Lactams 2+2 cycloaddition synthesis

Scheme 142. Hetero-[3+1]-Cycloaddition Synthesis of / -Lactones and / -Lactams by the Carbonylation of Three-Membered Heterocycles...

A few typical examples indicate the large variety of five-membered heterocycles, which can be synthesized efficiently by [2 + 3]-cycloadditions. [2 + 2]-Cycloadditions are useful in the synthesis of certain four-membered heterocycles (H. Ulrich, 1967), e.g. of 8-lactams (J.R. 

Other approaches to (36) make use of (37, R = CH ) and reaction with a tributylstannyl allene (60) or 3-siloxypentadiene (61). A chemicoen2ymatic synthesis for both thienamycia (2) and 1 -methyl analogues starts from the chiral monoester (38), derived by enzymatic hydrolysis of the dimethyl ester, and proceeding by way of the P-lactam (39, R = H or CH ) (62,63). (3)-Methyl-3-hydroxy-2-methylpropanoate [80657-57-4] (40), C H qO, has also been used as starting material for (36) (64), whereas 1,3-dipolar cycloaddition of a chiral nitrone with a crotonate ester affords the oxa2ohdine (41) which again can be converted to a suitable P-lactam precursor (65). 

Asymmetric synthesis of 3-amino (3-lactams via Staudinger ketene-imine cycloaddition reaction 98KGS1448. 

Stereocontrolled synthesis of oxabicyclic (3-lactam antibiotics via [2- -2] cycloaddition of isocyanates to sugar vinyl ethers 96CC2689. 

Whereas there are numerous examples of the application of the products from diastereoselective 1,3-dipolar cycloaddition reaction in synthesis [7, 8], there are only very few examples on the application of the products from metal-catalyzed asymmetric 1,3-dipolar cycloaddition reaction in the synthesis of potential target molecules. The reason for this may be due to the fact that most metal-catalyzed asymmetric 1,3-dipolar cycloaddition reaction have been carried out on model systems that have not been optimized for further derivatization. One exception of this is the synthesis of a / -lactam by Kobayashi and Kawamura [84]. The isoxazoli-dine endo-21h, which was obtained in 96% ee from the Yb(OTf)3-BINOL-catalyzed... 

Reductive ring opening of the [i-lactam 10 (X = O), obtained by [2 + 2] cycloaddition of chloro-sulfonyl isocyanate and tetraphenylcyclopentadiene followed by treatment with /7-cresol, with sodium hydride in anhydrous tetrahydrofuran yields 3,5,6,7-tetraphenyl-2//-azepin-2-one (11, X = O).41 Surprisingly, similar treatment of the reduced /Mactam 10 (X = H2) is reported to yield 3,5,6,7-letraphenyl-2//-azepine (11, X = H2), the first monocyclic 277-azepine to be isolated and characterized. Physical data for this compound, however, are inconclusive and attempts to reproduce this synthesis have failed.291... 

Dipolar cycloaddition of azides with olefins provides a convenient access to triazolines, cyclic imines, and aziridines and hence is a valuable technique in heterocyclic synthesis. For instance, tricyclic -lactams 273 - 276 have been synthesized using the intramolecular azide-olefin cycloaddition (lAOC) methodology (Scheme 30) [71]. 

Berlin JM, Eu GC (2008) Enantioselective nucleophilic catalysis the synthesis of Aza-P-lactams through [2 -I- 2] cycloadditions of ketenes with azo compounds. Angew Chem Int Ed 120 7156-7158... 

Recent research deals with stereoselective 1,3-dipolar cycloadditions of nitrones for the syntheses of alkaloids and aza heterocycles asymmetric synthesis of biologically active compounds such as glycosidase inhibitors, sugar mimetics, /3-lactams, and amino acids synthesis of peptido-mimetics and peptides chemistry of spirocyclopropane heterocycles synthesis of organic materials for molecular recognition and photochemical applications. 

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. 

Synthesis of p-lactam antibiotics from sugars (either as chiral auxiliary or chiron), describing the general methodology developed in 1990s by Chmielewski and based on [2 + 2] cycloaddition of isothiocyanides to sugar olefins, was also comprehensively reviewed.5... 

