Lactam cyclization

There have been a number of reports where alicyclic-bridged precursors underwent an IAAC reaction. Thus, the dioxolane (203b), formed from triflate (203a), cyclized in situ to a tricyclic triazoline (Scheme 63).113 Treatment of this triazoline with sodium ethoxide converted it to a diazopyrrolidine in 86% yield, which underwent smooth catalytic hydrogenation in 89% yield. The (Z)-azidoalkene (204), bridged by a (3-lactam, cyclized at 20 °C to triazoline (205).114 The triazoline (205) extruded nitrogen at 80 C providing a tricyclic aziridine. The ( )-isomer of (204) did not cyclize to a triazoline but instead produced an azirine, presumably via a nitrene intermediate. 

Keywords Beta-lactam Cyclization reaction Enzyme inhibitor Contents... 

As with the ozonolysis route, this single-pot approach telescopes via sequential hydrogenation, dehydration, reduction, and basic lactam cyclization chemistry. Although... 

For initial laboratory investigations, a reaction concentration of 0.3-0.4 M may be a good starting point. More dilute conditions will be needed to minimize selected intermolecular reactions for some relatively slow reactions, such as 3-lactam cyclization and macrolactonization. The optimal manufacturing concentration has been described as greater than 10% [14], and should be adjusted for the process needs. 

Recently, Anteunis and Sharma [58] reported a study devoted to the lactam cyclization. Cyclization of the virginiamycin Si linear precursor into the natural product offered a special challenge. Creation of a peptidic bond between the two N-alkylamino acid residues (N-methylphenylalanine and 4-oxopipecolinic acid) - which is the most difficult peptidic bond to form - led to extensive racemiz-ation of the N-methylphenylalanine residue as the carboxy group has to be strongly activated (BOP-Cl in different conditions) during the cyclization step. 

The second one-pot cascade reaction was used to complete the synthesis of the natural product from acid 69. Reduction of the two azide groups of 69 produced the highly polar diamine 70, which was treated with EDC and HOBt to induce an intramolecular lactam cyclization and deliver the macro-palau amine 71. When the crude reaction mixture of 71 was heated in TEA, compound 72, proceeding through amidine tautomer 71, elicited the key transannular cyclization and delivered the palau amine in 17% overall yield from 69. The outcome stereochemistry was all in the control of the stereocenters within the substrate. 

P-Lactam Cyclization. Cyclization of 3-amino acids to p-lactams is efficiently effected by treatment wi th BOP (eq 8) The... 

Carbanions stabilized by phosphorus and acyl substituents have also been frequently used in sophisticated cyclization reactions under mild reaction conditions. Perhaps the most spectacular case is the formation of an ylide from the >S-lactam given below using polymeric Hflnig base (diisopropylaminomethylated polystyrene) for removal of protons. The phosphorus ylide in hot toluene then underwent an intramolecular Wlttig reaction with an acetyl-thio group to yield the extremely acid-sensitive penicillin analogue (a penem I. Ernest, 1979). 

First the protected oligopeptide is coupled with polymer-bound nitrophenol by DCC. N"-Deblocking leads then to simultaneous cycliiation and detachment of the product from the polymer (M. Fridkin, 1965). Recent work indicates that high dilution in liquid-phase cycli-zation is only necessary, if the cyclization reaction is sterically hindered. Working at low temperatures and moderate dilution with moderately activated acid derivatives is the method of choice for the formation of macrocyclic lactams (R.F. Nutt, 1980). 

Cross-linked PVP can also be obtained by cross-linking the preformed polymer chemically (with persulfates, hydrazine, or peroxides) or with actinic radiation (63). This approach requires a source of free radicals capable of hydrogen abstraction from one or another of the labile hydrogens attached alpha to the pyrrohdone carbonyl or lactam nitrogen. The subsequently formed PVP radical can combine with another such radical to form a cross-link or undergo side reactions such as scission or cyclization (64,65), thus ... 

