Domino Aza-Michael-S[sub.N]Ar-Heteroaromatization Route to C5-Substituted 1-Alkyl-1IH/I-Indole-3-Carboxylic Esters

A new synthesis of C5-substituted 1-alkyl-1H-indole-3-carboxylic esters is reported. A series of methyl 2-arylacrylate aza-Michael acceptors were prepared with aromatic substitution to activate them towards S[sub.N]Ar reaction. Subsequent reaction with a series of primary amines generated the title...

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Veröffentlicht in:	Molecules (Basel, Switzerland) Switzerland), 2022-10, Vol.27 (20)
Hauptverfasser:	Ametsetor, Ebenezer, Farthing, Spencer, Bunce, Richard A
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Sprache:	eng
Schlagworte:	Esters
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creator	Ametsetor, Ebenezer Farthing, Spencer Bunce, Richard A
description	A new synthesis of C5-substituted 1-alkyl-1H-indole-3-carboxylic esters is reported. A series of methyl 2-arylacrylate aza-Michael acceptors were prepared with aromatic substitution to activate them towards S[sub.N]Ar reaction. Subsequent reaction with a series of primary amines generated the title compounds. Initially, the sequence was expected to produce indoline products, but oxidative heteroaromatization intervened to generate the indoles. The reaction proceeded under anhydrous conditions in DMF at 23-90 °C using equimolar quantities of the acrylate and the amine with 2 equiv. of K[sub.2]CO[sub.3] to give 61-92% of the indole products. The reaction involves an aza-Michael addition, followed by S[sub.N]Ar ring closure and heteroaromatization. Since the reactions were run under nitrogen, the final oxidation to the indole likely results from reaction with dissolved oxygen in the DMF. Substrates incorporating a 2-arylacrylonitrile proved too reactive to prepare using our protocol. The synthesis of the reaction substrates, their relative reactivities, and mechanistic details of the conversion are discussed.
doi_str_mv	10.3390/molecules27206998
format	Article
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A series of methyl 2-arylacrylate aza-Michael acceptors were prepared with aromatic substitution to activate them towards S[sub.N]Ar reaction. Subsequent reaction with a series of primary amines generated the title compounds. Initially, the sequence was expected to produce indoline products, but oxidative heteroaromatization intervened to generate the indoles. The reaction proceeded under anhydrous conditions in DMF at 23-90 °C using equimolar quantities of the acrylate and the amine with 2 equiv. of K[sub.2]CO[sub.3] to give 61-92% of the indole products. The reaction involves an aza-Michael addition, followed by S[sub.N]Ar ring closure and heteroaromatization. Since the reactions were run under nitrogen, the final oxidation to the indole likely results from reaction with dissolved oxygen in the DMF. Substrates incorporating a 2-arylacrylonitrile proved too reactive to prepare using our protocol. 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A series of methyl 2-arylacrylate aza-Michael acceptors were prepared with aromatic substitution to activate them towards S[sub.N]Ar reaction. Subsequent reaction with a series of primary amines generated the title compounds. Initially, the sequence was expected to produce indoline products, but oxidative heteroaromatization intervened to generate the indoles. The reaction proceeded under anhydrous conditions in DMF at 23-90 °C using equimolar quantities of the acrylate and the amine with 2 equiv. of K[sub.2]CO[sub.3] to give 61-92% of the indole products. The reaction involves an aza-Michael addition, followed by S[sub.N]Ar ring closure and heteroaromatization. Since the reactions were run under nitrogen, the final oxidation to the indole likely results from reaction with dissolved oxygen in the DMF. Substrates incorporating a 2-arylacrylonitrile proved too reactive to prepare using our protocol. The synthesis of the reaction substrates, their relative reactivities, and mechanistic details of the conversion are discussed.</abstract><pub>MDPI AG</pub><doi>10.3390/molecules27206998</doi></addata></record>
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title	Domino Aza-Michael-S[sub.N]Ar-Heteroaromatization Route to C5-Substituted 1-Alkyl-1IH/I-Indole-3-Carboxylic Esters
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