Secondary amines acyl derivatives

When MA reacts with ammonia, a primary or a secondary amine, acylation occurs resulting in formation of an amide derivative. This half-amide derivative is called maleamic acid 108. When one of the R groups in 108 is aryl, often the product is referred to as a maleanilic acid. 

Salts of aromatic amines acyl derivatives of primary and secondary aromatic amines (often very slowly) high mol.wt. amino-acids hydrazine derivatives aryl ureas and aryl thioureas. 

An efficient chemoenzymatic route for the synthesis of optically active substituted indolines has been recently developed (Scheme 7.27), and also the alkoxycarbonyla-tion process is more efficient than the acylation reaction. Different lipases have been tested in the alkoxycarbonylation of these secondary amines, GALA being found to be the best biocatalyst for 2-substituted-indolines, and CALB for 3-methylindoline. The combination of lipases with a variety of allyl carbonates and TBME as solvent has allowed the isolation of the carbamate and amine derivatives in a high level of enantiopurity [51]. 

In this series, too, replacement of the N-methyl by a group such as cyclopropylmethyl leads to a compound with reduced abuse potential by virtue of mixed agonist-antagonist action. To accomplish this, reduction of 24 followed by reaction with tertiary butylmagnesium chloride gives the tertiary carbinol 27. The N-methyl group is then removed by the classic von Braun procedure. Thus, reaction with cyanogen bromide leads to the N-cyano derivative (28) hydrolysis affords the secondary amine 29. (One of the more efficient demethylation procedures, such as reaction with ethyl chloroformate would presumably be used today.) Acylation with cyclopropylcarbonyl chloride then leads to the amide 30. Reduction with lithium aluminum hydride (31) followed by demethylation of the phenolic ether affords buprenorphine (32).9... 

Figure 1.8 Derivatives of amines can be prepared from acylating or alkylating agents to give amide, secondary amine, or tertiary amine bonds.

Primary and secondary amines are acylated by acid chlorides and anhydrides, in particular also by the chloride of benzene sulphonic add (p. 192). The preparation of acetanilide has already been described (pp. 125, 128). The acetyl- and benzoyl-derivatives of all the simpler primary amines of the benzene and naphthalene series are known, so that these derivatives can always serve for purposes of identification. 

The symmetrical anhydride is prepared using dicyclohexylcarbodiimide in dichloromethane, the urea and solvent are removed, and the anhydride is dissolved in dimethylformamide and added to the peptide-resin (see Section 2.5). The anhydride is a more selective acylating agent than the 0-acylisourea and, thus, gives cleaner reactions than do carbodiimides, but twice as much amino-acid derivative is required, so the method is wasteful. It avoids the acid-catalyzed cyclization of terminal glutaminyl to the pyroglutamate (see Section 6.16) and is particularly effective for acylating secondary amines (see Section 8.15). 

Acyloxy)methyl carbamates (and A-[l-(acyloxy)alkoxycarbonyl] compounds in general) have the formula RR,N-C0-0-CHR,/-0-C0-R,/, where R" = H or Me, and COR " = acyl. Acetoxymethyl carbamates of model amines have yielded important information on the possibilities and limitations of these potential prodrugs. For secondary amine derivatives, a clean mechanism of activation was characterized, shown in Fig. 8.19 for one of the model compounds investigated [209]. Hydrolysis of the terminal ester moiety (Fig. 8.19, Reaction a) triggers the two subsequent breakdown reactions (Fig. 8.19, Reactions b and c). For compound 8.162 (Fig. 8.19), the tu2 value in buffer at pH 7.4 and 37° was 98 h, while it was 6.2 h in human plasma [210]. The parent secondary amine was hydrolyzed quantitatively. 

Acetoxymethyl carbamates of primary amines behaved differently from the pathway depicted in Fig. 8.19, the predominant reaction being intramolecular acyl transfer to generate the A-acetylated amine as the major product [209]. This parasitic reaction was observed in buffer and proportionally less in plasma, disqualifying (acyloxy)methyl carbamates for use as prodrugs of primary amines. However, this type of derivative appears well suited for the preparation of prodrugs of secondary amines, as documented below. 

