Synthesis and evaluation of 3-hydroxyquinolin-2(1H)-one derivatives as inhibitors of tyrosinase.

The tyrosinase (TYR) enzyme catalyses sequential reactions in the melanogenesis pathway: l-tyrosine is oxidised to yield L-3,4-dihydroxyphenylalanine (l-dopa), which in turn is converted to dopaquinone. These two reactions are the first two steps of melanin biosynthesis and are rate limiting. The accumulation or overproduction of melanin may cause skin hyperpigmentation and inhibitors of TYR are thus of interest to the cosmeceutical industry. Several TYR inhibitors are used to treat skin hyperpigmentation, however, some are ineffective and possess questionable safety profiles. This emphasises the need to develop novel TYR inhibitors with better safety and efficacy profiles. The small molecule, 3-hydroxycoumarin, has been reported to be a good potency TYR inhibitor (IC50 = 2.49 µM), and based on this, a series of eight structurally related 3-hydroxyquinolin-2(1H)-one derivatives were synthesised with the aim to discover novel TYR inhibitors. The results showed that four of the derivatives inhibited TYR from the champignon mushroom Agaricus bisporus (abTYR) with IC50 < 6.11 µM. The most potent inhibitor displayed an IC50 value of 2.52 µM. Under the same conditions, the reference inhibitors, thiamidol and kojic acid, inhibited abTYR with IC50 values of 0.130 and 26.4 µM, respectively. Based on the small molecular structures of the active 3-hydroxyquinolin-2(1H)-one inhibitors which are amenable to structure optimisation, it may be concluded that this class of compounds are good leads for the design of TYR inhibitors for cosmeceutical applications.

Overview of popular cosmeceuticals in dermatology.

The eternal pursuit to prevent ageing and maintain a youthful appearance has resulted in a rapidly expanding cosmeceutical industry. Cosmeceutical products, particularly of natural origin, are in high demand due to claims of efficacy for signs of ageing and other skin conditions. Consumers often include cosmeceutical products in their skin care regime as they are readily available, and a more affordable option compared to prescription products. However, many cosmeceutical ingredients lack clinical evidence regarding their efficacy and safety as these products are not regulated by the U.S. Food and Drug Administration. This review provides a brief overview of several popular cosmeceutical ingredients with regards to their potential indications, targets and mechanisms of action.

A Multitarget Approach against Neuroinflammation: Alkyl Substituted Coumarins as Inhibitors of Enzymes Involved in Neurodegeneration.

Neurodegenerative disorders (NDs) include a large range of diseases characterized by neural dysfunction with a multifactorial etiology. The most common NDs are Alzheimer's disease and Parkinson's disease, in which cholinergic and dopaminergic systems are impaired, respectively. Despite different brain regions being affected, oxidative stress and inflammation were found to be common triggers in the pathogenesis and progression of both diseases. By taking advantage of a multi-target approach, in this work we explored alkyl substituted coumarins as neuroprotective agents, capable to reduce oxidative stress and inflammation by inhibiting enzymes involved in neurodegeneration, among which are Carbonic Anhydrases (CAs), Monoamine Oxidases (MAOs), and Cholinesterases (ChEs). The compounds were synthesized and profiled against the three targeted enzymes. The binding mode of the most promising compounds (7 and 9) within MAO-A and -B was analyzed through molecular modeling studies, providing and explanation for the different selectivities observed for the MAO isoforms. In vitro biological studies using LPS-stimulated rat astrocytes showed that some compounds were able to counteract the oxidative stress-induced neuroinflammation and hamper interleukin-6 secretion, confirming the success of this multitarget approach.

The evaluation of isatin analogues as inhibitors of monoamine oxidase.

The small molecule, isatin, is a well-known reversible inhibitor of the monoamine oxidase (MAO) enzymes with IC50 values of 12.3 and 4.86 µM for MAO-A and MAO-B, respectively. While the interaction of isatin with MAO-B has been characterized, only a few studies have explored structure-activity relationships (SARs) of MAO inhibition by isatin analogues. The current study therefore evaluated a series of 14 isatin analogues as in vitro inhibitors of human MAO-A and MAO-B. The results indicated good potency MAO inhibition for some isatin analogues with five compounds exhibiting IC50 < 1 µM. 4-Chloroisatin (1b) and 5-bromoisatin (1f) were the most potent inhibitors with IC50 values of 0.812 and 0.125 µM for MAO-A and MAO-B, respectively. These compounds were also found to be competitive inhibitors of MAO-A and MAO-B with Ki values of 0.311 and 0.033 µM, respectively. Among the SARs, it was interesting to note that C5-substitution was particularly beneficial for MAO-B inhibition. MAO inhibitors are established drugs for the treatment of neuropsychiatric and neurodegenerative disorders, while potential new roles in prostate cancer and cardiovascular disease are being investigated.

