Amaryllidaceae alkaloids synthesis

One of these products (49) was used as a key intermediate for the synthesis of the Amaryllidaceae alkaloids a- and /-lycorane (Scheme 12)53. A copper-catalyzed Grignard reaction with 49 afforded 50 via a selective y-anti displacement of the chloride. Hydrogenation followed by Bischler-Napieralski cyclization gave 51. Interestingly, reversal of the latter two steps gave the isomer 52 where an epimerization at the benzylic carbon had occurred in the cyclization step (>99% selectivity). Subsequent reduction of the amide in each case afforded the target molecules a- and y-lycorane, respectively. The purity of the final product was very high with respect to the opposite stereoisomer. Thus <0.2% of /-lycorane was present in a-lycorane and vice versa. 

Martin effected the synthesis of several 3,5-diarylated indoles by a tandem Stille-Suzuki sequence [131]. The latter reaction involves exposure of 3-(3-pyridyl)-5-bromo-l-(4-toluenesulfonyl)indole with arylboronic acids (aryl = 3-thienyl, 2-furyl, phenyl) under typical conditions to give the expected products in 86-98% yield [131], Carrera engaged 6- and 7-bromoindole in Pd-catalyzed couplings with 4-fluoro- and 4-methoxyphenylboronic acids to prepare 6- and 7-(4-fluorophenyl)indole (90% and 74% yield) and 6-(4-methoxyphenyl)indole (73% yield) [29]. Banwell and co-workers employed 7-bromoindole in a Suzuki coupling with 3,4-dioxygenated phenylboronic acids en route to the synthesis of Amaryllidaceae alkaloids [132], Yields of 7-arylated indoles are 93-99%. Moody successfully coupled 4-bromoindole... 

Jin and Weinreb reported the enantioselective total synthesis of 5,11-methano-morphanthridine Amaryllidaceae alkaloids via ethynylation of a chiral aldehyde followed by allenylsilane cyclization (Scheme 4.6) [10]. Addition of ethynylmagnesium bromide to 27 produced a 2 1 mixture of (S)- and (R)-propargyl alcohols 28. Both of these isomers were separately converted into the desired same acetate 28 by acetylation or Mitsunobu inversion reaction. After the reaction of 28 with a silyl cuprate, the resulting allene 29 was then converted into (-)-coccinine 31 via an allenylsilane cyclization. 

The allenylsilane ene reaction is also well suited for the synthesis of cyclohexane rings. Jin and Weinreb have described the process of Eq. 13.55 in a synthesis of 5,11-methanomorphanthridine, an Amaryllidaceae alkaloid [64], Conversion of aldehyde 163 to imine 164 with piperonylamine took place in situ. Heating the solution of imine at reflux in mesitylene for 2 h led to cyclization through the conformer shown. The yield of 165 from aldehyde 163 was 66%. 

Kita et al. found that phenolic oxidative coupling in case of 272 provides seven-membered N heterocyclic compounds 274 and 275 by bond shift of the initially formed spiro intermediate 273 under suitable conditions. Besides 274 and 275, piperidino-spiroquinone 276 is also formed in this oxidation (Scheme 68). Of particular interest is the recently developed synthesis of amaryllidaceae alkaloids such as (+)-maritidine (Scheme 69) (96JOC5857). 

Jim6nez, A., Santos, A., Alonso, G. and Vazquez, D. 1976. Inhibitors of protein synthesis in eukaryotic cells. Comparative effects of some Amaryllidaceae alkaloids. Biochimica et Biophysica Acta, 425 342-348. 

An impressive enantiopure synthesis of Amaryllidaceae alkaloids has been achieved through the formation of sugar-derived homochiral alkenyl nitrone 265 (Fig. 1.7).[280] While this reagent required lengthy preparation, it underwent an intramolecular dipolar cycloaddition to establish the required stereochemistry of the polycyclic pyrrolidine skeleton of (—)-haemanthidine (266), which was converted to (+)-pretazettine and (+)-tazettine by established procedures (281). 

Baxendale, I.R., Ley, S.V. and Piutti, C., Total Synthesis of the Amaryllidaceae Alkaloid (+)-plicamine and its unnatural enantiomer by using solid-supported reagents and scavengers in a multistep sequence of reactions, Angew. Chem., Int. Ed. Engl., 2002, 41, 2194. 

Recent Advances in the Total Synthesis of Amaryllidaceae Alkaloids... 

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