Pyrrolidine, 2- reduction

Reduction products of A 1-pyrroline iV-oxide vary according to the reducing agent used.111 Sodium borohydride yields -hydroxy-pyrrolidine. Reduction of 2,4,4-trimethyl-d1-pyrroline iV-oxide (103)... 

Androst-4-ene-3,l 1,17-trionehas been converted into several 3,17-dienamine derivatives which, on reduction with LiAlH4 followed by removal of the protecting groups, give 11 jS-hydroxyandrost-4-ene-3,17-dione. An unsaturated 3-ketone has also been protected as an enamine in the LiAlH4 reduction of a 21-ester group a further example is the conversion of 7-methylene-5a-an-drostane-3,17-dione into the 3-pyrrolidine enamine followed by reduction of the 17-ketone by Li[OC(CH3)3]3 AlH. ... 

Johnson and Whitehead have further shown that the reductive elimination of the pyrrolidine group from the pyrrolidine enamine of 2,4-dimethyl-cyclohexanone (16), which involved treating it with a mixture of lithium aluminum hydride and aluminum chloride (9), gave the trans isomer of 3,5-dimethyl-/l -cyclohexene (17) which on subsequent hydrogenation on a platinum catalyst led to the // onr-3,5-dimethylcyclohexane (18). 

Hunig and Salzwedel (20) report that the acylation of the pyrrolidine enamine of 3-methylcyclohexanone with propionylchloride followed by the hydrolysis and the base cleavage of the resulting dione isomers (71) and (72) and subsequent reduction of the keto groups gave a 3 7 mixture of the carboxylic acids (73 and 74), respectively. Vig et al. (39), however, found o o o o... 

Other secondary amines such as pyrrolidine, di- -butylamine, tetrahydro-quinoline, n-benzylamine, and piperidine were also found to be capable of effecting this reduction. Interestingly, morpholine does not reduce enamines as readily (47) and its acid-catalyzed reaction with norbornanone was reported (45) to give only the corresponding enamine (93), although trace amounts of the reduction product were detected when cyclohexanone was treated with morpholine under these conditions (47a). The yield of morpholine reduction product was increased by using higher temperatures. 

Another interesting fact to be noted is that the bicyclic enamine (87) and its pyrrolidine analogue failed to undergo reduction with 98% formic acid, whereas the pyrrolidine enamine of 2-bicyclo[2.2.1]hepten-5-carboxalde-hyde (94), which exists largely in the transoid form (49), was readily reduced to (95). However, the saturated amine-substituted norbornane can be obtained directly from norbornanone under the more vigorous conditions of the Leuckart reaction (49a). 

Reduction of l-methyl-2-alkyl-.d -pyrroline and l-methyl-2-alkyl-.d -piperideine perchlorates with complex hydrides prepared in situ by partial decomposition of lithium aluminum hydride with the optically active alcohols (—)-menthol and (—)-borneol affords partially optically active l-methyl-2-alkyl pyrrolidines (153, n = 1) and 1-methy 1-2-alkyl piperideines (153, n = 2), respectively (241,242). 

An unexpected reduction of enamines by secondary amines such as pyrrolidine, piperidine, and particularly hexamethyleneimine was discovered in the formation of the norbomanone enamines and extended to hexamethyleneiminocyclopentene (561,562). 

Protection of primary aryl amines as the triazene is accomplished by diazotiza-tion of the amine followed by reaction with pyrrolidine in aq. KOH. This group is stable to metalation of the aromatic ring by metal halogen exchange. The amine is recovered by reductive cleavage with Ni-Al alloy (aq. KOH, rt, 37-68% yield). ... 

A total synthesis of (+/—)-gephyrotoxin started with the pyrrolidine-2,4-dione 161 which upon treatment with ethoxyacetylene magnesium chloride followed by dilute HCl gave the acrylate derivative 162. Subsequent reduction and treatment with phenoxyformyl chloride afforded 163. 

In much the same vein, the Mannich product from acetophenone with formaldehyde and pyrrolidine (44b) affords procyclidine (49) Dn reaction with cyclohexylmagnesium bromide. In an interesting variation, the ketone is first reacted with phenylmagnesium bromide. Catalytic hydrogenation of the carbinol (50) thus obtained iTin be stopped after the reduction of only one aromatic ring. ... 

