Imines reductive amination

Sodium cyanoborohydride is remarkably chemoselective. Reduction of aldehydes and ketones are, unlike those with NaBH pH-dependent, and practical reduction rates are achieved at pH 3 to 4. At pH 5—7, imines (>C=N—) are reduced more rapidly than carbonyls. This reactivity permits reductive amination of aldehydes and ketones under very mild conditions (42). 

Reductive amination of cyclohexanone using primary and secondary aHphatic amines provides A/-alkylated cyclohexylamines. Dehydration to imine for the primary amines, to endocycHc enamine for the secondary amines is usually performed in situ prior to hydrogenation in batch processing. Alternatively, reduction of the /V-a1ky1ani1ines may be performed, as for /V,/V-dimethy1 cyclohexyl amine from /V, /V- di m e th y1 a n i1 i n e [121 -69-7] (12,13). One-step routes from phenol and the alkylamine (14) have also been practiced. 

Amin omethyl-3,5,5-trimethyl cyclohexyl amine (21), commonly called isophoronediamine (IPD) (51), is made by hydrocyanation of (17) (52), (53) followed by transformation of the ketone (19) to an imine (20) by dehydrative condensation of ammonia (54), then concomitant hydrogenation of the imine and nitrile functions at 15—16 MPa (- 2200 psi) system pressure and 120 °C using methanol diluent in addition to YL NH. Integrated imine formation and nitrile reduction by reductive amination of the ketone leads to alcohol by-product. There are two geometric isomers of IPD the major product is ds-(22) [71954-30-5] and the minor, tram-(25) [71954-29-5] (55). 

Reductive amination has been successfully applied to the preparation of tertiary fflnines from carbonyl compounds and secondary amines even though a neutral imine is not possible in this case. 

Reductive amination takes place by the pathway shown in Figure 24.4. An imine intermediate is first formed by a nucleophilic addition reaction (Section 19.8), and the C=N bond of the imine is then reduced. 

Active Figure 24.4 MECHANISM Mechanism of reductive amination of a ketone to yield an amine. Details of the imine-forming step were shown in Figure 19.8 on page 711. Sign in afwww.thomsonedu.com to see a simulation based on this figure and to take a short quiz. 

Yet a third method for the synthesis of a-amino acids is by reductive amination of an a-keto acid with ammonia and a reducing agent. Alanine, for instance, is prepared by treatment of pyruvic acid with ammonia in the presence of NaBH As described in Section 24.6, the reaction proceeds through formation of an intermediate imine that is then reduced. 

The reductive amination of ketones can be carried out under hydrogen pressure in the presence of palladium catalysts. However, if enantiopure Q -aminoketones are used, partial racemization of the intermediate a-amino imine can occur, owing to the equilibration with the corresponding enam-ine [102]. Asymmetric hydrogenation of racemic 2-amidocyclohexanones 218 with Raney nickel in ethanol gave a mixture of cis and trans 1,2-diamino cyclohexane derivatives 219 in unequal amounts, presumably because the enamines are intermediates, but with excellent enantioselectivity. The two diastereomers were easily separated and converted to the mono-protected cis- and trans- 1,2-diaminocyclohexanes 220. The receptor 221 has been also synthesized by this route [103] (Scheme 33). 

The direct reductive amination (DRA) is a useful method for the synthesis of amino derivatives from carbonyl compounds, amines, and H2. Precious-metal (Ru [130-132], Rh [133-137], Ir [138-142], Pd [143]) catalyzed reactions are well known to date. The first Fe-catalyzed DRA reaction was reported by Bhanage and coworkers in 2008 (Scheme 42) [144]. Although the reaction conditions are not mild (high temperature, moderate H2 pressure), the hydrogenation of imines and/or enam-ines, which are generated by reaction of organic carbonyl compounds with amines, produces various substituted aryl and/or alkyl amines. A dihydrogen or dihydride iron complex was proposed as a reactive intermediate within the catalytic cycle. 

Aromatic aldehydes can be reductively aminated with the combination Zn(BH4)2-ZnCl2,97 and the ZnCl2 assists in imine formation. 

