Arylglycine-derivative synthesis via oxidative sp3 C–H functionalization of α-amino esters

An efficient method for the synthesis of arylglycine derivatives is described. The oxidative coupling reactions of naphthols and phenols with α-amino esters proceeded smoothly in the presence of meta-chloroperoxybenzoic acid as an oxidant under ambient conditions, to produce arylglycine derivatives in satisfactory yields.


Findings
Arylglycine derivatives represent important synthetic intermediates or building blocks for drug development and natural-product synthesis [1,2]. The arylglycine moiety also occurs in several bioactive natural products [3]. Consequently, the development of convenient and efficient methods for the preparation of arylglycine derivatives has attracted considerable attention. Over the past years, many methods have been developed for the preparation of arylglycine derivatives [3]. Among these, the addition reaction of a carbon nucleophile to imines or iminium ions through Mannich-type reaction appears more useful (Scheme 1, reactions 1-3). However, these reactions need expensive arylboronic acids (Petasis reaction) [4][5][6][7][8][9] and suitable leaving groups [10][11][12] as well as a metal catalyst (Polonovsky reaction; this route requires the preparation of amine N-oxide in advance) [13,14].
We have recently reported the copper-catalyzed oxidative coupling reaction of alkynes with tertiary amine N-oxides [15]. This new strategy for the direct functionalization of sp 3 C-H bonds adjacent to a nitrogen atom, via tertiary amine N-oxide intermediates, was successfully applied to the coupling reaction of ethyl 2-(disubstituted amino)acetates with indoles to achieve indolylglycine derivatives (Scheme 2, reaction 1) [16]. In the course of our continuous research on the direct functionalization of sp 3 C-H bonds, we found that this new strategy could also be applied to the coupling reaction of naphthols and phenols with ethyl 2-(disubstituted amino)acetates. The results are reported in the current work (Scheme 2, reaction 2).
In our initial studies, the reaction of 2-naphthol (1a) with ethyl 2-morpholinoacetate (2a) was chosen as a model for opti-Scheme 1: Synthesis of arylglycine derivatives.
mizing the reaction conditions. The results are shown in Table 1. The proportions of substrate 2a and oxidant metachloroperoxybenzoic acid (mCPBA) were initially screened with CH 3 CN as the solvent (Table 1, entries 1-3). The yield of 3a was increased to 77% when 1.2 equiv of 2a and mCPBA were used (Table 1, entry 2). Further increasing the amounts of 2a and mCPBA or adding a copper catalyst could not improve the yield of 3a (Table 1, entries 3 and 4). The solvents were then screened (Table 1, entries 5-10). The best result was observed when CH 2 Cl 2 was used as the solvent (79%, Table 1, entry 5). Therefore, the subsequent reactions of naphthols and phenols with ethyl 2-(disubstituted amino)acetates were performed in the presence of mCPBA (1.2 equiv) in CH 2 Cl 2 under ambient conditions. The substrate scope was determined under the optimized reaction conditions, and the results are shown in Table 2. As expected, the reactions of ethyl 2-morpholinoacetate (2a), ethyl 2-(piperidin-1-yl)acetate (2b), and ethyl 2-(benzyl(methyl)amino)acetate (2c) proceeded smoothly to give the corresponding products 3a-3c in good yields ( Table 2, entries 1-3, 64-79%). These results indicated that both α-cyclic and acyclic amino esters could be employed in this type oxidative coupling reaction. The desired products 3d-3f were obtained in yields of 66-79% from the reactions of naphthols 1b-1d with 2a ( Table 2, entries 4-6). However, relatively low yields were observed from the reactions of phenols 1e-1h with 2a (Table 2, entries 7-10, 30-55%). The poor reactivity of phenols 1e-1h was considered to be due to their lower electron density compared to naphthols 1b-1d. No reaction was observed from the mixture of phenol 1i, bearing an electron-withdrawing Br substituent on para-position, and 2a ( Table 2, entry 11).
The plausible mechanism for the coupling reaction of naphthols and phenols with ethyl 2-aminoacetate derivatives is shown in Scheme 3 [16][17][18][19]. mCPBA oxidized 2a to amine N-oxide 4 before being transformed into 3-chlorobenzoic acid. The interaction of 4 with 3-chlorobenzoic acid led to the generation of the iminium ion 5 and 3-chlorobenzoate anion. The Mannich-type reaction of 5 with 2-naphthol may have occurred to generate the coupling product 3a. The generated 3-chlorobenzoate anion acted as a proton acceptor.    In conclusion, a new strategy for the functionalization of sp 3 C-H bonds of amino esters was successfully applied to the coupling reaction of ethyl 2-(disubstituted amino)acetates with naphthols and phenols. The proposed coupling reaction proceeded smoothly in the presence of mCPBA as an oxidant under ambient conditions to provide arylglycine derivatives in satisfactory yields.

Supporting Information
Supporting Information File 1 General methods, characterization data and NMR spectra of all synthesized compounds.