Monoamine oxidase inhibition properties of 2,1-benzisoxazole derivatives.

Monoamine oxidase (MAO) are flavoenzymes that metabolize neurotransmitter, dietary and xenobiotic amines to their corresponding aldehydes with the production of hydrogen peroxide. Two isoforms, MAO-A and MAO-B, are expressed in humans and mammals, and display different substrate and inhibitor specificities as well as different physiological roles. MAO inhibitors are of much therapeutic value and are used for the treatment of neuropsychiatric and neurodegenerative disorders such as depression, anxiety disorders, and Parkinson's disease. To discover MAO inhibitors with good potencies and interesting isoform specificities, the present study synthesized a series of 2,1-benzisoxazole (anthranil) derivatives and evaluated them as in vitro inhibitors of human MAO. The compounds were in most instances specific inhibitors of MAO-B with the most potent MAO-B inhibition observed for 7a (IC50 = 0.017 µM) and 7b (IC50 = 0.098 µM). The most potent MAO-A inhibition was observed for 3l (IC50 = 5.35 µM) and 5 (IC50 = 3.29 µM). It is interesting to note that 3-(2-aminoethoxy)-1,2-benzisoxazole derivatives, the 1,2-benzisoxazole, zonisamide, as well as the isoxazole compound, leflunomide, have been described as MAO inhibitors. This is however the first report of MAO inhibition by derivatives of the 2,1-benzisoxazole structural isomer.

Resveratrol Analogues as Dual Inhibitors of Monoamine Oxidase B and Carbonic Anhydrase VII: A New Multi-Target Combination for Neurodegenerative Diseases?

Neurodegenerative diseases (NDs) are described as multifactorial and progressive syndromes with compromised cognitive and behavioral functions. The multi-target-directed ligand (MTDL) strategy is a promising paradigm in drug discovery, potentially leading to new opportunities to manage such complex diseases. Here, we studied the dual ability of a set of resveratrol (RSV) analogs to inhibit two important targets involved in neurodegeneration. The stilbenols 1−9 were tested as inhibitors of the human monoamine oxidases (MAOs) and carbonic anhydrases (CAs). The studied compounds displayed moderate to excellent in vitro enzyme inhibitory activity against both enzymes at micromolar/nanomolar concentrations. Among them, the best compound 4 displayed potent and selective inhibition against the MAO-B isoform (IC50 MAO-A 0.43 µM vs. IC50 MAO-B 0.01 µM) with respect to the parent compound resveratrol (IC50 MAO-A 13.5 µM vs. IC50 MAO-B > 100 µM). It also demonstrated a selective inhibition activity against hCA VII (KI 0.7 µM vs. KI 4.3 µM for RSV). To evaluate the plausible binding mode of 1−9 within the two enzymes, molecular docking and dynamics studies were performed, revealing specific and significant interactions in the active sites of both targets. The new compounds are of pharmacological interest in view of their considerably reduced toxicity previously observed, their physicochemical and pharmacokinetic profiles, and their dual inhibitory ability. Compound 4 is noteworthy as a promising lead in the development of MAO and CA inhibitors with therapeutic potential in neuroprotection.

Coumarin-Based Dual Inhibitors of Human Carbonic Anhydrases and Monoamine Oxidases Featuring Amino Acyl and (Pseudo)-Dipeptidyl Appendages: In Vitro and Computational Studies.

