Benzisothiazolinone Derivatives as Potent Allosteric Monoacylglycerol Lipase Inhibitors That Functionally Mimic Sulfenylation of Regulatory Cysteines

Castelli, Riccardo; Scalvini, Laura; Vacondio, Federica; Lodola, Alessio; Anselmi, Mattia; Vezzosi, Stefano; Carmi, Caterina; Bassi, Michele; Ferlenghi, Francesca; Rivara, Silvia; Möller, Ingvar R.; Rand, Kasper D.; Daglian, Jennifer; Don, Wei; Dotsey, Emmanuel Y.; Ahmed, Faizy; Jung, Kwang-Mook; Stella, Nephi; Singh, Simar; Mor, Marco; Piomelli, Daniele

doi:10.1021/acs.jmedchem.9b01679

Cited by 9 publications

(9 citation statements)

References 87 publications

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“…As illustrated in Figure , compound 1 exhibited the highest CaFBA inhibition (IC 50 = 17.7 μM) compared with other compounds, suggesting that compound 1 could easily conjugate to a thiol group of CaFBA . Therefore, we considered 1 as a suitable probe for the discovery of novel potent covalent inhibitors of CaFBA.…”

Section: Resultsmentioning

confidence: 99%

“…As illustrated in Figure 1, compound 1 exhibited the highest CaFBA inhibition (IC 50 = 17.7 μM) compared with other compounds, suggesting that compound 1 could easily conjugate to a thiol group of CaFBA. 55 Therefore, we considered 1 as a suitable probe for the discovery of novel potent covalent inhibitors of CaFBA. To further identify the functional cysteine site that regulates the catalytic activity of CaFBA, all three cysteines in CaFBA were mutated to serine (C157S, C111S, and C292S), and kinetic parameter determination and an inhibitory assay against wild-type (WT) and mutant CaFBA were performed (Table 1) using compound 1 as a probe.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

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Structure-Guided Discovery of the Novel Covalent Allosteric Site and Covalent Inhibitors of Fructose-1,6-Bisphosphate Aldolase to Overcome the Azole Resistance of Candidiasis

et al. 2022

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Fructose-1,6-bisphosphate aldolase (FBA) represents an attractive new antifungal target. Here, we employed a structure-based optimization strategy to discover a novel covalent binding site (C292 site) and the first-in-class covalent allosteric inhibitors of FBA from Candida albicans (CaFBA). Site-directed mutagenesis, liquid chromatography–mass spectrometry, and the crystallographic structures of APO–CaFBA, CaFBA–G3P, and C157S–2a4 revealed that S268 is an essential pharmacophore for the catalytic activity of CaFBA, and L288 is an allosteric regulation switch for CaFBA. Furthermore, most of the CaFBA covalent inhibitors exhibited good inhibitory activity against azole-resistant C. albicans, and compound 2a11 can inhibit the growth of azole-resistant strains 103 with the MIC80 of 1 μg/mL. Collectively, this work identifies a new covalent allosteric site of CaFBA and discovers the first generation of covalent inhibitors for fungal FBA with potent inhibitory activity against resistant fungi, establishing a structural foundation and providing a promising strategy for the design of potent antifungal drugs.

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Section: Resultsmentioning

confidence: 99%

Section: ■ Results and Discussionmentioning

confidence: 99%

Structure-Guided Discovery of the Novel Covalent Allosteric Site and Covalent Inhibitors of Fructose-1,6-Bisphosphate Aldolase to Overcome the Azole Resistance of Candidiasis

et al. 2022

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“…These findings have promoted MGL as a promising drug target, with carbamate-based inhibitors being currently evaluated in clinical phase . From a biochemical standpoint, MGL has been largely investigated over the years, often with a focus on allosteric regulation and oxidative stress. , Only recently, systematic investigations on the role of active site residues of MGL during the catalytic cleavage of 1 have appeared in the literature . Despite these recent advances, an atomistic understanding of the catalytic mechanism employed by MGL is still lacking.…”