Amines can be synthesized by the treatment of a ketone or aldehyde with an amine in the presence of hydrogen and a noble metal catalyst. During this reductive amination, the intermediate loses water to give an imine that is reduced to yield the amine product (Scheme 5.4). 

The N-terminal methionine residue of protein can also be employed for selective PEGylation using aldehyde-terminated PEG via a reductive amination reaction, because the N-terminal primary amine has a lower pAa of 7.8 than other amines such as lysines, whose pZa is 10.1 [7]. After reaction with aldehyde-terminated PEG at low pH, the resultant imine is reduced with sodium cyanoborohydrate to provide PEGylated protein (Fig. 4) [8, 9]. This technique was used for the production of Neulasta, which was approved for use by the FDA in 2002 [10]. 

Aldehydes and ketones can react with primary and secondary amines to form Schiff bases, a dehydration reaction yielding an imine (Reaction 45). However, Schiff base formation is a relatively labile, reversible interaction that is readily cleaved in aqueous solution by hydrolysis. The formation of Schiff bases is enhanced at alkaline pH values, but they are still not stable enough to use for crosslinking applications unless they are reduced by reductive amination (see below). 

Various chiral ligands with metal catalysts can be employed in the organosilane reduction of imines to amines. Many of these provide modest success. These include (oxazolino)diphenylphosphinoferrocene ligands with ruthenium,605 (—)-DIOP/Rh(I),606,607 3,3 -BINOL (l,l -bi-2-naphthol) and LiHMDS,608 and (S)-phenyl V-formylprolinamidc with trichlorosilane.609... 

Nitroalkene reduction, 102-103 3-Nitrobenzylamine, imine to amine reduction, 135... 

Saaby S, Knudsen KR, Ladlow M, Ley SV (2005) The Use of a Continuous Flow-Reactor Employing a Mixed Flydrogen-Liquid Flow Stream for the Efficient Reduction of Imines to Amines. Chem Commun 23 2909-2911 Seebach D, Overhand M, Kilhnle FNM, Martinoni D, Oberer L, Hommel U, Widmer H (1996) Beta-Peptides Synthesis by Arndt-Eistert Homologation with Concomitant Peptide Coupling. Structure Determination by NMR and CD Spectroscopy and by X-ray Crystallography. Helical Secondary Structure of a Beta-Hexapeptide in Solution and its Stability Towards Pepsin. Helv Chim Acta 79 913-941... 

In other studies, imine reduction by [Ir(cod)(PPh3)2]BF4 in THF has been shown to be first order in each of the catalyst, the H2, and the substrate. Initial formation of [IrH2(imine)2(PPh3)2]+ was proposed to lead to amine and [Ir(im-ine)2(PPh3)2], Oxidative addition regenerates the Ir(III) species [34]. 

Although imine hydrogenation is discussed in greater detail in Chapter 34, it seems appropriate at this point to describe one-pot reductive amination of aldehydes and ketones. The reductive amination of aldehydes and ketones using so-... 

The first example of this type of transformation was reported in 1974 [76]. Three catalysts were investigated, namely [Co2(CO)8], [Co(CO)g/PBu ], and [Rh6(CO)i6]. The [Co OJg/PBu ] catalyst showed activity for reductive animation using ammonia and aromatic amines. The [Rh6(CO)16] catalyst could be used for reductive animation using the more basic aliphatic amines that were found to poison the cobalt catalyst. This early report pointed out that the successful reductive animation of iso-butanal (Me2CCHO) with piperidine involves selective enamine hydrogenation, that reductive animation of cyclohexanone with isopropylamine probably involves imine hydrogenation, and that reductive amination of benzaldehyde with piperidine would presumably involve the reduction of a carbinolamine. 

Selectivities of about 2 1 are the best found for this type of hydrogenation and are highly dependent on the secondary amine used they seem to correlate with the nucleophilicity of the amine. Reductive amination of PhCHO with ben-zylamine can proceed through an imine intermediate, and thus gave better selectivities (12 1) but was found to be sluggish using this catalyst system. 

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