The involvement of human carbonic anhydrase (hCA) IX/XII in the pathogenesis and progression of many types of cancer is well acknowledged, and more recently human monoamine oxidases (hMAOs) A and B have been found important contributors to tumor development and aggressiveness. With a view of an enzymatic dual-blockade approach, in this investigation, new coumarin-based amino acyl and (pseudo)-dipeptidyl derivatives were synthesized and firstly evaluated in vitro for inhibitory activity and selectivity against membrane-bound and cytosolic hCAs (hCA IX/XII over hCA I/II), as well as the hMAOs, to estimate their potential as anticancer agents. De novo design of peptide-coumarin conjugates was subsequently carried out and involved the combination of the widely explored coumarin nucleus with the unique biophysical and structural properties of native or modified peptides. All compounds displayed nanomolar inhibitory activities towards membrane-anchored hCAs, whilst they were unable to block the ubiquitous CA I and II isoforms. Structural features pertinent to potent and selective CA inhibitory activity are discussed, and modeling studies were found to support the biological data. Lower potency inhibition of the hMAOs was observed, with most compounds showing preferential inhibition of hMAO-A. The binding of the most potent ligands (6 and 16) to the hydrophobic active site of hMAO-A was investigated in an attempt to explain selectivity on the molecular level. Calculated Ligand Efficiency values indicate that compound 6 has the potential to serve as a lead compound for developing innovative anticancer agents based on the dual inhibition strategy. This information may help design new coumarin-based peptide molecules with diverse bioactivities.

New ß-arylchalcogeno amines with procognitive properties targeting Carbonic Anhydrases and Monoamine Oxidases.

Cognitive deficits are enduring and disabling symptoms for many patients with severe mental illness, and these impairments are inadequately addressed by current medications. In this study, we reported the synthesis of ß-arylchalcogeno amines bearing sulfurated, selenated, and tellurated moieties (2-4) which are structurally related to amphetamine with good activation properties for Carbonic Anhydrases (CAs) isoforms present in the cortical and hippocampal brain structures (hCA IV and hCA XIV). In addition, these compounds showed selective inhibition against the Monoamine oxidase (MAO) A isoform. In vivo evaluation of two derivatives (2a and 3a) revealed procognitive effects in the object recognition and social discrimination tests. Interestingly, these compounds, despite having a similar structure to amphetamine, did not caused hypophagia or hyperlocomotion, two effects often observed following the administration of amphetamine-like drugs. In this context, ß-arylchalcogeno amines may have utility for improving the symptoms of cognitive decline associated with neurodegenerative and psychiatric diseases such as attention deficit disorder, Parkinson's disease-related cognitive dysfunction and cognitive disorders associated with depression.

The inhibition of monoamine oxidase by 2H-1,4-benzothiazin-3(4H)-ones.

Monoamine oxidase (MAO) plays an important role in psychiatric and neurological disorders, such as depression and Parkinson's disease. As a result, MAO represents a key target for developing drugs to treat these conditions. The present study aimed to synthesise and discover compounds that inhibit the MAO enzymes and which may be relevant to the treatment of neurological disorders. A series of nine 2H-1,4-benzothiazin-3(4H)-ones were synthesised and evaluated as potential in vitro inhibitors of human MAO-A and MAO-B. The benzothiazinones bear structural similarity to a series of 3,4-dihydro-2(1H)-quinolinones that have been shown to be highly potent MAO-B inhibitors. The results show that the benzothiazinones inhibit both MAO isoforms but are more potent MAO-B inhibitors. The most potent inhibitors exhibit IC50 values of 0.0027 (1b), 0.0082 (1c), 0.0096 (1d), and 0.0041 µM (1h) for MAO-B, and 0.714 µM (1d) for MAO-A. These benzothiazinone derivatives exhibit promising MAO inhibition activities and may be developed into clinically useful agents for the treatment of Parkinson's disease. Interestingly, related 4H-3,1-benzothiazin-4-ones have previously been investigated as dual-target-directed drugs that inhibit MAO-B and antagonize adenosine A2A receptors for the treatment of Parkinson's disease. Based on an interest in d-amino acid oxidase (DAAO) as a target for the treatment for schizophrenia, the 2H-1,4-benzothiazin-3(4H)-ones were also evaluated as in vitro inhibitors of this enzyme. Among the study compounds, only 7-hydroxy-2H-1,4-benzothiazin-3(4H)-one (IC50 = 4.20 µM) was an active DAAO inhibitor. Finally, molecular docking was employed to gain insight into the binding modes and interactions of the 2H-1,4-benzothiazin-3(4H)-ones with MAO.

Isatoic anhydrides as novel inhibitors of monoamine oxidase.

