Azetidinones 3-acyl

Treatment of N-benzoyl-L-alanine with oxalyl chloride, followed by methanolic triethylamine, yields methyl 4-methyl-2-phenyloxazole-5-carboxylate 32 <95CC2335>. a-Keto imidoyl chlorides, obtained from acyl chlorides and ethyl isocyanoacetate, cyclise to 5-ethoxyoxazoles by the action of triethylamine (e.g.. Scheme 8) <96SC1149>. The azetidinone 33 is converted into the oxazole 34 when heated with sodium azide and titanium chloride in acetonitrile <95JHC1409>. Another unusual reaction is the cyclisation of compound 35 to the oxazole 36 on sequential treatment with trifluoroacetic anhydride and methanol <95JFC(75)221>. 

This asymmetric alkylation of cyclic acylimines can provide optically active precursors to carbapenems.2 Thus reaction of the 4-acetoxy-2-azetidinone 5 with the chiral 3-acyl-(4S)-ethyl-l,3-thiazolidine-2-thione 6 provides the substituted aze-tidinone 7, an intermediate in a total synthesis of (- )-l-(3-methylcarbapenem. 

Density functional theory calculations (B3LYP/6-31G level) have provided an explanation for the stereodivergent outcome of the Staudinger reaction between acyl chlorides and imines to form 2-azetidinones (/3-lactams). When ketene is formed prior to cycloaddition, preferential or exclusive formation of ct5-j6-lactam (50) is predicted. If, however, the imine reacts directly with the acid chloride, the step that determines the stereochemical outcome is an intramolecular 5n2 displacement, and preferential or exclusive formation of trans isomer (51) is predicted. These predictions agree well with the experimental evidence regarding the stereochemical outcome for various reactants and reaction conditions. 

Two equivalents of the tertiary amine base are required, and a significant improvement in the diastereoselectivity was observed with TMEDA over DIPEA. Purification and further enrichment of the desired RRR isomer to >98% ee was achieved by crystallization. Oxidative removal of the chiral auxiliary followed by carbodiimide mediated amide formation provides (3-keto carboxamide 14 in good yield. Activation of the benzylic hydroxyl via PPha/DEAD, acylation, or phosphorylation, effects 2-azetidinone ring-closure with inversion of stereochemistry at the C4 position. Unfortunately, final purification could not be effected by crystallization and the side products and or residual reagents could only be removed by careful chromatography on silica. 

Acyl-l,3-oxazolidine-2-thiones, chiral (1). Nagao and co-workers1 have prepared the chiral 3-acetyl-l,3-oxazolidine-2-thiones (la and lb) and used them to effect diastereoselective aldol reactions. The two chiral auxiliaries show, as expected, opposite diastereoselectivities, but contrast with the diastereoselectivities observed with chiral 4-alkyl-2-oxazolidones (11, 379-381). This aldol reaction has been used to prepare the chiral azetidinone 4 (equation I) and (-I- )-Prelog-Djerassi lactone. 

Carbacephalosporins The ketene-imine cyclization described above has been extended to a synthesis of a chiral carbacepham (4). This synthesis uses a dihy-droanisole group as the equivalent of a p-keto ester. Thus the azetidinone 1, obtained in 80% yield by the above route, was reduced and acylated in situ to provide 2. Ozonization followed by a rhodium-catalyzed cyclization of an a-diazo-P-keto ester provides 3, which is a useful intermediate to various substituted car-bacephams such as 4. 

Chlorocyanoacetyl chloride can be made from the extremely hygroscopic acid. It is quite unstable, with 1 g decomposing in 1 hr at room temperature. If a mixture of an imine and triethylamine is treated with the acyl chloride only a dark tar is obtained. However, if the acyl chloride is first treated with the imine, the reaction allowed to subside, and the mixture then treated with triethylamine, the resulting 2-azetidinone is... 

Two mechanisms (i.e. direct hydrolysis and alternatively a path via an unstable acyl phosphate intermediate) are involved in the hydrolysis in phosphate buffer of N-arylsulfonyl / -lactams such as (130).107 The acyl phosphate intermediate can be trapped with hydrazine. The alkaline hydrolysis of some torsionally distorted lactams, i.e. the bridged benz[rfe]isoquinolin-l-ones (131), in 70% (v/v) DMSO-water has been compared under the same conditions with the hydrolysis of AvA-dimethyl-1 -naphthamide (132). The relative rates of reaction and activation parameters indicate the effect of torsional distortion.108 The reaction of the tricyclic azetidinones (133) with trifluoroacetic acid gives the bicyclic thioesters (135). The mechanism may involve acid-catalysed elimination of methanethiol to give an azetinone intermediate (134) which, after nucleophilic attack of the thiol, is converted into (135).109... 

Burnett and coworkers have described the synthesis of a very potent class of cholesterol absorption inhibitors (CAI) typified by the original lead compound in this series the compound I showed in Fig. 42 (SCH 48461). This 2-azetidinone has resulted as an effective inhibitor of cholesterol absorption in a cholesterol-fed hamster model [9]. Subsequently, the same molecule has been shown to reduce serum cholesterol in human clinical trials [382]. Although this class of compounds has been initially designed as acyl coenzyme A cholesterol transferases (ACAT) inhibitors, early structure-activity studies demonstrated a striking divergence of in vitro ACAT inhibition and in vivo activity in the cholesterol-fed hamster. A detailed examination of this molecule indicated that the hypocholesterolemic... 

