Total Synthesis of the Pseudopterane (−)-Kallolide B, the Enantiomer of Natural (+)-Kallolide B

Abstract

A total synthesis of the enantiomer 35 of kallolide B was achieved starting from (S)-(−)-perillyl alcohol (8). Oxidative cleavage to the ester aldehyde 11 was effected by treatment of the epoxide 9 with H5IO6 followed by CH2N2. The allenyl ketone 13, obtained by SnCl2-promoted addition of 1-bromo-2-butyne to aldehyde 11 and subsequent Swern oxidation, cyclized to the furan 14 in the presence of catalytic AgNO3. Homologation of the derived aldehyde 15 with CBr4−Ph3P followed by n-BuLi and CH2O led to the propargylic alcohol 17. Formylation of the furan 17 (s-BuLi, DMF) and then Still−Horner−Emmons homologation yielded the (Z)-conjugated ester 22. Conversion of the propargylic alcohol function to the chloride 23 and ester reduction (DIBAL-H) furnished the chloro alcohol 24, which formed the cyclic ether 25 upon treatment with NaH. Ether 25 underwent a highly diastereoselective [2,3]Wittig ring contraction to the propargylic alcohol 26. The derived mesylate 36 was converted to the allenic ester 37 with CO and TMSCH2CH2OH in the presence of Pd(PPh3)4. Ester 37 was isomerized to the diastereomer 39 with Ph3P in CH3CN. Ester cleavage with TBAF followed by cyclization of the acid intermediate with catalytic AgNO3 led to butenolide 35, identical to kallolide B according to comparison of NMR spectra, but of opposite optical rotation.