The monoamine oxidase (MAO) enzymes metabolise neurotransmitter amines in the central and peripheral tissues, and thereby contribute to the regulation of neurotransmission. Inhibitors of MAO modulate the levels of neurotransmitters in the central nervous system, and have been used for several decades for the treatment of depression and Parkinson's disease, while potential new therapeutic applications in other diseases such as prostate cancer and heart failure may exist. In the interest of discovering new classes of chemical compounds that potently inhibit the MAOs, the present study synthesises a series of ten isatoic anhydrides and evaluates their potential as in vitro inhibitors of human MAO-A and MAO-B. The isatoic anhydrides bear structural similarity to a series of 3,4-dihydro-2(1H)-quinolinones as well as to series of isatins and phthalimides that have been reported to act as potent MAO-B inhibitors. The results document that the isatoic anhydrides inhibit both MAO isoforms with the most potent inhibitors exhibiting IC50 values of 0.010 µM (1b and 1h) and 0.0047 µM (1j) for MAO-A and MAO-B, respectively. Molecular docking suggests that isatoic anhydrides exhibit similar binding modes and interactions with MAO-A and MAO-B, which may explain their potent inhibition of both isoforms. It may be concluded that the isatoic anhydrides represent a new class of MAO inhibitors, while it is interesting to note that very few studies on the pharmacological actions of isatoic anhydrides have been reported. As a secondary aim, the isatoic anhydrides were also evaluated as potential inhibitors of d-amino acid oxidase (DAAO), acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE).

The evaluation of N-propargylamine-2-aminotetralin as an inhibitor of monoamine oxidase.

Monoamine oxidase B (MAO-B) inhibitors are established therapy for Parkinson's disease and act, in part, by blocking the MAO-catalysed metabolism of dopamine in the brain. Two propargylamine-containing MAO-B inhibitors, selegiline [(R)-deprenyl] and rasagiline, are currently used in the clinic for this purpose. These compounds are mechanism-based inactivators and, after oxidative activation, form covalent adducts with the FAD co-factor. An important consideration is that selegiline and rasagiline display specificity for MAO-B over the MAO-A isoform thus reducing the risk of tyramine-induced changes in blood-pressure. In the interest of discovering new propargylamine MAO inhibitors, the present study synthesises racemic N-propargylamine-2-aminotetralin (2-PAT), a compound that may be considered as both a six-membered ring analogue of rasagiline and a semi-rigid N-desmethyl ring-closed analogue of selegiline. The in vitro human MAO inhibition properties of this compound were measured and the results showed that 2-PAT is a 20-fold more potent inhibitor of MAO-A (IC50 = 0.721 µM) compared to MAO-B (IC50 = 14.6 µM). Interestingly, dialysis studies found that 2-PAT is a reversible MAO-A inhibitor, while acting as an inactivator of MAO-B. Since reversible MAO-A inhibitors are much less liable to potentiate tyramine-induced side effects than MAO-A inactivators, it is reasonable to suggest that 2-PAT could be a useful and safe therapeutic agent for disorders such as Parkinson's disease and depression.

Coumarin derivatives as inhibitors of d-amino acid oxidase and monoamine oxidase.

d-Amino acid oxidase (DAAO) oxidises d-amino acids to ultimately produce the corresponding α-keto acids. The DAAO substrate, d-serine, is a co-agonist at NMDA receptors, while NMDA receptor hypo-function has been implicated in the pathophysiology of schizophrenia. Through the modulation of d-serine levels, the inhibition of DAAO represents a strategy to increase NMDA receptor function, and thus a potential treatment for schizophrenia. Literature reports that 3-hydroxycoumarin is a potent inhibitor of DAAO and represents an ideal lead for the development of novel DAAO inhibitors. Based on this, the present study investigated DAAO inhibition by a series of synthetic and commercially available coumarin derivatives. Due to structural similarity to coumarin, a synthetic series of 3,4-dihydroisoquinolin-1(2H)-one derivatives has also been included in this study. The results show that among 37 compound evaluated, four inhibit porcine kidney DAAO with IC50 < 10 µM. The most potent inhibitors are 3,7-dihydroxycoumarin and 6,7-dihydroxycoumarin with an IC50 values of 0.167 and 0.224 µM, respectively. These values are an improvement on that of the reference DAAO inhibitor, 3-methylpyrazole-5-carboxylic acid (IC50 = 1.88 µM). Coumarin compounds are also known to inhibit the monoamine oxidase (MAO) enzymes, which are well established targets for the treatment of depression and Parkinson's disease. As DAAO and MAO are flavoenzymes, off-target inhibition may occur. The series were thus evaluated as potential MAO inhibitors, and a number of high potency inhibitors were identified. Seven compounds inhibit the recombinant human MAOs with IC50 < 0.1 µM, with the most potent MAO-A and MAO-B inhibitors exhibiting IC50 values of 0.033 and 0.012 µM, respectively. This is significantly more potent than the reference inhibitors, curcumin, isatin and toloxatone. This study concludes that active DAAO and MAO inhibitors may serve as novel leads for the design of compounds that may find future application in the treatment of neuropsychiatric (e.g. schizophrenia, depression) and neurodegenerative disorders (e.g. Parkinson's disease).

