Pyrroles, 2-substituted, intramolecular

As will be seen in this chapter and in the rest of the book, the Heck reaction and its numerous variations represent a fantastically powerful set of tools available to the heterocyclic chemist. Although most Heck chemistry that involves pyrroles is intramolecular or entails synthesis of the pyrrole ring, a few intermolecular Heck reactions of pyrroles are known. Simple pyrroles (pyrrole, A-methylpyrrole, A-(phenylsulfonyl)pyrrole) react with 2-chloro-3,6-dialkylpyrazines under Heck conditions to give mixtures of C-2 and C-3 pyrrole-substituted pyrazines in low... 

Polycyclic aromatic compounds are obtained upon irradiation of diaryl-substitnted chromium carbenes under a carbon monoxide atmosphere. The reaction probably proceeds via the formation of a biaryl-aUcoxy ketene followed by cyclization. For example, the pyrrole-substituted carbene (22) gave the tricyclic compound (23) (Scheme 34) Related intramolecular Friedel-Crafts-type reactions of carbenes having tethered electron-rich aromatic rings are feasible, usually in moderate yields (Scheme 35). A Lewis acid catalyst such as zinc dichloride is required for optimum yields. 

Jefford, C. W., Tang, Q., and Boukouvalas, J. 1990. Regioselective 2-acylation of N-substituted pyrroles by intramolecular delivery. Tetrahedron Lett. 31 995-998. 

The acid-catalyzed rearrangements of substituted pyrroles and thiophenes consequent on ipso protonation have been referred to previously (Section 3.02.2.4.2). There is some evidence that these rearrangements are intramolecular in nature since in the case of acid-induced rearrangement of 2-acylpyrroles to 3-acylpyrroles no intermolecular acylation of suitable substrates could be demonstrated (Scheme 10) (8UOC839). 

Interesting results have been obtained in intramolecular acylation reactions involving pyrrole and thiophene derivatives. A muscone synthesis involves selective intramolecular acylation at a vacant a-position (Scheme 18) (80JOC1906). In attempts to prepare 5,5-fused systems via intramolecular acylation reactions on to a jS-position of a thiophene or a pyrrole, in some cases ipso substitution occurs with the result that rearranged products are formed (Scheme 19) (82TH30200). 

Whereas the cycloaddition of arylazirines with simple alkenes produces A -pyrrolines, a rearranged isomer can be formed when the alkene and the azirine moieties are suitably arranged in the same molecule. This type of intramolecular photocycloaddition was first detected using 2-vinyl-substituted azirines (75JA4682). Irradiation of azirine (54) in benzene afforded a 2,3-disubstituted pyrrole (55), while thermolysis gave a 2,5-disubstituted pyrrole (56). Photolysis of azirine (57) proceeded similarly and gave 1,2-diphenylimidazole (58) as the exclusive photoproduct. This stands in marked contrast to the thermal reaction of (57) which afforded 1,3-diphenylpyrazole (59) as the only product. 

Another pyrrole synthesis based on intramolecular substitution of the nitro group by amino function is presented in Eq. 10.7, in which the Michael addition of enamines to nitroalkenes is used.9... 

An efficient synthesis of rigid tricyclic (5 5 5) nitrogen heterocycles 64 has been achieved via sequential and tandem Ugi/intramolecular Diels-Alder (IMDA) cycloaddition of pyrrole derivatives <2004JOC1207> and the trienes 477 were prepared by the acylaton of amines 475 with the anhydride 476. The amines 475 were in turn prepared starting from pyrrole-2-carbaldehyde. The triene 477 on heating in toluene at 80 °C for 15 h underwent the IMDA to afford the tricyclic compound 64 as a single diastereomer in quantitative yield. The sterically bulky N-substitutent on the triene 477 promoted cycloaddition under milder condition at 65 °C in toluene to provide the tricyclic compound 64 in quantitative yield (Scheme 108). 

The ring cleavage of 3-aryl-2-substituted-2//-azirines by molybdenum hexacarbonyl has been described earlier in regard to the synthesis of pyrroles, pyrazoles and isoxazoles. In contrast to this behavior, analogous reactions of 2-unsubstituted derivatives lead to the formation of mixtures of 2,5-diarylpyrazines (139) and isomeric 3,6- and 1,6-dihydropyrazine derivatives (140,141) (Scheme 163).47,53 It is possible that the pyrazine products are formed by an intermolecular nitrene mechanism akin to the intramolecular processes described earlier (see Scheme 22 in Section IV,A,1). 

Dieter developed a flexible two step synthesis of substituted pyrroles involving initial Beak deprotonation of /ert-butoxycarbonyl (Boc) amines 36 followed by addition of CuX-2LiCl (X = -Cl, -CN) to afford a-aminoalkylcuprates. Such cuprates undergo conjugate addition reactions to a,(3-alkynyl ketones affording a,(3-enones 37, which upon treatment with PhOH/TMSCl undergo carbamate deprotection and intramolecular cyclization to afford the pyrroles 38 . 

As mentioned in CHEC-II(1996) <1996CHEC-II(8)16>, 3//-pyrrolizin-3-one 2 and many other substituted analogues were synthesized by FVP of Meldrum s acid derivatives 189 via the in. ( ////-generated pyrrol-2-ylmethylidene ketenes 190 which cyclize by an intramolecular A-acylation (Scheme 43) <1997J(P1)2195, 2000J(P1)3584>. 

In a similar fashion, hydroformylation of N-allyl-pyrrols leads to 5,6-dihydroindolizines via a one-pot hydroformylation/cyclization/dehydration process (Scheme 27) [81,82]. The cyclization step represents an intramolecular electrophilic aromatic substitution in a-position of the pyrrole ring. This procedure was expanded to various substrates bearing substituents in the al-lyl and in the pyrrole unit. 

Isothiocyanate 23 (X = CO), when treated with AICI3 in nitromethane undergoes ring closure by an intramolecular electrophilic substitution between C3 of the pyrrole ring and the isothiocyanate group to afford pyrrolo[3,2-c][l]benzazepine-10(lH)-one-4(5H)-thione 24 (Scheme 2 (2005BMCL3220, 1998MI197)). 

Benzopyrmlo[l,2]azepines. Syntheses of benzopyrrolo[l,2]azepines in which pyrrole or indole N1 and C2 atoms serve as fusion sites usually involve preforming the TV-substituted pyrrole derivatives followed by intramolecular cyclization. 

Intramolecular electrophilic reactions of substituted pyrrole-2-carboxylic acids or their amides lead to benzo[d]pyrrolo[l,2-a]azepinones. Acid 70 in this fashion undergoes Fiiedel-Crafts cyclization to furnish fused azepine 71 in good yield (Equation (6) (2000JOC2479)). 

N-Alkyl isoindolo[2,l-fc][2,4]benzodiazepines 190 (R = alkyl. Scheme 38, Section 3.1.1.2) are synthesized by an intramolecular N-acyliminium ion-amide reaction (1997TL2985, 1998T1497). Isothiocyanates 23 undergo under basic conditions in DMF ring closure by an intramolecular substitution between N1 of the pyrrole ring and isothiocyanate group to afford benzo[/]pyrrolo[l,2-c] [l,3]diazepine-5-thiones 25 (Scheme 2, Section 2.1.1.1 (2005BMCL3220)). 

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