Keto esters cyclization

Cyclization epoxy -fceto esters. Treatment of I with BF3 etherate effects cyclization to the S,8-dioxabicyclo[3.2.1]octane 2 in higli yield. This basic skeleton had been encountered in several sex pheromones of bawk beetles such as frontalin (3), which can be synthesized readily by the -keto ester cyclization, since the carboxylic acid corresponding to 2 is readily decarboxylated when heated at 220°. ... 

Intramolecular Keto Ester Cyclizations Synthesis of Cyclanones... 

Dieckmann cyclization (Section 21 2) An intra molecular analog of the Claisen condensation Cy die p keto esters in which the ring is five to seven membered may be formed by using this reaction... 

Conra.d-Limpa.ch-KnorrSynthesis. When a P-keto ester is the carbonyl component of these pathways, two products are possible, and the regiochemistry can be optimized. Aniline reacts with ethyl acetoacetate below 100°C to form 3-anilinocrotonate (14), which is converted to 4-hydroxy-2-methylquinoline [607-67-0] by placing it in a preheated environment at 250°C. If the initial reaction takes place at 160°C, acetoacetanilide (15) forms and can be cyclized with concentrated sulfuric acid to 2-hydroxy-4-methylquinoline [607-66-9] (49). This example of kinetic vs thermodynamic control has been employed in the synthesis of many quinoline derivatives. They are useful as intermediates for the synthesis of chemotherapeutic agents (see Chemotherapeuticsanticancer). 

In a number of cases the intermediate oxime has been isolated in the reaction of hydroxylamine and /3-keto esters. The reaction of ethyl acetoacetate with hydroxylamine generated an oxime which cyclized on base treatment (Scheme 144) (70MI41600). Likewise, treatment of an analogous amide with hydroxylamine generated a ring opened material which cyclized on treatment with HCl (Scheme 144) (67T831). The presence of a minor contaminant in the standard reaction of ethyl acetoacetate with hydroxylamine was discovered and identified as an isomeric isoxazolin-3-one. The mechanism of product formation has been discussed (70BSF2685). 

At the end of the nineteenth century, Claisen described the cyclization of P-keto esters with hydroxylamine to provide 3-hydroxyisoxazoles. Substituents Ri and R2 in the P-keto ester make it possible to introduce substituents in the 4- and 5-position of the heterocyclic ring. 

The proposed mechanism for the Conrad-Limpach reaction is shown below. Condensation of an aniline with a 3-keto-ester (i.e., ethyl acetoacetate 5) with loss of water provides enamino-ester 6. Enolization furnishes 10 which undergoes thermal cyclization, analogous to the Gould-Jacobs reaction, via 6n electrocyclization to yield intermediate 11. Compound 11 suffers loss of alcohol followed by tautomerization to give 4-hydroxy-2-methylquinoline 7. An alternative to the proposed formation of 10 is ejection of alcohol from 6 furnishing ketene 13, which then undergoes 671 electrocyclization to provide 12. 

Another improvement was reported by Leonard et al. in their preparation of a promising antimalarial, Endochin. The improvement was the alkylation of intermediate enamino-ester 28 by reaction with NaOEt followed by alkylation with an alkyl bromide, rather than forming 29 by reaction of 27 and a suitable P-keto-ester. This provided the important intermediate 29 required for cyclization to Endochin (30). Endochin was first reported by German scientists but was not publicly disclosed until the Department of Commerce made this information available after World War II.Leonard was able to improve upon the chemistry reported by Andersag and Salzer in 1940 and isolated Endochin in 40% overall yield from m-anisidine (27). 

The Conrad-Limpach reaction has been applied as a key step in the formation of pyrido[4,3-b]quinoline. Condensation of 3 different anilines 55 (R = H, Br, OMe) with keto-ester 56 provided the enamino-esters 57 in acceptable yields. Cyclization gave the desired quinolones 58 in good to moderate yield. ... 

The Knorr quinoline synthesis has been nicely extended by Hodgkinson and Staskun to include P-ketoesters that do not have protons at the 2 position of the starting keto-ester. 2,2 -dichloroanilides of type 14 can cyclize to provide quinolines such as 15 and 16 in good respective yields. ... 

In a modified approach, the carbolinyl acetate 393 underwent a Mannich reaction with formaldehyde and acetone to give the keto ester 396 which, with base, cyclized to the diketone 397. This diketone (397) has recently been used to prepare a number of interesting pentacyclic compounds. 

Katritzky and co-workers studied the mechanism of this reaction in detail. His work involved a NMR study of 16 reactions of methyl-, phenyl-, 1,2-dimethyl-, and l-methyl-2-phenylhydrazine with /3-keto esters. In many cases starting materials, intermediates, and products were detected simultaneously. Most reactions proceed by nucleophilic addition of the less hindered hydrazine nitrogen atom to the keto carbon of the keto ester. For example, the pathway given in Scheme 3 for the reaction of methyl 3-oxobutanoate 9 with methyl- or phenyUiydrazine 2 (R = Me or Ph) was found to be dominant. The initially formed addition product 10 dehydrates to hydrazone 11, which then isomerizes to hydrazone 12. Intermediate 12 then cyclizes to pyrazol-3-one 13, which tautomerizes to the kinetically more stable pyrazol-3-otie 14 [87JCS(P2)969]. 

