Litcius/Paper detail

Total Synthesis, Structure Revision, and Neuroprotective Effect of Hericenones C–H and Their Derivatives

Shōji Kobayashi, Tomoki Tamura, Mizuho Koshishiba, Takeshi Yasumoto, Satoshi Shimizu, Tomoki Kintaka, Kaoru Nagai

2021The Journal of Organic Chemistry22 citationsDOI

Abstract

The first total syntheses of hericenones C–H and “putative 3-hydroxyhericenone F” were achieved. Highlights of the synthesis include the straightforward construction of the resorcinol core and geranyl side chain, assembly of the natural product skeleton by sequential O-geranylation and a clay/zeolite-mediated O → C rearrangement reaction, and a biomimetic cyclization to form a variety of bicyclic natural hericenones and their congeners. The structure of the “putative 3-hydroxyhericenone F” was revised as the 5-exo cyclization product (named: hericenone Z) of epoxyhericenone C through in-depth analyses of the cyclization modes in addition to NMR spectroscopic studies. To gain insights into the biological functions of geranyl-resorcinols in Hericium erinaceus, potential neuroprotective effects against endoplasmic reticulum (ER) stress-dependent cell death were evaluated systematically to clarify a fundamental structure–activity relationship. Among the compounds assayed, the linoleate-containing hericenone analogue, i.e., the regioisomer of hericene D, was found to possess the most potent neuroprotective effect against tunicamycin and thapsigargin-induced ER stress-dependent cell death.

Topics & Concepts

ChemistryNeuroprotectionStereochemistryNatural productTunicamycinThapsigarginTotal synthesisBiomimetic synthesisBicyclic moleculePolyketideMethyl jasmonateEndoplasmic reticulumBiosynthesisUnfolded protein responseOrganic chemistryBiochemistryEnzymeMedicinePharmacologyGeneFungal Biology and ApplicationsChemical synthesis and alkaloidsPhytochemistry and Biological Activities