Structure Kinetics Relationships and Molecular Dynamics Show Crucial Role for Heterocycle Leaving Group in Irreversible Diacylglycerol Lipase Inhibitors

Janssen, A. M.; Hengst, Jacob M. A. van; Béquignon, Olivier J. M.; Deng, Hui; Stelt, Mario van der

doi:10.1021/acs.jmedchem.9b00686

Cited by 11 publications

(17 citation statements)

References 48 publications

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“…A slightly higher substrate concentration ([S] ≥ 0.1K M ) resulted in underestimation of k inact and overestimation of K I , but a good estimation of overall second-order inactivation rate constant k inact /K I . Importantly, a calibration/titration (Dharadhar et al, 2019;Janssen et al, 2019) should be performed prior to data analysis to determine product coefficient r P (in AU/M) that transforms the detected signal F t (in AU) into product concentration [P] t (in M).…”

Section: Warnings and Remarksmentioning

confidence: 99%

“…Therefore, substrate is added in a large excess over the enzyme ([S] 0 > 10[E] 0 ), and the uninhibited velocity of product formation (v ctrl ) is calculated over the linear part corresponding to less than 10% substrate conversion ([P] t < 0.1[S] 0 ) (Wu, Yuan, & Hodge, 2003). The signal corresponding to 10% substrate conversion can be estimated from a product calibration/titration curve (Dharadhar et al., 2019; Janssen et al., 2019) to avoid substrate depletion. The effect of substrate depletion can be investigated with the kinetic simulation script KinSubDpl .…”

Section: Strategic Planningmentioning

confidence: 99%

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A Comprehensive Guide for Assessing Covalent Inhibition in Enzymatic Assays Illustrated with Kinetic Simulations

Mons

Roet

et al. 2022

Current Protocols

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Covalent inhibition has become more accepted in the past two decades, as illustrated by the clinical approval of several irreversible inhibitors designed to covalently modify their target. Elucidation of the structure-activity relationship and potency of such inhibitors requires a detailed kinetic evaluation. Here, we elucidate the relationship between the experimental read-out and the underlying inhibitor binding kinetics. Interactive kinetic simulation scripts are employed to highlight the effects of in vitro enzyme activity assay conditions and inhibitor binding mode, thereby showcasing which assumptions and corrections are crucial. Four stepwise protocols to assess the biochemical potency of (ir)reversible covalent enzyme inhibitors targeting a nucleophilic active site residue are included, with accompanying data analysis tailored to the covalent binding mode. Together, this will serve as a guide to make an educated decision regarding the most suitable method to assess covalent inhibition potency.

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Section: Warnings and Remarksmentioning

confidence: 99%

Section: Strategic Planningmentioning

confidence: 99%

A Comprehensive Guide for Assessing Covalent Inhibition in Enzymatic Assays Illustrated with Kinetic Simulations

Mons

Roet

et al. 2022

Current Protocols

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show abstract

“…RSC Chemical Biology resulting compounds. 108 Combined with the synthetic accessibility of 1,2,3-and 1,2,4-triazoles 109,110 using diverse methodologies, [111][112][113][114][115][116] the triazole moiety offers multiple opportunities for tuning reactivity of electrophilic compounds including the type and position of functional group modifications and selection of regioisomers.…”

Section: Reviewmentioning

confidence: 99%

“… 20 Both 1,2,3- and 1,2,4-triazoles 105 – 107 can serve as an effective LG for SH inhibitor development, and recent evidence supports that regioisomers can affect the activity of resulting compounds. 108 Combined with the synthetic accessibility of 1,2,3- and 1,2,4-triazoles 109 , 110 using diverse methodologies, 111 – 116 the triazole moiety offers multiple opportunities for tuning reactivity of electrophilic compounds including the type and position of functional group modifications and selection of regioisomers.…”

Section: Development Of Sutex Chemistrymentioning

confidence: 99%

Development and biological applications of sulfur–triazole exchange (SuTEx) chemistry

et al. 2021

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“… 14 An interesting property of azole ureas is that their reactivity versus nucleophiles depends on the chemical nature of the azole ring, with tetrazoles being highly reactive, 22 followed by triazoles, imidazoles, and pyrazoles. 23 This trend, to some extent, can be explained by the ability of the azole ring to serve as the LG in carbamoylation reactions, with the p K a of the azole conjugate acid used as a coarse predictor of reactivity. Within this class, pyrazole derivatives are often neglected as they display low reactivity toward nucleophiles due to their poor ability to be expelled as anionic LG in acyl transfer reactions.…”

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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Structure Kinetics Relationships and Molecular Dynamics Show Crucial Role for Heterocycle Leaving Group in Irreversible Diacylglycerol Lipase Inhibitors

Cited by 11 publications

References 48 publications

A Comprehensive Guide for Assessing Covalent Inhibition in Enzymatic Assays Illustrated with Kinetic Simulations

A Comprehensive Guide for Assessing Covalent Inhibition in Enzymatic Assays Illustrated with Kinetic Simulations

Development and biological applications of sulfur–triazole exchange (SuTEx) chemistry

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

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