A Comparison of the Physicochemical and Biological Properties of Mirtazapine and Mianserin

Although the chemical structures of the antidepressants mirtazapine and mianserin are closely related there are considerable differences in their biological properties. To find an explanation of this, various physicochemical properties of mirtazapine and mianserin were measured or calculated. Isoste...

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Bibliographic Details
Published in:Journal of pharmacy and pharmacology 1997-04, Vol.49 (4), p.403-411
Main Authors: KELDER, JAN, FUNKE, CAREL, DE BOER, THUS, DELBRESSINE, LEON, LEYSEN, DIRK, NICKOLSON, VICTOR
Format: Article
Language:English
Subjects:
Animals
Antidepressive Agents, Tricyclic - chemistry
Antidepressive Agents, Tricyclic - pharmacokinetics
Antidepressive Agents, Tricyclic - pharmacology
Biological and medical sciences
Biological Availability
Chromatography, High Pressure Liquid
Computer Simulation
Electrochemistry
Feces - chemistry
General pharmacology
Humans
Hydrogen-Ion Concentration
Kinetics
Magnetic Resonance Spectroscopy
Male
Medical sciences
Mianserin - analogs & derivatives
Mianserin - chemistry
Mianserin - metabolism
Mianserin - pharmacokinetics
Mianserin - pharmacology
Mirtazapine
Models, Chemical
Norepinephrine - metabolism
Oxidation-Reduction
Pharmacology. Drug treatments
Physicochemical properties. Structure-activity relationships
Quantum Theory
Radioligand Assay
Receptors, Adrenergic, alpha-1 - drug effects
Receptors, Adrenergic, alpha-1 - metabolism
Serotonin - metabolism
Structure-Activity Relationship
Vas Deferens - metabolism
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Summary:Although the chemical structures of the antidepressants mirtazapine and mianserin are closely related there are considerable differences in their biological properties. To find an explanation of this, various physicochemical properties of mirtazapine and mianserin were measured or calculated. Isosteric replacement of CH in mianserin by N in mirtazapine has profound effects on physicochemical properties. The charge distributions as indicated by NMR and calculated by semi‐empirical quantum mechanics differ, not only for the changed aromatic A‐ring (as expected), but also in other regions of the molecule. The N5 atom in particular, which is conjugated to the changed aromatic ring, is less negatively charged in mirtazapine than in mianserin. Consequently the oxidation potential of mirtazapine is significantly higher than that of mianserin. Another result of this difference in charge distribution is that the (calculated) dipole‐moment vectors of the compounds are oriented roughly perpendicular to each other. The dipole moment of mirtazapine is, moreover, three times larger than that of mianserin; mirtazapine is, therefore, more polar than mianserin and this is reflected in a lower retention index. Finally, the basicity of mirtazapine, expressed as the pKa value, is slightly but significantly lower than that of mianserin. The observed differences between the physicochemical properties of mirtazapine and mianserin result in different interactions of these two antidepressants with macromolecules, such as receptors, transporters and metabolizing enzymes; this might explain the differences observed in pharmacological activity and metabolic and kinetic behaviour, that is, the reduced affinity for the α1‐adrenoceptor and negligible noradrenaline reuptake of mirtazapine compared with mianserin.
ISSN:0022-3573
2042-7158
DOI:10.1111/j.2042-7158.1997.tb06814.x