Abstract
In this study, the inhibitory activities against human monoamine oxidases (hMAOs) were evaluated using a library of 195 endogenous lichen fungi from Ukraine. Among them, the extract ELF68 of the endogenous fungus Rosellinia corticium from the lichen Pseudevernia furfuracea (L.) Zopf. exhibited the strongest inhibitory activity against hMAO-A. Using the activity-guided method, (S)-5-methylmellein (5MM) was isolated from the extract and had an IC50 value of 5.31 µM for hMAO-A with a lower potency for hMAO-B (IC50 = 9.15 µM). Compound 5MM also moderately inhibited acetylcholinesterase (IC50 = 27.07 µM) but very weakly inhibited butyrylcholinesterase and β-secretase. Compound 5MM had a Ki value of 2.45 μM and was a reversible competitive inhibitor of hMAO-A. A molecular docking study predicted that (S)-5MM showed higher binding affinity for hMAO-A (−6.8 kcal/mol) than hMAO-B (−6.4 kcal/mol). Its isomer, (R)-5MM, exhibited lower binding affinities for hMAO-A (−6.6 kcal/mol) and hMAO-B (−5.2 kcal/mol), compared to (S)-5MM. The S-form interacted with hMAO-A through hydrogen bonding with the Phe208 residue (distance: 1.972 Å), while the R-form interacted with the Asn181 residue (2.375 Å). The results of an in silico pharmacokinetic analysis indicated that 5MM did not violate Lipinski’s five rules and showed high gastrointestinal absorption and blood–brain barrier permeability. These results suggest that 5MM can be considered a candidate in the treatment of neuropsychiatric disorders, such as depression and cardiovascular disease.
Highlights
Monoamine oxidase (MAO) is a membrane protein, present in the outer mitochondrial membrane, that oxidatively deaminates monoamines [1]
We previously reported that compounds isolated from the endogenous lichen fungus (ELF) Daldinia fissa [25] within the same library selectively inhibit MAO-B
Seven extracts showed less than 60% residual activity against human monoamine oxidases (hMAOs)-A, and five extracts showed less than 30% against hMAO-B at 20 μg/mL
Summary
Monoamine oxidase (MAO) is a membrane protein, present in the outer mitochondrial membrane, that oxidatively deaminates monoamines (i.e., neurotransmitters) [1]. MAO has two isoforms—A and B—each of which exhibits different substrate specificity and sensitivity to inhibitors [2]. MAO-A mainly breaks down serotonin and norepinephrine, and it may cause depression and cardiovascular disease. MAO-B breaks down phenylethylamine and dopamine, and it is responsible for Alzheimer’s disease (AD). Parkinson’s disease (PD) [3]. For this reason, the inhibitors of MAO-A and MAO-B are used as therapeutic agents for these diseases. Cholinesterase (ChE) is a choline-based esterase group divided into acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) [4]. BChE breaks down butyrylcholine (BCh) into butyryl and choline and is mainly found in plasma [6,7]. Patients with AD have low levels of ACh and high levels of
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