P-Lactams preparation

The first 2-azetidinone (P-lactam) was obtained by Staudinger from the reaction of diphenylketene with benzylideneaniline (equation 13). Most of the p-lactams prepared by this method have been made from imines derived from aromatic carbonyl compounds and ketoketenes. - The reaction of ketene itself with imines has been recently reinvestigated. Good yields of p-lactams are obtained when a stream of ketene gas is passed through the imine in the absence of solvent (equations 14 and 15). No [4 + 2] cycloadduct is formed with N-cinnamylideneaniline. 

Chiral P-lactams prepared from a 6-imino-D-galactose derivative have been used as synthons for 6-epz-lincosamine. ... 

Pharmaceuticals. -Hydroxybenzaldehyde is often a convenient intermediate in the manufacture of pharmaceuticals (qv). For example, 2-(p-hydroxyphenyl)glycine can be prepared in a two-step synthesis starting with -hydroxybenzaldehyde (86). This amino acid is an important commercial intermediate in the preparation of the semisynthetic penicillin, amoxicillin (see ANTIBIOTICS, P-LACTAMs). Many cephalosporin-type antibiotics can be made by this route as well (87). The antiemetic trimethobenzamide [138-56-7] is convenientiy prepared from -hydroxybenzaldehyde (88) (see Gastrointestinal agents). 

Lead sesquioxide is used as an oxidation catalyst for carbon monoxide ia exhaust gases (44,45) (see Exhaust control), as a catalyst for the preparation of lactams (46) (see Antibiotics, P-lactams), ia the manufacture of high purity diamonds (47) (see Carbon, diamond-natural), ia fireproofing compositions for poly(ethylene terephthalate) plastics (48), ia radiation detectors for x-rays and nuclear particles (49), and ia vulcanization accelerators for neoprene mbber (50). 

The cost of 6-APA, ampicillin, and amoxicillin is invariably linked to that of penicillin G. 6-APA remains one of the cheapest raw starting materials available for the preparation of semisynthetic penicillins and other related P-lactam antibiotics. 

The preparation of isothiazolidin-3-one 5-oxide and 5,5-dioxide derivatives of azetidin-3-ones was described (99EUP100069), starting from penicillanic acid sulfoxide amides in the presence of halogenating agents in anhydrous inert solvents or even without them. Through rearrangement and oxidation with conventional methods, compounds 73 could be obtained. For some derivatives the usefulness, as intermediates for the preparation of novel p-lactam analogs or active substances in formulations for antimicrobial therapy, is claimed. 

In the relatively few years since the preparation of the previous volume in this series, the explosion of synthetic and clinical experimentation on the semi and totally synthetic antibacterial p-lactam antibiotics has continued, providing a rich body of literature from which to assemble this chapter. The search for utopiasporin, the perfect cephalosporin, continues. The improvements in. spectrum and clinical properties achieved to date, however, are largely incremental and have been achieved at the price of substantially higher costs to the patient. Nonetheless, these newer compounds are truly remarkable when compared with the properties of the fermentation-derived substances from which they have sprung. 

Hydroxy-L-prolin is converted into a 2-methoxypyrrolidine. This can be used as a valuable chiral building block to prepare optically active 2-substituted pyrrolidines (2-allyl, 2-cyano, 2-phosphono) with different nucleophiles and employing TiQ as Lewis acid (Eq. 21) [286]. Using these latent A -acylimmonium cations (Eq. 22) [287] (Table 9, No. 31), 2-(pyrimidin-l-yl)-2-amino acids [288], and 5-fluorouracil derivatives [289] have been prepared. For the synthesis of p-lactams a 4-acetoxyazetidinone, prepared by non-Kolbe electrolysis of the corresponding 4-carboxy derivative (Eq. 23) [290], proved to be a valuable intermediate. 0-Benzoylated a-hydroxyacetic acids are decarboxylated in methanol to mixed acylals [291]. By reaction of the intermediate cation, with the carboxylic acid used as precursor, esters are obtained in acetonitrile (Eq. 24) [292] and surprisingly also in methanol as solvent (Table 9, No. 32). Hydroxy compounds are formed by decarboxylation in water or in dimethyl sulfoxide (Table 9, Nos. 34, 35). 