Dideoxyhex-2-enono-1,5-lactone derivatives (penten-5-olides) have been prepared (255-258) and employed as starting compounds in synthesis. Thus, Michael addition of benzylhydroxylamine to racemic 6-0-acetyl-2,3,4-trideoxy-D,L-g/ycerohex-2-enono-1,5-lactone (267) took place ster-eoselectively to give the unstable benzyloxyamino-2-pyrone 268, which was readily converted into the /Mactam derivative 269, a precursor of thienamy-cin (259). / -Lactams were also obtained (260) by 1,3-dipolar cycloaddition of nitrone 270 to the unsaturated 1,5-lactone 267, followed by hydrogenoly-sis and subsequent cyclization to the /Mactam 271, having a polyol side-chain at the C-3 position. 

The continued importance of 3-lactam ring systems in medicine has encouraged a number of research groups to investigate their synthesis via a nitrone cycloaddition protocol. Kametani et al. (60-62) reported the preparation of advanced intermediates of penems and carbapenems including (+)-thienamycin (29) and its enantiomer (Scheme 1.7). They prepared the chiral nitrone 30 from (—)-menthyl... 

Cycloaddition to endocyclic unsaturation has been used by many researchers for the preparation of isoxazoUdinyl adducts with y-lactams derived from pyrogluta-minol and is discussed later in this chapter as a synthesis of unusual amino acids (Scheme 1.20, Section 1.6) (79,80). A related a,p-unsaturated lactam has been prepared by a nitrone cycloaddition route in the total synthesis of the fungal metabolite leptosphaerin (81). A report of lactam synthesis from acyclic starting materials is given in the work of Chiacchio et al. (82) who prepared isoxazolidine (47) via an intramolecular nitrone cycloaddition reaction (Scheme 1.11). 

Keshava et al. (10) reported a facile synthesis of the fused tricyclic (3-lactams 44 and 45 via an intramolecular 1,3-dipolar cycloaddition of an azide with an alkene (Scheme 9.10). 1,3-Dipolar cycloaddition of the azides 43 in benzene at reflux gave a mixture of cis and trans tricyclic (3-lactams 44 and 45. As the ring size increased... 

De Kimpe and Boeykens (22) reported synthesis of the p-lactam derivatives 107 via cycloaddition of azides with 2-methyleneazetidines (104) (Scheme 9.22). Because of electronic control, the intermolecular cycloaddition of the azide with the enamine double bond resulted in the formation of the triazoline intermediate 105, ring opening and rearrangement of which gave the imino lactam 107. Although all attempts to convert compound 107 to the corresponding p-lactam 108 under acidic conditions were unsuccessful, under basic conditions compound 107 was converted into the p-amino amides 109. 

Sha et al. (45) reported an intramolecular cycloaddition of an alkyl azide with an enone in an approach to a cephalotaxine analogue (Scheme 9.45). Treatment of the bromide 205 with NaN3 in refluxing methanol enabled the isolation of compounds 213 and 214 in 24 and 63% yields, respectively. The azide intermediate 206 underwent 1,3-dipolar cycloaddition to produce the unstable triazoline 207. On thermolysis of 207 coupled with rearrangement and extrusion of nitrogen, compounds 213 and 214 were formed. The lactam 214 was subsequently converted to the tert-butoxycarbonyl (t-Boc)-protected sprrocyclic amine 215. The exocyclic double bond in compound 215 was cleaved by ozonolysis to give the spirocyclic ketone 216, which was used for the synthesis of the cephalotaxine analogue 217. 

Kobayashi and Kawamura (374) used the catalytic enantioselective 1,3-dipolar cycloaddition for the synthesis of an optically active p-lactam (Scheme 12.85). The... 

Reviews including aspects of P-lactam chemistry are ketene-imine cycloaddition reactions <98CHE1222>, radical cyclization processes <98MI169>, combinatorial synthesis <98AJC875>, electrophilic cyclization of unsaturated amides <98T13681> and theoretical studies on the synthesis of P-lactams <98MI245>. 

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