Interaction of 1,5-Substituted Pyrrolin-2-ones with Dichlorocarbene under Phase Transfer Catalysis Conditions

Treatment of 5-alkyl(aryl)-3H-pyrrolin-2-ones with dichlorocarbene under phase transfer catalysis conditions at 20-30oC results in a cycloaddition of the carbene to the C=C bond followed by skeletal rearrangement.


Introduction
The increasing interest in the chemistry of cyclopropanes results from the wide possibilities of their practical applications, in particular, as intermediates in organic syntheses and for obtaining biologically active compounds.
Reactions of carbenes with compounds containing multiple bonds under phase transfer catalysis (PTC) conditions of is an effective method for forming cyclopropane fragments.We were interested in studying the possibility of using five-membered nonaromatic N-heterocycles containing C=C and C=O bond for the preparation of systems with cyclopropane or oxirane fragments.

Results and Discussion
In the present work 5-alkyl(aryl)-3H-pyrrolin-2-ones 1a-c were synthesized from 5-alkyl-3H-furan-2-ones [1].Dichlorocarbene was used as the carbene component.It was generated by the usual method, i.e., reaction of NaOH with chloroform in a two-phase system in the presence of benzyltriethylammonium bromide (BTEA) as the phase transfer catalyst.
The starting pyrrolin-2-ones contain several reaction centres that can react with diclorocarbene.These are the C=C and C=O double bonds, C-H bonds and heteroatoms.It would be expected that the reaction product(s) would be determined by competing formation of the possible alternate dichlorocyclopropane structures, namely the products of nucleophilic addition of the trichloromethyl anion to the alkene or carbonyl carbon, the introduction of the dichlorocarbene into a C-H bond and the formation of ylide structures due to carbene attack on the heteroatom free electron pair.

Conclusions
The reaction of 5-alkyl(aryl)-3H-pyrrolin-2-ones with dichlorocarbene at 20-30° C involves the C=C bond and the aromatic fragment and the amide carbonyl of the substrates are not touched under the conditions investigated.When the reaction is carried out in a two-phase system, the side formation of the salts of the corresponding γ-keto-carboxylic acids was noted, due to the opening of fivemembered heterocycles under the action of alkali.

General
IR spectra were obtained on a UR-20 spectrometer.NMR spectra were recorded on a Varian FT-80A instrument (80 MHz) in CDCl 3 using SiMe 4 as the internal standard; the chemical shifts are given on the δ scale.