Synthesis of dicytidylyl-(3'-5')-1,2-di(adenosin-N6-yl)ethane and dicytidylyl-(3'-5')-1,4-di(adenosin-N6-yl)butane: covalently joined terminals of two transfer ribonucleic acids and their behavior toward snake venom phosphodiesterase

Abstract

Chemical synthesis of the title bridged trinucleoside diphosphates 3e and 3f along with the corresponding dinucleoside phosphates 3c and 3d is described. Bridged nucleosides 3a and 3b gave on treatment with triethyl orthoformate in the presence of p-toluenesulfonic acid in dimethylformamide the cycle orthoesters 2a and 2b. Condensation of 2a and 2b with N,2'',5''-O-triacetylcytidine 3''-phosphate (1) using dicyclohexylcarbodiimide in pyridine afforded after deblocking and chromatographic separation products 3c-f. The latter were readily degraded with pancreatic RNase, but 3c and 3e were completely resistant toward snake venom phosphodiesterase whereas 3d and 3f were digested to the extent of 65 and 43%, respectively. The major product of degradation of 3f with phosphodiesterase was compound 3d resulting from the combined action of phosphodiesterase and contaminating phosphomonoesterase. The results are explained in terms of stacking of terminal bridged nucleoside units in 3c-f. The implications of the findings for the function of snake venom phosphodiesterase are discussed.