De Novo Synthesis of Possible Candidates for the Inagami-Tamura Endogenous Digitalis-like Factor

A Unified Synthetic Approach to the Pleurotin Natural Products

The asymmetric total syntheses of four pleurotin natural products, namely, (-)-pleurotin, (+)-leucopleurotin, (+)-leucopleurotinic acid, and (+)-dihydropleurotinic acid, were described in a concise manner. Key transformations feature a Johnson-Claisen rearrangement, a diastereo-controlled sequential hydroboration-oxidation, a SOMO/photoredox activated aldehyde α-alkylation, and oxidative cyclizations.

Total Synthesis of 19-Nordigitoxigenin, An Antiaroside Y Aglycon

The first total synthesis of 19-nordigitoxigenin, an aglycon of antiroside Y, has been achieved. The key steps of our synthesis are (i) construction of the 19-norsteroid ring system via a Mizoroki-Heck reaction between a bromoanisole corresponding to the A-ring and cyclic alkene incorporating the CD-rings, followed by a Friedel-Crafts-type cyclodehydration, and (ii) incorporation of the butenolide moiety at C17 via a silyl-tethered radical cyclization and subsequent ozone oxidation.

Structural verification of petromyzestrosterol by total syntheses of both C14-epimers of its 3-O-methyl derivative

The structure of petromyzestrosterol, a pheromonal steroid of the sea lamprey, was verified by total syntheses of both C14-epimers of its 3-O-methyl derivative. The key features of our synthesis involve (1) a highly stereoselective Mizoroki-Heck reaction to unite the A- and CD-ring segments and (2) Friedel-Crafts-type cyclodehydration to construct the B-ring. Petromyzestrosterol is concluded to bear an α-configured C14 hydroxy group based on a comparison of NMR data of both the synthesized C14-epimers of the 3-O-methyl derivative with those of the natural petromyzestrosterol. The downfield shifts of C9 and C12 via the γ-gauche effect in the 14β-isomer would enable the structural elucidation of C14 in the 14-hydroxy estrogenic steroids.

Total Synthesis of the Cardiotonic Steroid (+)-Cannogenol

The total synthesis of (+)-cannogenol, an aglycon common to various biologically important cardiotonic glycosides, has been achieved. Synthesis of the versatile intermediate involves Mizoroki-Heck and intramolecular Diels-Alder reactions from the enantiomerically pure CD-ring segment, newly prepared in a multidecagram scale this time. Total synthesis by the site-selective transformations of the versatile intermediate demonstrated the applicability of our synthetic approach.

Synthesis of Oxy-Functionalized Steroidal Skeletons via Mizoroki-Heck and Intramolecular Diels-Alder Reactions

Estrogenic and cardiotonic steroidal skeletons were concisely constructed via Mizoroki-Heck and intramolecular Diels-Alder (IMDA) reactions. Simple modification of the dienophile unsaturation of the IMDA precursor enabled representative AB-ring systems of both steroid classes to be accessed from the same intermediate. The diastereoselectivity of the IMDA reaction used to access the cardiotonic steroidal skeleton was found to be significantly enhanced by performing the reaction in water.