Development of Non-Ethoxypropanoic Acid Type Cryptochrome Inhibitors with Circadian Molecular Clock-Enhancing Activity by Bioisosteric Replacement.

Yong Uk Jeong,Goyeong Choi,Hansol Joo,Bohun Kang,Ga-Hyun Lee,Han-Joo Maeng,Hyo-Eon Jin,Jong-Wha Jung,Sooyoung Chung,Kwang-Hyeon Liu,Gi Hoon Son,Hye Young Lim

doi:10.3390/ph14060496

Yong Uk Jeong, Goyeong Choi + Show 10 more

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https://doi.org/10.3390/ph14060496

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Abstract

Circadian dysfunction is closely associated with an increased risk of various diseases. Considering that molecular clock machinery serves as an intrinsic time-keeping system underlying the circadian rhythm of biological processes, the modulation of the molecular clock machinery is an attractive therapeutic target with novel mechanisms of action. Based on the previous structure–activity relationship study of small molecule cryptochrome (CRY) inhibitors possessing an ethoxypropanoic acid moiety, non-ethoxypropanoic acid-type inhibitors have been developed by bioisosteric replacement. They were evaluated as potent and effective enhancers of E-box-mediated transcription, and, in particular, ester 5d and its hydrolysis product 2d exhibited desirable metabolic and pharmacokinetic profiles as promising drug candidates. Compound 2d directly bound to both CRY1 and 2 in surface plasmon resonance analyses, suggesting that the molecular target is CRY. Effects of compound 5d and 2d on suppressive action of CRY1 on CLOCK:BMAL1-activated E-box-LUC reporter activity revealed that both compounds inhibited the negative feedback actions of CRY on CLOCK:BMAL1. Most importantly, compounds 5d and 2d exhibited significant effects on molecular circadian rhythmicity to be considered circadian clock-enhancers, distinct from the previously developed CRY inhibitors possessing an ethoxypropanoic acid moiety.

Highlights

Our work commenced with the synthesis of non-ethoxypropanoic acid-type SJ019 analogs
Both 5d and 2d maintained key structures required for bindNevertheless, it remains unclear how 5d and 2d reinforced cyclic PER2 protein acing to CRY proteins, which we previously identified in our structure–activity relationship cumulation in contrast to KS15
Nuclear magnetic resonance (NMR) spectra were acquired on a Bruker Avance-500 in deuterated chloroform or deuterated methanol; chemical shifts δ in parts per million were measured relative to TMS with the residual solvent peak used as an internal reference, and J values were measured in Hertz

Summary

Introduction

Circadian rhythms of biological processes are evolutionarily well-conserved and ubiquitous biological oscillations with an approximate 24 h daily cycle. The rhythm produced by the intrinsic time-keeping system coordinates internal biological processes to anticipate periodic environmental changes. The intrinsic time-keeping system, known as the circadian clock, is closely related to behavioral, physiological, and metabolic cyclicities. Numerous studies have revealed that the increased risk of various common diseases is associated with circadian dysfunctions, which are attributed to environmental disruptions and intrinsic misalignment [1]. The circadian clock is attracting attention as Pharmaceuticals 2021, 14, 496.

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