3- Substituted quinolines

Many substituted quinolines are intermediates for antimalarials. The 2,4-di-substituted quinolines are produced from aniline and 1,3-diketones by the Combes quinoline synthesis (28). The reaction of aniline with nitrobenzene in the presence of dry sodium hydroxide at 140°C leads to formation of phenazine [92-82-0] and by-products (Wohl-Aue synthesis) (29). 

In many instances, beginning a synthesis with quinoline N-oxide [1613-37-2] faciHtates the preparation of difficult compounds. Quinoline is converted to the N-oxide using hydrogen peroxide in acetic acid, and later reduced to the substituted quinoline. Warm mixed acid gives 4-rutroquinoline... 

The Lewis acid-catalyzed cyclization of 3-anaino-2-alkerLirnines (21) leads to a wide variety of alkyl- and aryl-substituted quinolines (59). The high regiospecificity and the excellent yields obtained make this process promising. 

Platinum-group metals (qv) form complexes with chelating polymers with various 8-mercaptoquinoline [491-33-8] derivatives (83) (see Chelating agents). Hydroxy-substituted quinolines have been incorporated in phenol—formaldehyde resins (84). Stannic chloride catalyzes the condensation of bis(chloromethyl)benzene with quinoline (85). 

Ana.lytica.1 Rea.gents, The chelating property of quinolines, eg, 8-hydroxy derivatives, make them useful in metal gravimetric appHcations however, few are any longer of practical importance. Amino- and sulfur-substituted quinolines have also been employed in metal analyses (105,106). 

The formation of a library of 2-substituted quinolines employed a variation on the Boekelheide reaction. Treatment of A-oxide 41 with isobutylchloroformate did not result in the typical rearrangement. However, subsequent exposure to Grignard reagents resulted in loss of the carbonate with concomitant formation of the 2-substitute derivatives 42. 

The Camps quinoline synthesis entails the base catalyzed intramolecular condensation of a 2-acetamido acetophenone (1) to a 2-(and possibly 3)-substituted-quinolin-4-ol (2), a 4-(and possibly 3)-substituted-quinolin-2-ol (3), or a mixture. 

Analogous to the selectivity observed for the conversion of 48 into 50, pyridyl 51 formed enamine 52 which underwent cyclization to give 4-pyridyl-substituted quinoline 53. Again, imine formation first occurs on the less hindered ketone and subsequent cyclization on the more reactive carbonyl occurred in high yield. ... 

The first condensation is conducted selectively on a variety of 3-ketoesters and a-formylesters. The first step works well on most simple anilines even when sterically congested and is mostly affected by basicity. Formation of intermediate 3 is problematic when strong electron-withdrawing groups (EWG) are attached to the aniline (e.g., nitro). The cyclization step is promoted thermally in inert solvents as well as using acidic solvents at elevated temperature. When there exists an opportunity to form isomers on cyclization (e.g., m-substituted anilines) a mixture of the 5- and 7-substituted quinolines usually results. 

The selectivity of the cyclization using enamino-esters 18-20 derived from m-halogenated anilines 14-16, provided mixtures of 5- and 7-substituted quinolines. In all of these cases, the cyclization gave either equal amounts of the 5- and 7- isomers or in the case of m-iodoaniline, about a 1 2 ratio was observed. During the time of these publications, it was the desire of the authors to obtain the 7-substituted quinolines, which were potential drugs for the treatment of malaria. 

In 1883, Bottinger described the reaction of aniline and pyruvic acid to yield a methylquinolinecarboxylic acid. He found that the compound decarboxylated and resulted in a methylquinoline, but made no effort to determine the position of either the carboxylic acid or methyl group. Four years later, Doebner established the first product as 2-methylquinoline-4-carboxylic acid (8) and the second product as 2- methylquinoline (9). Under the reaction conditions (refluxing ethanol), pyruvic acid partially decarboxylates to provide the required acetaldehyde in situ. By adding other aldehydes at the beginning of the reaction, Doebner found he was able to synthesize a variety of 2-substituted quinolines. While the Doebner reaction is most commonly associated with the preparation of 2-aryl quinolines, in this primary communication Doebner reported the successful use of several alkyl aldehydes in the quinoline synthesis. 

The Friedlander quinoline synthesis combines an a-amino aldehyde or ketone (1) with another aldehyde or ketone with at least one methylene a to the carbonyl (2) to furnish a substituted quinoline. The reaction can be promoted by acid, base, or heat. 

Condensation of Af-aryliminochlorides with malonic ester followed by thermal cyclization, as initially reported by Just, was found to be a general method for the preparation of 2, 3, 4-substituted quinolines. Various substituents on the aryl ring of the iminochloride proved uneventful, even though the conditions required to generate the iminochloride utilized PCI5. 

The preparation and use of derivatized Meldrum s acid has led to an alternative preparation of 2-substituted quinolines (49 and 50) and the preparation of pyridopyrimidines (52). When Meldrum s acid derivatives are used (as shown in this example) decarboxylation occurred under the cyclization conditions. Three component coupling has been used to readily assemble the desired 3-anilino-acrylate from reaction of Meldrum s acid, (EtO)3CH and an aniline (e.g. 54 or 55).< ... 

The Meth-Cohn quinoline synthesis involves the conversion of acylanilides 1 into 2-chloro-3-substituted quinolines 2 by the action of Vilsmeier s reagent in warmed phosphorus oxychloride (POCI3) as solvent. ... 

The Vilsmeier cyclisation of acetanilides by the conventional methods described above often requires long reaction times and elevated temperatures. Moreover, only activated acetanilides react efficiently to afford 2-chloro-3-substituted-quinolines strongly deactivated systems afford mainly amidine 5 or acrylamide 6. ... 

The yield of substituted quinoline 27 was substantially improved when p-chloranil... 

Resonance activation in the 8-substituted-isoquinolines (344) or -2-nitronaphthalenes is predicted to be greater than that in 5-substituted-quinolines (345) or -1 -nitronaphthalenes due to the lower energy charge-... 

Most of the reactions with quinolines and degassed Raney nickels have been carried out at the atmospheric boiling point (above 230 C), a condition which is known to favor the formation of by-products. With quinoline and 4-methylquinoline (lepidine), however, the yields of the 2,2 -biquinolines were increased three to four times by heating in vacuo at 150° C, and it seems probable that other quinolines will behave similarly. Table II also shows that the yields of 2,2 -biquino-lines obtained under comparable conditions vary with the position of the methyl group in a fashion reminiscent of the trends observed with the pyridines (Table I). This similarity extends to the behavior of the two 2-methyl substituted quinolines studied, which undergo loss of the 2-methyl group to some extent and form traces of 2,2 -biquinolines. 

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