The inhibitory effects of two novel lophine derivatives were unexpectedly discov- ered during the development of a chemiluminescent monoacylglycerol lipase (MAGL) assay. The proposed lophine derivatives were found to exhibit concentration-dependent inhibitory effects on MAGL with the octanoic and palmitic acid esters of 2-(4-hydroxyphenyl)-4,5- diphenylimidazole showing the strongest activity. Reversibility assays using a fluorometric method confirmed that these compounds interact with MAGL in a stable, irreversible manner. To further investigate their mode of interaction, docking studies were performed, supporting the hypothesis that compounds 3 and 4 may act as competitive and irreversible inhibitors. Lophine derivatives were initially designed and synthesized as potential chemi- luminescence pro-enhancers. However, assay optimization revealed no signal production upon MAGL hydrolysis, precluding their use as chemiluminescent probes. These findings suggest that lophine is a promising candidate for the development of MAGL inhibitors, although further optimization is needed to enhance binding affinity and selectivity.
Discovery of MAGL Inhibition by Lophine Derivatives: An Unexpected Finding from Chemiluminescent Assay Development / R. Ottria, S. Casati, O. Xynomilakis, A. Veselinović, P. Ciuffreda. - In: MOLECULES. - ISSN 1420-3049. - 30:7(2025 Apr), pp. 1605.1-1605.18. [10.3390/molecules30071605]
Discovery of MAGL Inhibition by Lophine Derivatives: An Unexpected Finding from Chemiluminescent Assay Development
R. Ottria
Primo
;S. CasatiSecondo
;O. Xynomilakis;P. CiuffredaUltimo
2025
Abstract
The inhibitory effects of two novel lophine derivatives were unexpectedly discov- ered during the development of a chemiluminescent monoacylglycerol lipase (MAGL) assay. The proposed lophine derivatives were found to exhibit concentration-dependent inhibitory effects on MAGL with the octanoic and palmitic acid esters of 2-(4-hydroxyphenyl)-4,5- diphenylimidazole showing the strongest activity. Reversibility assays using a fluorometric method confirmed that these compounds interact with MAGL in a stable, irreversible manner. To further investigate their mode of interaction, docking studies were performed, supporting the hypothesis that compounds 3 and 4 may act as competitive and irreversible inhibitors. Lophine derivatives were initially designed and synthesized as potential chemi- luminescence pro-enhancers. However, assay optimization revealed no signal production upon MAGL hydrolysis, precluding their use as chemiluminescent probes. These findings suggest that lophine is a promising candidate for the development of MAGL inhibitors, although further optimization is needed to enhance binding affinity and selectivity.
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