Hantzsch heterocyclic synthesis

The most widely used method for the preparation of carboxylic acids is ester hydrolysis. The esters are generally prepared by heterocyclization (cf. Chapter II), the most useful and versatile of which is the Hantzsch s synthesis, that is the condensation of an halogenated a- or /3 keto ester with a thioamide (1-20). For example ethyl 4-thiazole carboxylate (3) was prepared by Jones et al. from ethyl a-bromoacetoacetate (1) and thioformamide (2) (1). Hydrolysis of the ester with potassium hydroxide gave the corresponding acid (4) after acidification (Scheme 1). 

A -(l-Haloalkyl)pyridinium halides have been advantageously employed in the Hantzsch multicomponent synthesis, yielding alkyl 1,4-dihydropyri-dine-3,5-dicarboxylates, which are a well-known class of calcium channel modulators (81AGE762). Tire halides readily interact with an excess of an ethyl 3-aminobut-2-enoate 82 (R = H) in dichloromethane at room temperature to afford the heterocycles 83 (R = H) in good to excellent yields (65-95%) (92T1263). Tliis observation has been exploited to perform a quantitative study of the reactivity of the salts (93CB1251).Tlie results have... 

Another well-known method for the preparation of heterocycles is the Hantzsch dihydropyridine synthesis. In 2001, Ohberg and Westman presented a microwave-... 

In Hantzsch s synthesis the condensation product is a derivative of dihydropjndine and is only converted into a true pyridine derivative by dehydrogenation. It is only by the removal of the two hydrogen atoms in the 1 4-positions that the heterocyclic ring system analogous to benzene is produced. The corresponding conversion of ethyl A 2 5-dihydroterephthalate into ethyl terephthalate takes place much more readily. 

A general scheme, which constructs the thiazolo variety of various bridgehead heterocycles, is basically an extension of HTIB-mediated modification of Hantzsch thiazole synthesis (Scheme 51). Thus, synthesis of 3-substituted-5,6-dihydro-4//-imidazo[2,l-b]thiazoles 202 has been achieved by the treatment of a-tosyloxyacetophenones (generated by the oxidation of 51 with HTIB) with ethylenethiourea [92JCS(P1)707], The method is successfully extended to synthesize 4,5,6,7-tetrahydrothiazolo[3,2-a]pyrimidines 203... 

As might be expected, there are relatively few reactions for the preparation of heterocyclic systems which are useful on a laboratory scale and which involve the formation of four ring bonds. The Hantzsch pyridine synthesis (equation 148) (and a number of variations of the original procedure) is perhaps the classic example of this type of reaction, which is... 

The only report concerning the construction of the heterocyclic ring of diazafluorenes was described in CHEC-11(1996) <1996CHEC-II(7)921> using a variant of the Hantzsch pyridine synthesis. Somewhat surprisingly, no further reports using this method have been found. 

A roundabout route is used to prepare tetrahydroquinolines with reduced carbocyclic rings since direct reduction, as noted above, adds hydrogen to the heterocyclic ring. The key reaction in this scheme involves a variant of the Hantzsch pyridine synthesis. Condensation of the imine (37-1) from dihydroresorcinol with ethoxymethylenepropionaldehyde (37-2) can be envisaged as proceeding through... 

Standard heterocyclic syntheses tend to have a name associated with them and it is simply not worth while learning these names. Few chemists use any but the most famous of them we will mention the Knorr pyrrole synthesis, the Hantzsch pyridine synthesis, and the Fischer and Reissert indole syntheses. We did not mention that the synthesis of furans from 1,4-dicarbonyl compounds is known as the Feist-Benary synthesis, and there are many more like this. If you are really interested in these other names we suggest you consult a specialist book on heterocyclic chemistry. 

A new strategy for the synthesis of heterocyclic a-amino acids utilizing the Hantzsch dihydropyridine synthesis was developed in the laboratory of A. Dondoni." ° The enantiopure oxazolidinyl keto ester was condensed with benzaldehyde and fert-butyl amino crotonate in the presence of molecular sieves in 2-methyl-2-propanol to give a 85% yield of diastereomeric 1,4-dihydropyridines. The acetonide protecting group was removed and the resulting amino alcohol was oxidized to the target 2-pyridyl a-alanine derivative. 

Katritzky, A. R., Ostercamp, D. L., Yousaf, T. I. Mechanism of heterocyclic ring closures. 3. Mechanism of the Hantzsch pyridine synthesis a study by nitrogen-15 and carbon-13 NMR spectroscopy. Tetrahedron 1986, 42, 5729-5738. 