The A -methyl derivative (32) was obtained from 31 via a Leuckart reaction and isolated as its hydrochloride 32 is also formed in the Hoffmann-Lbflfterreaction(photolysisinsulfuricacid)ofthei r-chloramine (33), since after separation of secondary amines and addition of methyl iodide a 10% yield of the methiodide (34) was obtained. The secondary amine (31) was also converted to its A-acyl and JV -nitroso derivatives (35-37) and (38), respectively, by conventional procedures. Free-radical chlorination of 37 gave the ca o-2-chloro derivative (39) and... 

Chirality derived from the readily accessible a-amino acids has been incorporated into the side chains of aza and diaza macrocyclic polyethers. A number of procedures suitable for peptide synthesis have proved (178) to be unsuitable for acylating the relatively unreactive secondary amine groups of aza crown ethers. Eventually, it was discovered that mixed anhydrides of diphenylphos-phinic acid and alkoxycarbonyl-L-alanine derivatives do yield amides, which can be reduced to the corresponding amines, e.g., l-172. By contrast, the corresponding bisamides of diaza-15-crown-S derivatives could not be reduced and so an alternative approach, involving the use of chiral A-chloroacetamido alcohols derived from a-amino acids, has been employed (178) in the synthesis of chiral receptors, such as ll-173 to ll-175, based on this constitution. 

Partly reduced counterparts of the indole nucleus provide the basis for several agents with varied biological activities. A pair of closely related A-phenyl derivatives have both shown antidepressant activity in test systems. The apparent preference for the monomethyl amine suggests that these act by the same mechanism as the classical tricyclic antidepressants, where the secondary amine is the more active species. The first step in the preparation of the common intermediate (27-3) to these compounds consists of acylation of diphenylamine (27-1) with chloroacetyl chloride. 

Hexamethyleneimine and its benzo derivatives are typical secondary amines and undergo electrophilic substitution at nitrogen, e.g. alkylation and acylation, under standard conditions. Most form stable hydrochlorides and simple derivatives such as picrates (B-67MI51600). Table 4 contains pjRTa values of some azepines. 

The ability of [18]crown-6 derivatives to complex primary alkylammonium ions has been elegantly exploited in the protection of primary amines (80CC300). In the presence of primary amines, secondary amines can be acylated selectively by adding [18]crown-6 and a proton source. This strategy has obvious advantages over normal amine protecting groups which require a deprotection step. 

The exo position of the chloropyridine is essential for the antinociceptive potency of epibatidine - its racemic endo diastereoisomer is inactive. Also inactive are amides derived from epibatidine through acylation of the secondary amine function (R = C(O)R ). On the other hand the potency of 7-methylepibatidine (R = Me) is comparable to epibatidine itself, so a basic nitrogen but not necessarily a secondary amine is needed for activity (Li et al., 1993). 

The lower members of the homologous series of 1. Alcohols 2. Aldehydes 3. Ketones 4. Acids 5. Esters 6. Phenols 7. Anhydrides 8. Amines 9. Nitriles 10. Polyhydroxy phenols 1. Polybasic acids and hydro-oxy acids. 2. Glycols, poly-hydric alcohols, polyhydroxy aldehydes and ketones (sugars) 3. Some amides, ammo acids, di-and polyamino compounds, amino alcohols 4. Sulphonic acids 5. Sulphinic acids 6. Salts 1. Acids 2. Phenols 3. Imides 4. Some primary and secondary nitro compounds oximes 5. Mercaptans and thiophenols 6. Sulphonic acids, sulphinic acids, sulphuric acids, and sul-phonamides 7. Some diketones and (3-keto esters 1. Primary amines 2. Secondary aliphatic and aryl-alkyl amines 3. Aliphatic and some aryl-alkyl tertiary amines 4. Hydrazines 1. Unsaturated hydrocarbons 2. Some poly-alkylated aromatic hydrocarbons 3. Alcohols 4. Aldehydes 5. Ketones 6. Esters 7. Anhydrides 8. Ethers and acetals 9. Lactones 10. Acyl halides 1. Saturated aliphatic hydrocarbons Cyclic paraffin hydrocarbons 3. Aromatic hydrocarbons 4. Halogen derivatives of 1, 2 and 3 5. Diaryl ethers 1. Nitro compounds (tertiary) 2. Amides and derivatives of aldehydes and ketones 3. Nitriles 4. Negatively substituted amines 5. Nitroso, azo, hy-drazo, and other intermediate reduction products of nitro com-pounds 6. Sulphones, sul-phonamides of secondary amines, sulphides, sulphates and other Sulphur compounds... 

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