The obtained results have shown that the trisubstituted (3-lactams a-e of Fig. 50 exhibited some antiviral activity, slightly higher than that reported for the prototype 2-azetidinone la of Fig. 49. No appreciable influence of the absolute configuration, either at the C4 or at the 1-phenylethyl substituent, on the inhibition of viral replication, was observed. The presence of an aromatic group at the 1-acyl... 

Use of 2-azetidinones as building blocks in organic synthesis is now well established. However, cephalosporins have rarely been used as intermediates for the synthesis of non-/3-lactam products. Cephalosporins with an ct-amino group on the 7-/3-acyl substituent, cefaclor 11 and cephalexine 12, have been aminolyzed and the initial, unstable... 

The products arising from cleavage of the azetidinone ring of bioactive penems are of particular interest in the comprehension of an acyl-enzyme complex formation with the target enzymes (see Section 2.03.6.2). 

Sulopenem (CP-70429 see Tables 1 and 7) has been prepared via this reaction as the key step (G=0/C=S reductive coupling). The total synthesis utilizes L-aspartic acid to generate the chiral precursor 78 of the C-2 side chain, a modified chiron 76 (X = C1) to improve the preparation of the trithiocarbonate intermediate 79, a chemoselective oxalofluoride-based azetidinone N-acylation to give 80 (a procedure that avoids sulfoxide O-acylation), and mild final deprotection conditions of hydroxyl and carboxyl functions. In particular, the chloroallyl ester 81 has been selected, owing to its smooth cleavage by a palladium-mediated transesterification procedure (Scheme 42) <1992JOC4352>. 

Other compound classes in the synthesis of which chiral 3-carbon synthons were used include sphingosine chains (32), 3-amino-2-azetidinones (33), (3,y-unsaturated-a-amino acids 34), fluorinated macrocyclic bis(indolyl) maleimides35, fluorocyclopropyl alcohols (36), l-O-phosphocholine-2-O-acyl-octadecanes and l-Ophosphocholine-2-N-acyl-octadecane (37) diacyl glycerols 38-42) and analogs of fragments of leukotriene-B4 43). 

Acylation of a side chain of enaminones is essential for some heterocyclic synthesis although the enaminone moiety is not involved directly in the reaction. The enaminone moiety is used as protecting group in Dane s salt162,163, which is employed for synthesis of 3-amino-2-azetidinones according to a method by Bose and coworkers164 (equation 110). 

Cephalosporin derivatives containing a pyrrole ring in the A -acyl chain, such as compound 8, show significant antibacterial activity, similar to that of cefalexin <2000PHA568>. l-Butyl-4-(2-phenyl-17f-indol-3-yl)-2-azetidinones of the type 9 <2004HAC494> and several new spiro indoline-based heterocycles 10 <2004BMC2483> show interesting antibacterial activity. 

Dehydration. This reagent is useful for synthesis of acyl azides from carboxylic acids, NaCN, and pyridine, with tetrabutylammomum bromide as catalyst (75-95% yield). In combination with pyridine, it effects dehydration of oximes to nitriles in 80-90% yield, P-Lactams can be prepared directly in 40-75 )t yield from carboxylic acids and imines with the reagent (1 equiv,) and triethylamine (excess). In general, a mixture of cis- and rra/j5-azetidinones is formed. 

Trifluoromethyl imines other than A-acyl imines can undergo [2 + 2] cycloadditions when the reaction partner is a ketene. With alkenes. the only product is the ene adduct.This route to /i-lactams (azetidinones) is a good alternative to the condensation with ester enolatcs however, only few examples have been reported. 

The azetidinone ring system 43 is an important structural feature of the powerful b-lactam famiUes of antibiotics and appears in many other natural products such as clavulanic acid. Free radical-based routes to this ring system are remarkable for their variety and range. Four distinct radical-based disconnections have been investigated for azetidinone preparation. Disconnection a impUes closure of a carbamoyl-type radical onto an imsaturated acceptor group. Disconnection b imphes a closure of an amidoalkyl (a-carbamoyl) radical onto an enamide acceptor. Disconnection c points to an amidyl radical ring closure onto an alkene acceptor. Finally, disconnection d connotes ring closure of an acyl radical onto an imine acceptor (Scheme 11). 

There have also been a few examples of ring expansions involving azetines. One such instance, which follows a pericyclic mechanism, is the thermolysis of 4-cyano-l-t-octyl-3-t-octylamino-2-t-octyliminoazetine (160), producing the 4-amino-5-cyanoimidazole (Scheme 89). Such azetine species have been implicated as intermediates in the photolysis of enaminonitriles to imidazoles (Section 4.08.1.1.1 Scheme 17). In strongly basic medium the azetidinone (161), which possesses a lactam group, is ring expanded to the 4H-imidazolinone (163), probably via the anionic acylic species (162 Scheme 89) <80AHC(27)241>. 

---