An assessment of solvent residue contaminants related to cannabis-based products in the South African market.

Organic solvents are used for manufacturing herbal medicines and can be detected as residues of such processing in the final products. It is important for the safety of consumers to control these solvent residues. South African cannabis-based product samples were analysed for solvent residue contaminants as classified by the United States Pharmacopeia (USP), chapter 467. The origin of these samples ranged anywhere from crude extract, product development samples, and market ready final products. Samples were submitted to a contract laboratory over a period of 2 years from 2019 to 2021. To date, no data of this kind exist in South Africa specifically relating to cannabis-based medicinal, recreational, or complementary products. A total of 279 samples were analysed in duplicate by full evaporation headspace gas-chromatography mass-spectrometry and the results are reported in an anonymised format. The results showed an alarming 37% sample solvent residue failure rate with respect to adherence to USP 467 specification. It is important to ensure regulation is enforced to control product quality. The South African public need to be educated about the risks associated with cannabis-based products.

Phenothiazine, anthraquinone and related tricyclic derivatives as inhibitors of monoamine oxidase.

Inhibitors of the monoamine oxidase (MAO) enzymes are important agents for the treatment of central nervous system disorders and have established roles in the therapy of neuropsychiatric diseases such as depression and in the neurodegenerative disorder, Parkinson's disease. A number of good potency MAO inhibitors consist of tricyclic ring systems as exemplified by the structures of harmine and the phenothiazine compound methylene blue. In an attempt to discover novel MAO inhibitors, 30 phenothiazine, anthraquinone and related tricyclic derivatives were selected and evaluated as potential inhibitors of human MAO-A and MAO-B. The results show that, in general, the tricyclic compounds are specific inhibitors of MAO-A over the MAO-B isoform. Quinizarin (IC50 = 0.065 µM), 2-chloro-7-methoxy-10H-phenothiazine (IC50 = 0.576 µM) and xanthone (IC50 = 0.623 µM) proved to be the most potent MAO-A inhibitors, while the most potent MAO-B inhibition was recorded with 2-chloro-7-methoxy-10H-phenothiazine (IC50 = 1.34 µM), 1,2-diaminoanthraquinone (IC50 = 2.41 µM) and emodin (IC50 = 3.24 µM). These compounds may undergo further preclinical evaluation and development, and may also serve as potential lead compounds for the future design of MAO inhibitors.

The inhibition of catechol O-methyltransferase and monoamine oxidase by tetralone and indanone derivatives substituted with the nitrocatechol moiety.

The enzymes, catechol O-methyltransferase (COMT) and monoamine oxidase (MAO) are important drug targets, and inhibitors of these enzymes are established therapy for symptomatic Parkinson's disease (PD). COMT inhibitors enhance the bioavailability of levodopa to the brain, and therefore are combined with levodopa for the treatment of motor fluctuations in PD. Inhibitors of the MAO-B isoform, in turn, are used as monotherapy or in conjunction with levodopa in PD, and function by reducing the central degradation of dopamine. It has been reported that 1-tetralone and 1-indanone derivatives are potent and specific inhibitors of MAO-B, while compounds containing the nitrocatechol moiety (e.g. tolcapone and entacapone) are often potent COMT inhibitors. The present study attempted to discover compounds that exhibit dual COMT and MAO-B inhibition by synthesizing series of 1-tetralone, 1-indanone and related derivatives substituted with the nitrocatechol moiety. These compounds are structurally related to series of nitrocatechol derivatives of chalcone that have recently been investigated as potential dual COMT/MAO inhibitors. The results show that 4-chromanone derivative (7) is the most promising dual inhibitor with IC50 values of 0.57 and 7.26 µM for COMT and MAO-B, respectively, followed by 1-tetralone derivative (4d) with IC50 values of 0.42 and 7.83 µM for COMT and MAO-B, respectively. Based on their potent inhibition of COMT, it may be concluded that nitrocatechol compounds investigated in this study are appropriate for peripheral COMT inhibition, which represents an important strategy in the treatment of PD.

