4.4- Disubstituted dihydropyridines, from

Replacing the benzyl carbamate in 65 with a chiral carbamate derived from (R)-pantolactone generates diaster-eomeric molybdenum 1,2-dihydropyridine complexes 76 and 77, which are easily separable by crystallization <20000L3909>. Once separated, these chiral complexes 76 and 77 are easily converted to the more reactive methyl carbamate molybdenum 1,2-dihydropyridine complexes 78 and 79, respectively, and allow the synthesis of enantio-pure 2,6-disubstituted tetrahydropyridines (Scheme 21). 

The pyridinium salts have been shown to have electrophilic positions at the 2-, 4-, and 6-carbon atoms. Of these, the 2- and 6-positions should be the more positive because of the proximity to the quaternary nitrogen. From the ultraviolet absorption spectra of the reaction mixtures during the reduction and of the isolated products, it can be demonstrated that the predominant attack of the hydride ion from sodium borohydride occurs at these two positions.5,6 The 1,6-dihydro-pyridine (such as 5) formed from the reduction of a 1,3-disubstituted pyridinium ion appears to be stable toward further reduction, for a number of such compounds have been isolated from sodium borohydride reductions containing sufficient borohydride to complete the reduction to the tetrahydro-state.7"10 Since 1,4-dihydropyridines having a 3-substituent which is electron-withdrawing have also been... 

Heteroaromatic cations undergo reduction when treated with 1,4-dihydronicotinamide. An early study showed that the 10-methylacridinium ion (87) was rapidly reduced in a redox reaction to the 9,10-dihydro adduct by 1,4-dihydronicotinamides (M Scheme 18). A variety of systems including py-ridines, isoquinolines, quinolines and phenanthridines have been studied using this and related procedures. The selective reduction of pyridinium and quinolinium salts with 1-benzyl-1,2-dihydro-isonicotinamide (89) has been achieved. The selective conversion to the thermodynamically more stable 1,4-dihydro species (90 Scheme 18) is rationalized by the reversibility in the formation of the kinetic products (i.e. the 1,2-adducts) in the presence of pyridinium ions. In the pyridinium case 1,6-di-hydro adducts were also observed in some cases. Reactivity in such systems is sometimes hindered due to hydration of the dihydropyridine system. This is particularly so in aqueous systems designed to replicate biological activity. Dihydroazines derived from isoquinolines and 3,5-disubstituted pyridines have been reported to overcome some of these difficulties. ... 

---