injections, Intramuscular, Membranes, Artificial, Microscopy, Electron, Scanning, Microspheres, Particle Size, Solubility, Doxepin chemistry

Abstract

Parenteral slow release formulations of doxepin in lipid vehicles were prepared in the form of suspensions of doxepin hydrochloride, doxepin pamoate and of poly D,L-lactid and poly D,L-lactid-co-glycolide microspheres containing doxepin hydrochloride. The drug particles or the drug containing microspheres were suspended in the vehicles isopropylmyristate or Miglyol. The dissolution rate of the different doxepin formulations was investigated in two flow through cells, a membrane and a non-membrane system, using either plain buffer or human plasma containing buffer as dissolution media, in order to study the influence of dissolution conditions on dissolution rates. An attempt was made to obtain biorelevant dissolution data. In the membrane system a linear relationship between time and percent drug dissolved during the period of investigation was found. Drug release was very slow and incomplete, especially when buffer was used as dissolution medium. Dissolution data from the nonmembrane system were fitted to monoexponential and biexponential models, respectively. Significant differences were found using different modes of formulation positioning and using the two dissolution media. The most rapid release rates were found when the formulations were spread on glass carriers and plasma was used as dissolution medium. It is suggested that this dissolution procedure has physiological relevance.

Published

1993

37. Identification of phenolic doxepin glucuronides from patient urine and rat bile.

Author

Shu YZ, Hubbard JW, McKay G, and Midha KK

Subjects

Animals, Chromatography, High Pressure Liquid, Doxepin chemistry, Female, Freeze Drying, Glucuronates chemistry, Glucuronates urine, Humans, Mass Spectrometry, Rats, Spectrophotometry, Ultraviolet, Bile chemistry, Doxepin urine

Published

1990