Hydrazones that are formed by heating the y3-keto ester and the hydrazine in an alcohol usually require more vigorous conditions in order to cyclize to pyrazol-3-ones. Thus, hydrazone 52, obtained by heating oxobutanoate 51 and phenylhy-drazine in ethanol, required heating under reflux in benzene ccMitaining phosphorus pentoxide in order to cyclize into l,2-dihydropyrazol-3-one 53 (66JOU1103) (Scheme 16). 

Replacement of a benzene ring by its isostere, thiophene, is one of the more venerable practices in medicinal chemistry. Application of this stratagem to the NSAID piroxicam, gives tenoxicam, 136, a drug with substantially the same activity, nie synthesis of this compound starts by a multi-step conversion of hydroxy thiophene carboxylic ester 130, to the sulfonyl chloride 133. Reaction of that with N-methylglycinc ethyl ester, gives the sulfonamide 134. Base-catalyzed Claisen type condensation serves to cyclize that intermediate to the p-keto ester 135 (shown as the enol tautomer). The final product tenoxicam (136) is obtained by heating the ester with 2-aminopyridine [22]. 

The finding that the anthelmintic thiazoloimidazole levamisole showed immunoregulatory activity spurred further investigation of this heterocyclic system. Synthesis of a highly modified analogue starts by displacement of bromine in keto ester 149 by sulfur in substituted benzimidazole 148. Cyclization of the product (150), leads initially to the carbinol 151. Removal of the ester group by saponification in base followed by acid-catalyzed dehydration of the carbinol affords the immune regulator tilomisole (152) [28]. 

Intramolecular Claisen condensations can be carried out with diesters, just as intramolecular aldol condensations can be carried out with diketones (Section 23.6). Called the Dieckmann cyclization, the reaction works best on 1.6-diesters and 1,7-diesters. Intramolecular Claisen cyclization of a 1,6-diester gives a five-membered cyclic /3-keto ester, and cyclization of a 1,7-diester gives a six-membered cyclic /3-keto ester. 

The mechanism of the Dieckmann cyclization, shown in Figure 23.6, is the same as that of the Claisen condensation. One of the two ester groups is converted into an enolate ion, which then carries out a nucleophilic acyl substitution on the second ester group at the other end of the molecule. A cyclic /3-keto ester product results. 

The cyclic /3-keto ester produced in a Dieckmann cyclization can be further alkylated and decarboxylated by a series of reactions analogous to those used in the acetoacetic ester synthesis (Section 22.7). For example, alkylation and subsequent decarboxylation of ethyl 2-oxocyclohexanecarboxylate yields a 2-alkylcvclohexanone. The overall sequence of (1) Dieckmann cyclization, (2) /3-keto ester alkylation, and (3) decarboxylation is a powerful method for preparing 2-substituted cyclohexanones and cyclopentanones. 

Mechanism of the Dieckmann cyclization of a 1,7-diester to yield a cyclic /3-keto ester product. 

Dieckmann cyclization of diethyl 3-methylheptanedioate gives a mixture of two /3-keto ester products. What are their structures, and why is a mixture formed ... 

Carbonyl condensation reactions are widely used in synthesis. One example of their versatility is the Robinson anuulation reaction, which leads to the formation of an substituted cyclohexenone. Treatment of a /3-diketone or /3-keto ester with an a,/3-unsaturated ketone leads first to a Michael addition, which is followed by intramolecular aldol cyclization. Condensation reactions are also used widely in nature for the biosynthesis of such molecules as fats and steroids. 

Dieckmann cyclization reaction (Section 23.9) An intramolecular Claisen condensation reaction to give a cyclic /3-keto ester. 

The diazo function in compound 4 can be regarded as a latent carbene. Transition metal catalyzed decomposition of a diazo keto ester, such as 4, could conceivably lead to the formation of an electron-deficient carbene (see intermediate 3) which could then insert into the proximal N-H bond. If successful, this attractive transition metal induced ring closure would accomplish the formation of the targeted carbapenem bicyclic nucleus. Support for this idea came from a model study12 in which the Merck group found that rhodi-um(n) acetate is particularly well suited as a catalyst for the carbe-noid-mediated cyclization of a diazo azetidinone closely related to 4. Indeed, when a solution of intermediate 4 in either benzene or toluene is heated to 80 °C in the presence of a catalytic amount of rhodium(n) acetate (substrate catalyst, ca. 1000 1), the processes... 

For the cyclization of the keto esters from 7-naphthyl-butyric esters it is advisable to use 80 per cent sulphuric acid, and to heat the mixture, with stirring, at 70-80° for one-half hour. 

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