AI Article Synopsis
- The endocannabinoid system is involved in various neurological disorders, and this study specifically investigates its interaction with monoamine oxidase (MAO) enzymes, focusing on the effects of four endocannabinoids and two analogs.
- Virodhamine was found to significantly inhibit both MAO-A and MAO-B, with a much stronger effect on MAO-B, indicating its potential for use in treating conditions related to these enzymes.
- Molecular modeling revealed why virodhamine preferentially binds to MAO-B over MAO-A, suggesting that it could have therapeutic benefits for neurological disorders by impacting monoamine metabolism.
Article Abstract
The endocannabinoid system plays an important role in the pathophysiology of various neurological disorders, such as anxiety, depression, neurodegenerative diseases, and schizophrenia; however, little information is available on the coupling of the endocannabinoid system with the monoaminergic systems in the brain. In the present study, we tested four endocannabinoids and two anandamide analogs for inhibition of recombinant human MAO-A and -B (monoamine oxidase). Virodhamine inhibited both MAO-A and -B (IC values of 38.70 and 0.71 μM, respectively) with ∼55-fold greater inhibition of MAO-B. Two other endocannabinoids (noladin ether and anandamide) also showed good inhibition of MAO-B with IC values of 18.18 and 39.98 μM, respectively. Virodhamine was further evaluated for kinetic characteristics and mechanism of inhibition of human MAO-B. Virodhamine inhibited MAO-B (K value of 0.258 ± 0.037 μM) through a mixed mechanism/irreversible binding and showed a time-dependent irreversible mechanism. Treatment of Neuroscreen-1 (NS-1) cells with virodhamine produced significant inhibition of MAO activity. This observation confirms potential uptake of virodhamine by neuronal cells. A molecular modeling study of virodhamine with MAO-B and its cofactor flavin adenine dinucleotide (FAD) predicted virodhamine's terminal -NH group to be positioned near the N5 position of FAD, but for docking to MAO-A, virodhamine's terminal -NH group was far away (∼6.52 Å) from the N5 position of FAD, and encountered bad contacts with nearby water molecules. This difference could explain virodhamine's higher potency and preference for MAO-B. The binding free energies for the computationally-predicted poses also showed that virodhamine was selective for MAO-B. These findings suggest potential therapeutic applications of virodhamine for the treatment of neurological disorders.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6298601 | PMC |
| http://dx.doi.org/10.1016/j.bcp.2018.06.024 | DOI Listing |
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