Pyrrolidines lactones

In an extension to this work, this group applied the protocol to the synthesis of (—)-mesembrine (258). The key ylide formation and cycloaddition sequence was performed in xylenes at 250 °C in a sealed tube, furnishing the desired pyrrolidine lactone 259 as a single isomer in excellent yield, and further chemical elaboration yielded the target compound 258. Again it can be postulated that the stereochemical outcome is due to the bulky benzyloxymethyl group lying in an equatorial environment in the transition state (Scheme 3.88). 

The efficient catalytic cyclization (aminocarbonylation) of A-(3-hydroxy-4-pentenyl)amides and carbamates in acetic acid gave m-fused bicyclic pyrrolidine lactone compounds54,56 (Table 2), in agreement with the observed ra-directing capability of the hydroxy group in analogous electrophile mediated additions (Section 7.2.6). In tetrahydrofuran the reaction rate is unacceptably low. In methanol a competitive allylic substitution leads to 1,2,5,6-tetrahydropyridines. Furthermore, lower yields were obtained in the cyclization of the corresponding ureas. 

Zur Reduktion von 4-Oxo-l-benzyl-3-athoxycarbonyl-pyrrolidin s.S. 217. Oxo-lactone werden am besten mit Zinkboranat selektivzu Hydroxy-lactonen re-duziert4,5 mit Natriumboranat wird zusatzlich die Lacton-Gruppe reduktiv gespalten z.B.4 ... 

They have developed direct asymmetric synthesis of quaternary carbon centers via addition-elimination process. The reactions of chiral nitroenamines with zinc enolates of a-substituted-8-lactones afford a,a-disubstituted-6-lactones with a high ee through addition-elimination process, in which (5)-(+)-2-(methoxy methy l)pyrrolidine (SMP) is used as a chiral leaving group (Eq. 4.96).119 Application of this method to other substrates such as a-substituted ketones, esters, and amides has failed to yield high ee. 

The hydrogenation of ketones with O or N functions in the a- or / -position is accomplished by several rhodium compounds [46 a, b, e, g, i, j, m, 56], Many of these examples have been applied in the synthesis of biologically active chiral products [59]. One of the first examples was the asymmetric synthesis of pantothenic acid, a member of the B complex vitamins and an important constituent of coenzyme A. Ojima et al. first described this synthesis in 1978, the most significant step being the enantioselective reduction of a cyclic a-keto ester, dihydro-4,4-dimethyl-2,3-furandione, to D-(-)-pantoyl lactone. A rhodium complex derived from [RhCl(COD)]2 and the chiral pyrrolidino diphosphine, (2S,4S)-N-tert-butoxy-carbonyl-4-diphenylphosphino-2-diphenylphosphinomethyl-pyrrolidine ((S, S) -... 

The pyrrolidine derivative 314, a skeletal analog of the antitumor antibiotic anisomycin, was synthesized from the acetal derivative 16b. The 5-OH group of 16b was tosylated and then substituted with sodium azide. Reduction (sodium borohydride) of the lactone group afforded an open-chain derivative, which was selectively protected to give 313. Hydrogenation of the azide function, followed by p-toluenesulfonylation, led to 314 by an intramolecular nucleophilic displacement (284). 

Similar strategies have been used for the synthesis (286) of the tetrahydro-pyrrolizidine 323 from 2,3 5,6-di-O-isopropylidene-D-g/yccroD-ta/o-hep-tono-1,4-lactone (322). These polyhydroxylated pyrrolidines and pyrrolizi-dines are potential specific inhibitors of glycosidases. The stereochemistry of the hydroxyl groups have a profound effect on the selectivity of the inhibition (286-288). 

The preparation of five-membered rings in solid-phase organic chemistry has been reported in several publications. Versatile syntheses of these heterocycles with different numbers and kinds of heteroatoms have been described. The synthesis of five-membered rings containing one nitrogen atom (Fig. 3.6) as pyrrolidines (231) [311-316] pyrroles (232) [317-320] pyrrolidinones (233) [321-323] pyr-rolinones (234) [324—326] 2,5-pyrrolidinediones (235) [327-329] 2,4-pyrrolidine-diones (236) [330-332] 2,5-pyrrolinediones (237) [333] or heterocycles with one oxygen or one sulfur atom like tetrahydrofurans (238) [334—336] 2,5-dihydrofurans (239) [337], furans (240) [338, 339], yS-lactones (241) [340-343], 2,5-dihydrofura-nones (242) [344] (Scheme 3.35) and thiophenes (243) [345, 346] can be accomplished on solid supports. 

Highly efficient and stereoselective addition of tertiary amines to electron-deficient alkenes is used by Pete et al. for the synthesis of necine bases [26,27], The photoinduced electron transfer of tertiary amines like Af-methylpyrrolidine to aromatic ketone sensitizers yield regiospecifically only one of the possible radical species which then adds diastereospecifically to (5I )-5-menthyloxy-2-(5//)-furanone as an electron-poor alkene. For the synthesis of pyrrazolidine alkaloids in approximately 30% overall yield, the group uses a second PET step for the oxidative demethylation of the pyrrolidine. The resulting secondary amine react spontaneously to the lactam by intramolecular aminolysis of the lactone (Scheme 20) [26,27]. 

In the following paragraph the nucleophilic substitution of some of the activated lactones under aqueous conditions will be discussed in detail, namely the reactions with aqueous ammonia, thereby yielding polyhydroxylated pyrrolidines (azafuranoses) and piperidines (azapyranoses). 

In recent work, Chmielewski and co-workers (174) reported the highly stereoselective reaction of ene-lactones with chiral pyrrolidine nitrone (141) to afford tricyclic adducts (Scheme 1.31). A 1 1 mixture of ene-lactone 142 and nitrone 141 provided adduct 143 with an uncharacterized isomer (97 3) (91%) whUe homo-chiral D-glycero (138) gave the adduct 144 as a single diastereomer (88%). A 2 1 mixture of racemic 138 and nitrone 141 afforded a 91 1 mixture of the two possible adducts, representing an effective kinetic resolution of the racemic lactone. 

It was reported that Pd(0)-catalyzed coupling reactions of allenic alcohols, amines and acids with hypervalent iodonium salts afforded cyclized heterocyclic tetrahydrofurans, tetrahydropyrans, pyrrolidines, piperidines, or lactones under mild conditions <99SL324>. Intramolecular 1,5-hydrogen atom transfer radical cyclization reaction of pyrrolidine derivatives was examined. Reaction of 3,4-dialiyloxy-JV-(0-bromobenzyl)pyrtolidine gave hexahydro-... 

The reaction of zinc, copper or lithium enolates of a-substituted -lactones with chiral nitro enamines, e.g., 2-methoxymethyl-l-(2-nitro-l-alkenyl)pyrrolidine, affords a,a-disubstituted <5-lactones of S configuration with high enantiomeric excesses (82 to 96 %)22,23. 

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