Isocyanates lactams

Monocyclic /3-lactams undergo thermolysis or photolysis to give alkenes and isocyanates or ketenes and imines depending on the substitution pattern (75S547 p. 586). Apparently, thermolysis favours the former pathway while photolysis favours the latter (68CB2669). 

Other isocyanates undergo [2 + 2] cycloaddition, but only with very electron rich alkenes. Thus phenyl isocyanate gives /3-lactams with ketene acetals and tetramethoxyethylene. With enamines, unstable /3-lactams are formed if the enamine has a /3-H atom, ring opened amides are produced 2 1 adducts are also found. Photochemical addition of cis- and traH5-stilbene to phenyl isocyanate has also been reported (72CC362). 

AT-Unsubstituted azetidin-2-ones are versatile intermediates in the preparation of a variety of novel /3-lactam containing systems. They are usually made either by reductive dechlorosulfonylation of alkene/chlorosulfonyl isocyanate cycloadducts cf. Section 5.09.3.3.2), which... 

A third approach to 3-amino-/3-lactams is by Curtius rearrangement of the corresponding acyl azides. These are readily prepared from r-butyl carbazides, available via photochemical ring contraction of 3-diazopyrrolidine-2,4-diones in the presence of f-butyl carbazate (c/. Section 5.09.3.3.2). Thus treatment of (201) with trifluoroacetic acid followed by diazotiz-ation gives the acyl azide (202) which, in thermolysis in benzene and subsequent interception of the resulting isocyanate with r-butanol, yields the protected 3-amino-/3-lactam (203) (73JCS(P1)2907). 

From 0-lactam-4-sulfenic acids Thioketene + isocyanate... 

The reaction of isocyanates with enamines disubstituted at the -carbon gives -amino- -lactams (107,108). Thus the enamine (16) reacted exothermally with phenylisocyanate to give (33) dimethyl-l-phenyl-4-dimethylamino-2-acetidinone (157), which was converted by acid hydrolysis to 2-formyl-2-methyl propionanilide (158). 

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

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... 

Substituted azocine systems are much more stable than the parent compound, and 2-methoxy derivatives have been intensively examined. Starting from cyclohexa-1,4-diene (3), a [2 + 2] cycloaddition with chlorosulfonyl isocyanate, followed by removal of the chlorosulfonyl group, leads to the /3-lactam 4, which can be transformed by O-methylation with Meerwein s salt into the corresponding imidate. Monobromination with A-bromosuccinimide and subsequent treatment with base results in a methoxyazabicyclo[4.2.0]octatriene derivative, which spontaneously isomerizes to 2-methoxyazocine (5).13,14... 

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 ... 

The reactive compound chlorosulfonyl isocyanate (ClSOaNCO, forms P-lactams even with unactivated alkenes, as well as with imines, allenes, conjugated dienes, and cyclopropenes. With microwave irradiation, alkyl isocyanates also... 

Furthermore, Schaumann s group has described thatlithiated silylthioacetals react not only with epoxides, but also with co-bromoalkyl isocyanates to give lactams [270]. 

In a similar way to the above, azidopropenoylfuro[3,2- ]pyrroles such as 27 can be thermolyzed in a mixture of diphenyl ether and tributylamine to give the 8-oxo-7,8-dihydropyrrolo[2, 3 4,5]furo[3,2-r]pyridines 28, again via the intermediate isocyanates. The lactam 28 can be chlorinated and reduced using standard methods (POCI3 then Zn/AcOH) to give the pyrrolo[2, 3 4,5]furo[3,2-r]pyridines 29 <1995M753> (Scheme 8). 

Transesterification from thioesters to esters188 or amides189,190 (lactams) are conducted by Cu1- or CuII-based Lewis acids (Scheme 45). Addition of alcohols to isocyanates is accelerated by CuCl.191... 

Simple allenes can also react with chlorosulfonyl isocyanate (CSI) to afford a-alky-lidene-/l-lactams 8 and 2-carboxamido-l,3-butadienes 9 [8],... 

Allenes react with isocyanates to give the a-alkylidene-/Mactams. The highly reactive chlorosulfonyl isocyanate (CSI) is often used. Initial nucleophilic attack of the central allenic carbon atom to the central isocyano carbon atom produces an allylic cation intermediate, which cyclizes to the /i-lactam. 

Sulfuryl chloride isocyanate with 1 gave the expected )5-lactam 177 only as a minor product, the principal product being the y-lactam derivative 178. It is reasonable to assume that the 1,4-zwitterionic intermediate 176 is responsible for the formation of 177 and 178 (Scheme 39) [104,130]. Sulfonation of 1 with SO3 also proceeds with ring opening of one of the cyclopropyl groups to give quantitatively the spirocyclopropane-y-sultone 179 (Scheme 39) [76,132]. 

The synthesis of thieno[3,2-c]benzazepine derivative 106b has been reported by Friedel-Crafts intramolecular cyclization of isocyanates 105 (Equation (15) (2002S355)). Noteworthy, lactam 106b is formed in 51% yield, while dione 106a can not be obtained due to the electron-withdrawing effect of the carbonyl group. 

Unstable enamine 274 could be stabilized by the formation of carboxani-lide 275 (61TH1). Such a reactivity against isocyanates is known from pyiidonemethides and other enamines (see, e.g., 24CB522, 78T2537). The formation of tetrabromide 347 serves to determine the structure of lactam 216a (04CEJ3286). 

The hydroxamate anion 566 is invoked as intermediate in the formation of urea 568 from the iV-tosylated /3-lactam 564 by a Lossen rearrangement in the presence of a secondary amine 565 (equation 252). Apparently, attack of amine in an S/v2 fashion at the C(4) carbon of the /3-lactam 564 opened the ring to form hydroxamate anion 566, which then initiated a facile Lossen rearrangement to isocyanate 567 trapped with another molecule of base to give 568. 

Monosubstituted-5(4//)-oxazolones behave differently upon reaction with imines. Here, 4-methyl-2-phenyl-5(4/7)-oxazolone 196 (Ri = Ph, R2 = Me) reacts with imines derived from 2-furancarboxaldehyde or 2-thiophenecarboxaldehyde to give 3-amino-p-lactams 197. On the other hand, 196 reacts with chlorosul-fonyl isocyanate in a [2 + 2] cycloaddition to give dioxazabicycloheptanones 198 as shown in Scheme 7.60. ... 

Most of the work reported in the literature employs sodium lactamate salt as catalyst and isocyanate/lactam adducts as initiator. Gabbert and Hedrick [14] preferred to work with acyllactam as the initiator and Grignard salts of caprolactam as the catalyst in view of their ease of handling and fewer side reactions compared with the sodium lactamate and isocyanate system. 

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