Other interactions of /3-lactams with electrophiles include the oxidative decarboxylation of the azetidin-2-one-4-carboxylic acid (85) on treatment with LTA and pyridine (81M867), and the reaction of the azetidin-2-one-4-sulfinic acid (86) with positive halogen reagents. This affords a mixture of cis- and trans-4-halogeno-/3-lactams (87), the latter undergoing cyclization to give the bicyclic /3-lactam (88) (8UOC3568). 

The interaction of acid chlorides (167 X = Cl) with imines in the presence of bases such as triethylamine may involve prior formation of a ketene followed by cycloaddition to the imine, but in many cases it is considered to involve interaction of the imine with the acid chloride to give an immonium ion (168). This is then cyclized by deprotonation under the influence of the base. Clearly, the distinction between these routes is a rather fine one and the mechanism involved in a particular case may well depend on the reactants and the timing of mixing. Particularly important acid chlorides are azidoacetyl chloride and phthalimidoacetyl chloride, which provide access to /3-lactams with a nitrogen substituent in the 3-position as found in the penicillins and cephalosporins. 

While esters do not usually react with enamines and can, in fact, be substituents in the azeotropic preparation of enamines, they can be used in acylation reactions when these involve intramolecular cyclizations. Such reactions have been observed even at room temperature when they lead to the formation of five- and six-membered vinylogous lactams (362). Applications to precursors for azasteroids (40S) and alkaloids (309,406) are key steps in synthetic sequences. 

The formation of five- (362) and six- (581) membered vinylogous lactams and pyrroles by intramolecular enamine acylations has been accomplished in some examples by formation of the cyclization precursor through an initial enamine exchange (362). 

Ebumamonine was assembled utilizing a Pictet-Spengler cyclization of hydroxy-lactam 52 in the presence of trifluoroacetic acid at low temperature to give a mixture of diastereomers 53 in 95% yield. These compounds were readily separated by chromatography and the a-epimer was further elaborated to give the natural product. 

The interesting work of Hahn and Hansel, who prepared a tetracyclic lactam by intramolecular cyclization of the condensation product of tryptamine and a-ketoglutaric acid, is referred to in Section IV, B, 2. Condensation of tryptamine with a,a -diketopimelic acid (403) led, presumably by way of the 1-substituted tetrahydro-)S-carboline (404), which could not be isolated, to a product to which the tetracyclic structure 405 was assigned. 

Electrophilic cyclizations of unsaturated amides to form 5- and 6-member lactams 98T13681. 

Regio- and stereocontrolled radical cyclizations in syntheses of (3-lactams 97YZ973. 

Intramolecular addition of the amide group to the triple bond in pyrazoles is more difficult, and results in closure of the 5-lactam rather than the y-lactam ring. The reaction time of the 4-phenylethynylpyrazole-3-carboxylic acid amide under the same conditions is extended to 42 h (Scheme 129) (Table XXVII). The cyclization of l-methyl-4-phenylethynyl-l//-pyrazole-3-carboxylic acid amide, in which the acetylene substituent is located in the 7r-electron-rich position of the heterocycle, is the only one complete after 107 h (Scheme 130) (90IZV2089). 

In conditions of base catalysis, the acetylenylpyrazolecarboxylic acid hydrazides, as opposed to benzene derivatives, are more difficult to cyclize compared with the benzoic acid derivatives and are isomerized only after heating in alcohol in the presence of KOH, forming not five- but six-membered lactams. The yields of pyri-dopyrazoles were 80-90% (Scheme 133 Table XXVIII) (85IZV1367 85MI2). 

The first total synthesis of 87 was published in 1990 (90TL1523). 5-Hydroxyindole (88) was mesylated and then reduced with sodium cyanoborohydride to give an indoline which was brominated to afford the bromoindoline 89 in good yield (Scheme 33). Cross-coupling with ortho-formyl boronic acid under Suzuki conditions, followed by air oxidation of the resulting cyclized product, followed by reduction of the lactam formed with excess Red-Al gave the target compound 87. 

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