An assessment of the potency related to Cannabis-based products in the South African market.

It was the aim of this study to analyse a portion of the South African cannabis-based products market and provide a detailed overview of their THC and CBD profiles. To date, no data of this kind exists in South Africa. Samples were submitted to a contract laboratory. A total of 840 samples were analysed in duplicate (1680 datapoints in total) and reported in an anonymous format. Samples were categorised into 7 different types: Edible, Extract, Infusion, Liquid, Other, Plant material, and Solid. Each category was divided into the following weight by percentage concentration levels:<0.1 wt.-%, 0.1 wt.-% to 1 wt.-% and finally>1 wt.-%. Both HPLC-UV, as well as, GC-MS was employed for analysis with the datasets combined. The results indicated that high amounts of THC are present in most of the cannabis-based products in South Africa. This is of concern due to the health implications of these products, and the current South African legislation related to CBD and THC. Medicines and controlled substance regulators as well as the South African public will be informed about the current state of cannabis-based products in South Africa.

Design, synthesis and evaluation of 3-hydroxypyridin-4-ones as inhibitors of catechol-O-methyltransferase.

The most effective treatment of Parkinson's disease is restoring central dopamine levels with levodopa, the metabolic precursor of dopamine. However, due to extensive peripheral metabolism by aromatic L-amino acid decarboxylase and catechol-O-methyltransferase (COMT), only a fraction of the levodopa dose reaches the brain unchanged. Thus, by preventing levodopa metabolism and increasing the availability of levodopa for uptake into the brain, the inhibition of COMT would be beneficial in Parkinson's disease. Although nitrocatechol COMT inhibitors have been used in the treatment of Parkinson's disease, efforts have been made to discover non-nitrocatechol inhibitors. In the present study, the 3-hydroxypyridin-4-one scaffold was selected for the design and synthesis of non-nitrocatechol COMT inhibitors since the COMT inhibitory potential of this class has been illustrated. Using COMT obtained from porcine liver, it was shown that a synthetic series of ten 3-hydroxypyridin-4-ones are in vitro inhibitors with IC50 values ranging from 4.55 to 19.8 µM. Although these compounds are not highly potent inhibitors, they may act as leads for the development of non-nitrocatechol COMT inhibitors. Such compounds would be appropriate for the treatment of Parkinson's disease. 3-Hydroxypyridin-4-ones have been synthesised and evaluated as non-nitrocatechol COMT inhibitors. In vitro, the IC50 values ranged from 4.55 to 19.8 µM.

The evaluation of 1-tetralone and 4-chromanone derivatives as inhibitors of monoamine oxidase.

Monoamine oxidase (MAO) is of much clinical relevance, and inhibitors of this enzyme are used in the treatment for neuropsychiatric and neurodegenerative disorders such as depression and Parkinson's disease. The present study synthesises and evaluates the MAO inhibition properties of a series of 33 1-tetralone and 4-chromanone derivatives in an attempt to discover high-potency compounds and to expand on the structure-activity relationships of MAO inhibition by these classes. Among these series, eight submicromolar MAO-A inhibitors and 28 submicromolar MAO-B inhibitors are reported, with all compounds acting as specific inhibitors of the MAO-B isoform. The most potent inhibitor was a 1-tetralone derivative (1h) with IC50 values of 0.036 and 0.0011 µM for MAO-A and MAO-B, respectively. Interestingly, with the reduction of 1-tetralones to the corresponding alcohols, a decrease in MAO inhibition potency is observed. Among these 1-tetralol derivatives, 1p (IC50 = 0.785 µM) and 1o (IC50 = 0.0075 µM) were identified as particularly potent inhibitors of MAO-A and MAO-B, respectively. Potent compounds such as those reported here may act as leads for the future development of MAO-B specific inhibitors. The present study describes the MAO inhibitory activities of a series of 1-tetralone and 4-chromanone derivatives. Numerous high-potency MAO-B specific inhibitors were identified.