Nucleotide depletion impairs G protein coupled receptor transduction and cyclic GMP signaling, ultimately resulting in the interruption of the S phase of the cell cycle through specific inhibition of IMPDH . The use of mizoribine has been approved in Japan for induction and maintenance of immunosuppressive therapy after renal transplantation . Since ribavirin triphosphate and MZP share functional similarities, we investigated the attractive possibility that MZP could also inhibit the GTase activity of the human RNA capping enzyme . In the present study, we demonstrate that MZP can inhibit the formation of the RNA cap structure catalyzed by HCE. The biological implications of this inhibition are discussed. We next set out to identify which step of the GTase reaction is more susceptible to MZP inhibition. In order to investigate the GS-9350 inhibitory potency of MZP on HCE-GMP complex formation , HCE was incubated with GTP, magnesium and increasing concentrations MZP. Since this GTase reaction is known to be highly UNC0638 distributor inhibited by its pyrophosphate product, pyrophosphatase was also added to the reaction in order to drive the reaction forward. The formation of the EpG covalent complex in single turnover condition was analyzed by SDS-PAGE and quantified by phosphorimaging. As seen in figure 3C, increasing concentrations of MZP only prevented formation of the EpG complex at elevated concentrations of MZP; a concentration of 3 mM MZP resulted in a 50 inhibition of the HCE-GMP complex formation. Despite the low millimolar MZP concentration required to prevent the EpG formation, this inhibition is not due to magnesium cofactor sequestration since the addition of an equimolar concentrations of MgCl2 to MZP did not influence this effect . Nevertheless, MZP inhibition of the EpG complex formation is weak and could not be solely responsible for the global inhibitory potency of MZP. We next investigated if the second step of the GTase reaction could be impaired by MZP. EpG complex formation was allowed to initially form upon incubation of HCE with excess GTP, magnesium and pyrophosphatase. Next, various concentrations of MZP and a cold 59-diphosphate RNA were added to initiate the transfer of the GMP moiety onto the RNA in single turnover condition. As seen in figure 3D, our da