Luu_2026_Bioorg.Chem_173_109652

Reference

Title : Stereoselective AChE\/BChE\/BACE1 inhibition by enantiomeric norsesquiterpenoids with an unprecedented oxatricyclo[7.2.1.0(1,9)]dodecane scaffold from the soft coral Sclerophytum humesi - Luu_2026_Bioorg.Chem_173_109652
Author(s) : Luu PV , Nguyen CQ , Ton-Nu HL , Phan TT , Huynh QT , Pham NT , Le HG , Chen LY , Chang YC , Su JH , Peng BR , Lai KH
Ref : Bioorg Chem , 173 :109652 , 2026
Abstract :

Chemical investigation of the soft coral Sclerophytum humesi led to the discovery of (+/-)-norsclerohumin A (1), a pair of enantiomeric norsesquiterpenoids possessing an unprecedented oxatricyclo[7.2.1.0(1,9)]dodecane scaffold with a rare C5-O-C8 intramolecular ether-bridge. Their structures were elucidated by comprehensive spectroscopic analysis, including NMR, HRESIMS, ECD, and DP4+ analysis. A plausible biosynthetic pathway is proposed to account for the formation of the unique ether-bridged oxatricyclic framework and the generation of the enantiomeric pair (+/-)-norsclerohumin A. In addition, the absolute configuration of sinunorcaryophyllenol (2) was fully determined for the first time. Mechanistic studies revealed pronounced stereoselective inhibition of acetylcholinesterase (AChE), in which (-)-1b was far more potent than its antipode (+)-1a, with IC(50) values of 10.08 +/- 0.48 microM and 149.8 +/- 1.02 microM, respectively. Enzyme kinetics showed that (-)-1b is a mixed-type AChE inhibitor (K(i) = 6.61 microM), binding both the free enzyme and enzyme-substrate complex. Molecular docking indicated that its ether-bridged oxatricyclic skeleton fits optimally in the AChE active site, stabilizing key interactions within both the catalytic and peripheral binding regions. Importantly, (-)-1b displayed selective AChE inhibition without detectable cytotoxicity toward normal cells (IC(50) > 256 microM), underscoring its favorable safety profile. Furthermore, pharmacokinetic predictions and quantum chemical parameters further suggest favorable drug-like properties, including high gastrointestinal absorption, blood-brain barrier permeability, and low risk of P-glycoprotein/cytochrome P450 interactions. These findings highlight the oxatricyclo[7.2.1.0(1,9])dodecane scaffold as a promising lead for neurotherapeutic development.

PubMedSearch : Luu_2026_Bioorg.Chem_173_109652
PubMedID: 41740353

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Luu PV, Nguyen CQ, Ton-Nu HL, Phan TT, Huynh QT, Pham NT, Le HG, Chen LY, Chang YC, Su JH, Peng BR, Lai KH (2026)
Stereoselective AChE\/BChE\/BACE1 inhibition by enantiomeric norsesquiterpenoids with an unprecedented oxatricyclo[7.2.1.0(1,9)]dodecane scaffold from the soft coral Sclerophytum humesi
Bioorg Chem 173 :109652

Luu PV, Nguyen CQ, Ton-Nu HL, Phan TT, Huynh QT, Pham NT, Le HG, Chen LY, Chang YC, Su JH, Peng BR, Lai KH (2026)
Bioorg Chem 173 :109652