Although reduction of nitrogen heterocyclics by sodium borohydride and trifluoroacetic acid (TFA) has been reover the past three years, the types of compounds successfully reduced have been limited mainly to substituted indoles and amines. The application of sodium borohydride and TFA to other nitrogen-containing heterocyclics has not been extensively explored, and the full scope of the reaction has yet to be realized. This report describes a method for the reduction of a variety of azanaphthalenes in good yield under generally mild conditions compatible with the presence of many functional groups.Complex metal hydrides have been utilized in the past in various ways to successfully reduce azanaphthalenes. Quinoxaline (1) has been reduced by Hamer and Holliday5 and Bohlmann6 to tetrahydroquinoxaline by lithium aluminum hydride (LiAlH4). Quinazoline (2) has been reduced to 1,2,3,4-tetrahydroquinazoline by utilizing LiAlH4 and aqueous sodium borohydride and to 3,4-dihydroquinazoline (4) by methanolic sodium borohydride.' Pteridine has been reduced to 5,6,7&tetrahydropteridine (8) by LiAlH4 in 58% yield.8In each case the yield of the desired product(s) was in the 50% or lower range and required considerable purification.
DiscussionUsing an adaptation of the procedure developed by Gribble and Lord' for the reduction of substituted indoles, azanaphthalenes can be readily converted into their corresponding secondary amines. Products of this reaction are generally of sufficient purity to allow their use in subsequent reactions without further purification.Tteatment of quinoxaline (1) and quinazoline (2) with sodium borohydride and TFA resulted in the formation of 1,2,3,4-tetrahydroquinoxaline (3) and 1,2-dihydroquinazoline (4) in respectively 90 and 85% recovery. It is interesting to note that while the pyrazine ring in quinoxaline was completelyreduced, only the dihydro product was obtained from quinazoline. Pyrido[2,3-b]pyrazine ( 5 ) was reduced cleanly and regiospecifically to pyrido[2,3-b] -1,2,3,4-tetrahydropyrazine (6) in H I 5 I H 6 75% yield. No evidence could be found by TLC that reduction had occurred within the pyridine ring, and it appears that a pyrazine ring system can be preferentially reduced within a mixed heteroaromatic nucleus. T h e fact that quinoline and isoquinoline have been previously reduced,2 while even in low yield, by TFA and sodium borohydride demonstrates that such a reduction can occur. The reduction of pteridine with sodium borohydride and TFA yielded two components in an overall recovery of 94%.The two components were identified by 13C and lH NMR as 5,6,7&tetrahydropteridine (8) and 1,2,3,4-tetrahydropteridine (9) in 58 and 38% yields, respectively. The pyrazine ring H I 7 I H 1 H 8 9in pteridine was preferentially reduced; however, instead of recovering the 1,2-dihydro product as in the reaction of quinazoline, both carbon-nitrogen double bonds in the pyrimidine ring were reduced.The ability of sodium borohydride and TFA to reduce pteridine to both tetrahydro products provides a synthe...