ヘテロ原子の特性を活用する高立体選択的反応の開発 : α置換セリン誘導体の不斉合成

抄録

This article reviews the efficient methods for diastereoselective and enantioselective syntheses of α-substituted serines. A newly designed bislactim ether, ethyl (5S)- or (5R)-3, 6-diethoxy-2, 5-dihydro-5-isopropyl-2-pyrazinecarboxylate, was treated with base or Lewis acid-tertiary amine to generate an enolate or enaminate (imine anion, metalloenamine). Alkylation or aldol-type reaction with the resultant enolate or enaminate proceeded in a highly diastereoselective manner to give the corresponding alkylated or aldol products, respectively. Reduction of these products with diisobutylaluminum hydride (DIBAL) followed by hydrolysis with hydrochloric acid afforded the desirable α-substituted serines. The enantioselective aldol-type reaction of an achiral dislactim ether, ethyl 3, 6-diethoxy-2, 5-dihydro-2-pyrazinecarboxylate, was also investigated by employing Sn(OSO₂CF₃)₂-triethylamine in the presence of an external chiral ligand, (-)-sparteine. Not only a stoichiometric amount, but also a catalytic amount of (-)-sparteine promoted the highly enantioselective aldol-type reactions. Interestingly, the stereoselective outcome of the Sn(II)-mediated reaction differed from that of the Mg(II)-mediated one in the aldol-type reaction of the bislactim ethers with aliphatic aldehydes. On the other hand, chemoenzymatic synthesis of enantiomerically pure α-substituted serines must also be a convenient and useful procedure. Porcine liver esterase (PLE) or rabbit liver esterase (RLE) catalyzed hydrolysis of the pro-S ester group of diethyl α-alkyl-α-(benzyloxycarbonylamino)malonates to afford (R)-ethyl α-alkyl-α-(benzyloxycarbonylamino)malonates each in excellent enantiomeric excess. Enantiodivergent reductions of these acid esters readily proceeded to furnish both the corresponding enantiomeric α-substituted serines. Finally, the application of these methodologies mentioned above to a total synthesis of ISP-I (a potent immunosuppressive principle in the Isaria sinclairii metabolite) is described. Asymmetric total synthesis of ISP-I has been achieved in a highly stereoselective manner by utilizing the Mg(II)-promoted aldol-type reaction with ethyl (5R)-3, 6-diethoxy-2, 5-dihydro-5-isopropyl-2-pyrazinecarboxylate and Schlosser modification of the Witting reaction.