Extension of the alkyl group on the carbon bearing the amine changes the pharmacologic profile. Reductive amination of 1-phenylbutanone-2 (60) with pyrrolidine in formic acid gives pro-litane (61), a central nervous system stimulant agent with antidepressant properties. 

Reduction to the corresponding ] -substituted pyrrolidine (23) (lakes place with sodium borohydride/boron trifluoride. Saponification completes the synthesis of the diuretic agent piret-.inide (24). ... 

Reduction of iV-(3-bromopropyl) imines gives a bromo-amine in situ, which cyclizes to the aziridine. Five-membered ring amines (pyrrolidines) can be prepared from alkenyl amines via treatment with N-chlorosuccinimide (NCS) and then BusSnH. " Internal addition of amine to allylic acetates, catalyzed by Pd(PPh3)4, leads to cyclic products via a Sn2 reaction. Acyclic amines can be prepared by a closely related reaction using palladium catalysts. Three-membered cyclic amines (aziridines)... 

Secondary amines can be added to certain nonactivated alkenes if palladium(II) complexes are used as catalysts The complexation lowers the electron density of the double bond, facilitating nucleophilic attack. Markovnikov orientation is observed and the addition is anti An intramolecular addition to an alkyne unit in the presence of a palladium compound, generated a tetrahydropyridine, and a related addition to an allene is known.Amines add to allenes in the presence of a catalytic amount of CuBr " or palladium compounds.Molybdenum complexes have also been used in the addition of aniline to alkenes. Reduction of nitro compounds in the presence of rhodium catalysts, in the presence of alkenes, CO and H2, leads to an amine unit adding to the alkene moiety. An intramolecular addition of an amine unit to an alkene to form a pyrrolidine was reported using a lanthanide reagent. 

A rhodium catalyzed reduction of pyrrole 2,5-bis(propanoate) 62 afforded the cis-pyrrolidine 63 en route to the unusual heterocycle, azatriquinane (64) <96TL131>. 

Benzodiazepin-2-ones are converted efficiently into the 3-amino derivatives by reaction with triisopropylbenzenesulfonyl (trisyl) azide followed by reduction <96TL6685>. Imines from these amines undergo thermal or lithium catalysed cycloaddition to dipolarophiles to yield 3-spiro-pyrrolidine derivatives <96T13455>. Thus, treatment of the imine 50 (R = naphthyl) with LiBr/DBU in the presence of methyl acrylate affords 51 in high yield. 

Chiral tricyclic fused pyrrolidines 29a-c and piperidines 29d-g have been synthesized starting from L-serine, L-threonine, and L-cysteine taking advantage of the INOC strategy (Scheme 4) [19]. L-Serine (23 a) and L-threonine (23 b) were protected as stable oxazolidin-2-ones 24a and 24b, respectively. Analogously, L-cysteine 23 c was converted to thiazolidin-2-one 24 c. Subsequent N-allylation or homoallylation, DIBALH reduction, and oximation afforded the ene-oximes, 27a-g. Conversion of ene-oximes 27a-g to the desired key intermediates, nitrile oxides 28 a-g, provided the isoxazolines 29 a-g. While fused pyrrolidines 29a-c were formed in poor yield (due to dimerization of nitrile oxides) and with moderate stereoselectivity (as a mixture of cis (major) and trans (minor) isomers), corresponding piperidines 29d-g were formed in good yield and excellent stereoselectivity (as exclusively trans isomers, see Table 3). 

The M-aUylated compounds may serve as precursors to the M-unsubstituted pyrrolidines by a mild Pd(0) catalyzed deallylation procedure [451. The deallylation may be more straightforward than hydrogenolysis of the M-benzylated product in which complications due to the presence of the oxime and the other Bn moiety (1,2 bond in the pyrrolidine ring) may arise during reduction. Attempts to prepare piperidine and azepine systems following the above procedure were unsuccessful. 

In an alternative approach, the isomeric unsaturated pyrrolidine or piperidine aldoximes 245 a and 245b were prepared and subjected to lOOC reaction affording 246a and 246b, respectively (Eq. 28). Esterification of 240 followed by N-tert-BOC protection and DIBALH reduction provided aldehyde 244 (X = 0) which was subjected to Wittig olefination. Introduction of a two carbon aldoxime chain on N in 244 (X = CH2) was carried out by alkylation with Et a-bromoacetate after deprotection of the N atom in 244. Reduction and oxima-tion led to 245. 

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