Azetidinone 3-substitution

Lactams substituted only in the 3 position cannot be prepared by the present procedure, since the lactam formed has the nitrogen of the chlorosulfonyl isocyanate attached to the more highly substituted carbon atom of the olefinic double bond in Markownikoff fashion. 2-Azetidinones substituted in the 3 position only have been prepared by Grignard reagent-catalyzed cyclizations of esters of appropriately substituted /3-amino acids.4,5... 

Extension of the Phosphorane Route. Ample evidence of the versatihty of the phosphorane synthesis strategy is provided by the proliferation of penems that followed. Nucleophilic displacement of the acetate function of the acetoxy-azetidinone (51, R = OCOCH ) [28562-53-0] (86) provided azetidinones where R = SCOCH, SCSSC2H, and SCSOC2H, which on elaboration gave the penems (52, R = CH ) (87), (52, R = SC2H ) (88), (52, R = 0C2H ) (89). Similar treatment of 3-substituted (or disubstituted) acetoxyazetidinones allowed the synthesis of a number of 2-substituted- 6-alkyl-and 6,6-dialkylpenems (90). 

Interesting developments in simple azetidine chemistry continue to be reported. The apparently general acetylative dealkylation of Af-tert-butyl-3-substituted azetidines 6 (R = Bu ) in the presence of boron trifluoride provides a two-step route to azabicyclobutane 7 from 6 (R = Bu, R = Cl). An aqueous solution of 7 reacts with ethyl chloroformate to give 8. Relatively unexplored 3-azetidinones 9 (R = Ac or NO2) are available from 3-acetoxya2Ktidine 6 (R = Ac, R = OAc) which is obtained by acetylative dealkyation of 6 (R = Bu , R = OAc) <96JOC5453>. 3-Substituted azetidines can be utilized in the synthesis of polyfunctional y- and S-aminophosphonic acid derivatives <95TL9201>. 

The p-thiolactams 50 are obtained by the action of Lawesson s or Davy s reagent on 3-substituted 1-methoxy- or 1-benzyloxy-azetidinones followed by reductive N-deprotection. The simple P-thiolactam can be modified to give the thiolactam analogues of monobactams <96LA141>. 

Z = C02iBu, C02C6Hi3,C02(CH2)3C02IBu, C02(CH2)3C02H, or OCH3 FIGURE 11.14 Structure of ring-substituted azetidinones 26. 

With a 3,3-heterodihalogeno substitution of the (3-lactam ring, a selective interaction of each enantiomer of the chiral azetidinone with the enzyme active site is expected. The enantiomer 3R of the 3F, 3Br derivative indeed has a more favorable kinetic parameter k-JK, than the enantiomer 3S.33 The partition ratio kCA /kt (=k3/k4, Eq. 11.1) for the inactivation is also higher. Therefore, enantiomer 3R is a better suicide substrate for HLE since a lower partition ratio corresponds to abetter suicide substrate.20... 

Reactions of carbenoids with 4-thio-substituted 2-azetidinones have attracted much interest recently. Insertion of the carbene unit derived from diazomalonic esters 297-34°> or ethyl diazo(diethoxyphosphoryl)acetate 340 into the C4—S bond of simple P-lactams 353 and 354 took place irrespective of whether a N—H or a N—R... 

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. 

Lactams are named in several ways. They are named as alkanolactams by the IUPAC substitutive system, such as 3-propanolactam, 4-butanolactam, 5-pentanolactam, and 6-hexano-lactam, respectively, for the 4-, 5-, 6-, and 7-membered rings, respectively. An alternate IUPAC method, the specialist heterocyclic nomenclature system, names these lactams as 2-azetidinone, 2-pyrrolidinone, 2-piperidinone, and hexahydro-2f/-azepi n-2-one, respectively. These lactams are also known by the trivial names fl-propiolactam, a-pyrrolidone (y-butyrolactam), a-piperidone (8-valerolactam), and e-caprolactam, respectively. 

