Key words
organocatalysis - Brønsted acids - piperidines - reduction
Significance
Significance
<P>An organocatalytic enantioselective reduction of 2-substituted simple and fused
pyridines is reported. The reaction is designed to undergo catalytic protonation by
Brønsted acid
1, followed by reduction by hydride transfer from the Hantzsch dihydropyridine
2. The hexahydroquinolinone and tetrahydropyridine products are formed in moderate
to good yields with good enantioselectivities. The scope of the reaction was modestly
investigated.</P>
Comment
Comment
<P>The chiral piperidine moiety is prevalent in the large class of piperidine plant
and animal natural products, for example the dendrobatid alkaloid pumiliotoxin C,
a noncompetitive blocker of nicotinic receptors (see book and review below). A previous
synthesis of hexahydroquinolinones involves a multistep process and use of stoichiometric
amounts of a chiral auxiliary (H. M. Sklenicka et al
. J. Am. Chem. Soc. 2002,
124, 10435). The present methodology establishes the first direct and efficient organocatalytic
route for the synthesis of such compounds.</P>
Book
Book
<P>J. W. Daly, H. M. Garraffo, T. F. Spande In
Alkaloids: Chemical and Biological Perspectives, Vol. 13; S. W. Pelletier, Ed.; Pergamon: New York,
1999, 1-161.
</P>
Review
Review
<P>J. W. Daly, T. F. Spande, H. M. Garraffo
J. Nat. Prod. 2005,
68, 1556.</P>