Combinations of N- and 5-alkylation in 2-imidazoline-2-thiols can lead to 5,6-dihydro-4//-imidazo[2,l-6]thiazoles when the heterocycles are treated with ketones in the presence of a halo-genating agent. This is a variant of the Hantzsch thiazole synthesis <92SC1293>. A further example of A-acylation in combination with nucleophilic substitution is the conversion of 2-chloro-2-imi-dazoline into (131) when it is treated with pyridine and an aryl isocyanate <87JCS(P1)1033>. 2-Imidazolines like clonidine are also known to A-nitrosate <93JCS(P2)59l>. Intramolecular alkylation is exemplified in the base-induced rearrangement of 2,5-diaryl-4-chloromethyl-2-imidazolines (132) into pyrimidines (Scheme 64) <93JOC6354>. 

In the following section we focus our attention on library analysis, and especially on libraries which are not related to oligomers. To demonstrate the possibilities and limits of this analysis, two typical compound libraries were chosen. The first group of libraries contains an aromatic scaffold, pyrroles, which were synthesized by the Hantzsch pyrrole synthesis. The second class of compounds are heterocyclic isoxazolines synthesized via a 1,3-dipolar cyclo-addition. In both cases the reaction conditions were first established on single compounds. Supporting mass spectrometric data are presented in Section 17.7 (Appendix). 

I, 000 fold [96-98], Various six-membered heterocyclic compounds are synthesised imder nticrowave conditions with greater yield, enhanced purity and lesser amount of side products. Hantzsch dihydropyridine synthesis is the most common method for the synthesis of a six-membered pyridine ring. The reaction is given in Scheme... 

Synthesis. The preparation of these heterocycles was accomplished using traditional methodology. 2,4-Disubstituted and 2,4,5-trisubstituted compounds were prepared via the Hantzsch (21) synthesis. The Gabriel (22) and Robinson-Gabriel (23) syntheses were used to prepare the 2,5-disubstituted thiazoles and oxazoles, respectively. The intermediate keto-amides could be converted into thiazoles by heating with P4S] q pyridine or with Lawesson s reagent (24). 

The Knoevenagel condensation also plays a part in a number of prominent heterocycle syntheses including the Knorr pyrrole synthesis/ Hantzsch dihydropyridine synthesis/ Feist-Benary furan synthesis and the Gewald reaction, which is used to make 2-aminothiophenes. 

Subsequent to Hantzsch s communication for the construction of pyridine derivatives, a number of other groups have reported their efforts towards the synthesis of the pyridine heterocyclic framework. Initially, the protocol was modified by Beyer and later by Knoevenagel to allow preparation of unsymmetrical 1,4-dihydropyridines by condensation of an alkylidene or arylidene P-dicarbonyl compound with a P-amino-a,P-unsaturated carbonyl compound. Following these initial reports, additional modifications were communicated and since these other methods fall under the condensation approach, they will be presented as variations, although each of them has attained the status of named reaction . 

Dihydropyridines not only are intermediates for the synthesis of pyridines, but also are themselves an important class of N-heterocycles an example is the coenzyme NADH. Studies on the function of NADH led to increased interest in the synthesis of dihydropyridines as model compounds. Aryl-substituted dihy-dropyridines have been shown to be physiologically active as calcium antagonists. Some derivatives have found application in the therapy of high blood pressure and angina pectoris. For that reason the synthesis of 1,4-dihydropyridines has been the subject of intensive research and industrial use. The Hantzsch synthesis has thus become an important reaction. 

Galatsis, P. Hantzsch Dihydro-Pyridine Synthesis In Name Reactions in Heterocyclic Chemistry, Li, J. J. Corey, E. J., Eds. Wiley Sons Hoboken, NJ, 2005, 304—307. (Review). 

Extensive stmcture activity relationship (SAR) studies in this series revealed that unsymmetrical substitution on the heterocyclic ring and hence the introduction of chirality on the central carbon atom led to increased potency. Such asymmetrical dihydro-pyridines can be prepared by stepwise variation of the Hantzsch synthesis, based on the hypothetical alternate route to nifedipine. Thus, aldol condensation of methyl acetoacetate with 2,3-dichlorobenzaldehyde (13-1) gives the cinnamyl ketone (13-2). Reaction of that with the enamine (13-3) from ethyl acetoacetate gives the calcium channel blocker felodipine (13-4) [14]. 

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