Section: Discussionmentioning

confidence: 99%

“…In recent years, the search for potent inhibitors of MGL has led to the identification of different classes of compounds, 10 , 11 ranging from allosteric cysteine-targeting modulators 12 to orthosteric inhibitors, comprising both covalent agents (i.e., carbamates 13 and tertiary ureas 14 ) and noncovalent inhibitors. 15 Covalent inhibitors of MGL include JZL184 (compound 2 , Figure 1 ) 16 reported as the first agent able to carbamoylate Ser122, and the first-in-class inhibitor Lu AG06466/ABX-1431 (compound 3 , Figure 1 ), 17 which recently completed a phase 2 clinical trial for the treatment of Tourette’s syndrome 18 and is currently being evaluated for multiple sclerosis.…”

Section: Introductionmentioning

confidence: 99%

Mechanistic Modeling of Monoglyceride Lipase Covalent Modification Elucidates the Role of Leaving Group Expulsion and Discriminates Inhibitors with High and Low Potency

Galvani

Scalvini

Rivara

et al. 2022

J. Chem. Inf. Model.

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Inhibition of monoglyceride lipase (MGL), also known as monoacylglycerol lipase (MAGL), has emerged as a promising approach for treating neurological diseases. To gain useful insights in the design of agents with balanced potency and reactivity, we investigated the mechanism of MGL carbamoylation by the reference triazole urea SAR629 (IC 50 = 0.2 nM) and two recently described inhibitors featuring a pyrazole (IC 50 = 1800 nM) or a 4-cyanopyrazole (IC 50 = 8 nM) leaving group (LG), using a hybrid quantum mechanics/molecular mechanics (QM/MM) approach. Opposite to what was found for substrate 2-arachidonoyl- sn -glycerol (2-AG), covalent modification of MGL by azole ureas is controlled by LG expulsion. Simulations indicated that changes in the electronic structure of the LG greatly affect reaction energetics with triazole and 4-cyanopyrazole inhibitors following a more accessible carbamoylation path compared to the unsubstituted pyrazole derivative. The computational protocol provided reaction barriers able to discriminate between MGL inhibitors with different potencies. These results highlight how QM/MM simulations can contribute to elucidating structure–activity relationships and provide insights for the design of covalent inhibitors.

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“…A benzoylpiperidine derivative (compound 23, IC 50 = 80 n m ) is reported as potent and selective reversible MAGL inhibitor (Granchi et al., 2019). A benzisothiazolinone (BTZ) derivative (compound 13; Figure 1) has been revealed recently as MAGL inhibitor (IC 50 = 34.1 n m ), targeting allosteric regulatory cysteine residues (Cys201 and Cys208; Castelli et al., 2020). Our group have identified two novel human MAGL inhibitors, ZINC24092691 (IC 50 = 10 n m ) and ZINC12863377 (IC 50 = 39 n m ), by docking‐based virtual screening of ZINC database.…”

Section: Introductionmentioning

confidence: 99%

Pyrrolidin‐2‐one linked benzofused heterocycles as novel small molecule monoacylglycerol lipase inhibitors and antinociceptive agents

et al. 2020

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INTRODUCTION 2-Arachidonoylglycerol (2-AG) and N-arachidonoylethanolamine (AEA; Anandamide) are bioactive lipids (major endocannabinoids), released upon cell membrane activation. Their functions are mediated by the stimulation of two G protein-coupled receptors, CB 1 and CB 2 (cannabinoid receptors). Moreover, 2-AG and AEA have also been identified to act on several other receptors like transient receptor potential vanilloid (TRPV1) and peroxisome proliferator-activated receptors (

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Benzisothiazolinone Derivatives as Potent Allosteric Monoacylglycerol Lipase Inhibitors That Functionally Mimic Sulfenylation of Regulatory Cysteines

Cited by 9 publications

References 87 publications

Structure-Guided Discovery of the Novel Covalent Allosteric Site and Covalent Inhibitors of Fructose-1,6-Bisphosphate Aldolase to Overcome the Azole Resistance of Candidiasis

Structure-Guided Discovery of the Novel Covalent Allosteric Site and Covalent Inhibitors of Fructose-1,6-Bisphosphate Aldolase to Overcome the Azole Resistance of Candidiasis

Mechanistic Modeling of Monoglyceride Lipase Covalent Modification Elucidates the Role of Leaving Group Expulsion and Discriminates Inhibitors with High and Low Potency

Pyrrolidin‐2‐one linked benzofused heterocycles as novel small molecule monoacylglycerol lipase inhibitors and antinociceptive agents

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