Reformatsky reactions of Af-(2-bromoalkanoyl)-l,3-benzoxazin-4-ones 267 and 272 and imines derived from aniline or /)-substituted anilines gave fra j -/3-lactams 273 with complete diastereoselectivity, and the l,3-benzoxazin-4-one auxiliary 269 could also be recycled. However, in the similar transformations of imines containing an o-methoxyphenyl substituent on the nitrogen, no cyclization to azetidinone occurred and /r -/3-aminocarboxamide derivatives 274 were the only products formed (Scheme 51) <2005S725>. 

Another approach employing chiral acyclic azomethine ylides was published in two recent papers by Alcaide et al. (85,86). The azomethine ylide-silver complex (51) was formed in situ by reaction of the formyl-substituted chiral azetidinone (50) with glycine (or alanine) in the presence of AgOTf and a base (Scheme 12.18). Azomethine ylides formed in this manner were subjected to reaction with various electron-deficient alkenes. One example of this is the reaction with nitrostyrene, as illustrated in Scheme 12.18 (86). The reaction is proposed to proceed via a two step tandem Michael-Henry process in which the products 52a and 52b are isolated in a... 

Indium mediated allylation of 4-acetoxy-2-azetidinones gave the products 57 in high yield <99SL447> and similar reactions with azetidin-2,3-diones gave 3-substituted 3-hydroxy-P-lactams 58 <98H97>. 

Azetidinones (682) can be converted by treatment with trifluoroacetic acid into dihy-droquinol-4-ones should the iV-aryl group carry a meta-substituent mixtures of 5- or 7-substituted dihydroquinolones are obtained (76H(4)1649, 80JCS(P1)2105). Diketene, with hydroxylamines, gives 3-acetyl-6-hydroxy-l-oxypyrid-2-ones (683) (71YZ772, 72CPB1368). 

Reduction of hydroxamic acids. Buffered TiC lj can reduce simple hydroxamic acids (equation I). Yields are high when R1 is an alkyl group when it is hydrogen, aldehydes are obtained as by-products. The reagent also reduces substituted N-hydroxy-2-azetidinones to /Mactams (equation 11). 

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. 

Azetidinones are also formed on photolysis of cis-a-phenyl-cinnamanilide (361), but in addition a small quantity of a cis-trans mixture of 3,4-diphenyl-3,4-dihydroquinolin-2-one (362) was obtained. The yield of quinolinone was considerably increased in the photocyclization of alkyl-substituted acrylanilides.389 The anilide (363) of tiglic acid, for example, was converted into the anilide (364) of angelic acid by photochemical cis-trans isomerism, and into a mixture of cis- and [Pg.103]

Kidwai, M., Kumar, P., Goel, Y. and Kumar, K., Microwave assisted synthesis of 5-methyl- 1,3,4-thiadiazol-2-ylthio/tetrazol-l-yl substituted pyrazoles, 2-azetidinones, 4-thiazolidinones, benzopyran-2-ones and 1,3,4-oxadiazoles, Indian. J. Chem., Sect. B, 1997, 36, 281. 

This procedure illustrates a general method for preparing aliphatic and, in certain cases, aromatic /3-lactarns containing a free NH group and substituted in either the 4 position or in both the-3 and 4 positions of the 2-azetidinone ring. The major byproduct of the cycloaddition step is a /3,7-unsaturated carbox-amide-N-sulfonyl chloride which, in the case of certain aromatic olefins, may predominate. Reactions of both /3-lactam-N-sulfonyl chlorides and the /3,y-unsaturated carboxamide-N-sulfonyl chlorides have been tabulated.3... 

A family of novel (3-lactam antibiotics based on /V-methyltio substituted 2-azetidinones have also shown the apoptosis-inducing properties against human solid tumor cell lines such as breast, prostate, and head-and-neck [44]. 

Scheme 17 Solid phase synyhesis of 3,4-substituted azetidinones...

In 2000, a route to novel C-3 substituted 2-azetidinones (I, Fig. 3) has been reported involving a reaction of a (3-lactam carbocation equivalent with active aromatic nucleophiles in the presence of a Lewis acid [245]. 

Starting from substituted 2-azetidinones, a family of tribactams (II, Fig. 7) has been reported to be prepared by using two main steps an intramolecular metathesis reaction and a Diels-Alder cyclization [258],... 

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