Like the similar cycloaddition of ketenes to alkenes (15-61), most of these reactions probably take place by the di-ionic mechanism c (p. 1078). P-Lactams have also been prepared in the opposite manner by the addition of enamines to isocyanates ... 

As mentioned earlier in this chapter, penicillins are very unstable in aqueous solution by virtue of hydrolysis of the p-lactam ring. A successful method of stabilizing penicillins in liquid dosage forms is to prepare their insoluble salts and formulate them in suspensions. The reduced solubility of the drug in a suspension decreases the amount of drug available for hydrolysis. An example of improved stability of a... 

It should be mentioned that the Passerini reaction has also been used by Marcac-cini s group to prepare p-lactams [24], oxazoles [25], and furanes [26]. Natural products have also been accessed using this procedure as one of the key steps. The syntheses of azinomycin by Armstrong [27] and eurystatin A by Schmidt [28] represent two good examples of this procedure. 

P-Lactams have been used as a synthon for the preparation of a vast array of compounds. It has been reported that the reduction of 4-(haloalkyl)azetidin-2-ones with LiAlhL is a powerful method for the synthesis of stereodefined aziridines and azetidines <06OL1101>. However, reduction of 4-(haloalkyl)azetidin-2-ones with chloroalane afforded 2-(haloalkyl)azetidines, which were rearranged to 3,4-cw-disubstituted pyrrolidines and piperidines 32 <060L1105>. During these rearrangements, bicyclic azetidinium intermediates were formed which were ring opened by halides. The synthesis of a peptide-... 

The Baylis-Hillman reaction of TV-protected 3-substituted 4-formylazetidin-2-ones with methyl vinyl ketone has been used to prepare intermediates from which highly functionalised P-lactams fused to medium rings were obtained by radical, stereocontrolled methods <99CC1913>. 

Bromolactamization (11, 76). This reaction can be used for stereoselective preparation of 3,4-disubstituted 3-lactams.1 Thus the P,-y-unsaturated hydroxamic acid 1, prepared in several steps from tiglic acid, on reaction with bromine and K2C03 in aqueous CH,CN cyclizes mainly to a rrans-p-lactam (2). In contrast, the protected a-amino-p,y-unsaturated hydroxamic acid 3, prepared in several steps from L-methionine, cyclizes on reaction with bromine mainly to a ris-p-lactam (4). 

P-Lactams. Diketene can function as an equivalent to acetylketene, CH3C0CH=C=0, to provide 3-acetyl-p-lactams by [2 + 2]cycloaddition with imines.1 A stereoselective cycloaddition of this type can furnish a useful precursor (2) to lp-methylcarbapenems. Thus reaction of diketene with the chiral imine 1, prepared in a few steps from the readily available methyl (S)-3-hydroxy-2-meth-ylpropionate (Aldrich), can provide the desired 3,4-frpreviously developed for synthesis of the antibacterial carbapenem 4. 

The previously reported preparations of N-benzyl-2,3-azetidinedione involve either high-pressure lactamization with carbon monoxide and lead(ll) acetate, Pd(OAc)2, in the presence of triphenylphosphine,2 or construction of the p-lactam from an isoxazolidine precursor.3 The present approach uses the readily available methyl... 

An interesting preparation of alkyl carboxylates in high yield (Table 3.14) from the sodium salt of the carboxylic acids under mild phase-transfer catalytic conditions involves their reaction with alkyl chlorosulphate [50] and has been used with success in the preparation of alkyl esters derived from p-lactam antibiotics. The procedure is also excellent for the production of chloromethyl esters, particularly where the carboxylic acids will not withstand the classical Lewis acid-catalysed procedure using an acid chloride and formaldehyde, or where the use of iodochloromethane [51] results in the formation of the bis(acyloxy)methane. The procedure has been applied with some success to the synthesis of chloromethyl A-protected a-amino carboxylates [52],... 

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