A method has been developed for obtaining a full-length protein NS3 of hepatitis C virus with the yield of 6.5 mg/liter of cell culture, and conditions for measuring its NTPase and helicase activities have been optimized. The helicase reaction can proceed in two modes depending on the enzyme and substrate concentration ratio: it can be non-catalytic in the case of enzyme excess and catalytic in the case of tenfold substrate excess. In the latter case, helicase activity is coupled with NTPase and is stimulated by ATP. A number of NTP and inorganic pyrophosphate analogs were studied as substrates and/or inhibitors of NS3 NTPase activity, and it was found that the structure of nucleic base and ribose fragment of NTP molecule has a slight effect on its inhibitory (substrate) properties. Among the nucleotide derivatives, the most efficient inhibitor of NTPase activity is 2 -deoxythymidine 5 -phosphoryl-beta,gamma-hypophosphate, and among pyrophosphate analogs imidodiphosphate exhibited maximal inhibitory activity. These compounds were studied as inhibitors of the helicase reaction, and it was shown that imidodiphosphate efficiently inhibited the ATP-dependent helicase reaction and had almost no effect on the ATP-independent duplex unwinding. However, the inhibitory effect of 2 -deoxythymidine 5 -phosphoryl-beta,gamma-hypophosphate was insignificant in both cases, which is due to the possibility of helicase activation by this ATP analog.
4'- Fluoro-2',3'-O-isopropylidenecytidine was synthesized via interaction of 5'-O-acetyl-4'-fluoro-2',3'-O-isopropylideneuridine with triazole and 4-chlorophenyl dichlorophosphate followed by ammonolysis. Treatment of 5'-O-acetyl-4'-fluoro-2',3'-O-isopropylidenecytidine with hydroxylamine resulted in 5'-O-acetyl-4'-fluoro-2',3'-O-isopropylidene-N(4)-hydroxycytidine. Subsequent removal of 2',3'-O-isopropylidene groups gave 5'-O-acetyl derivatives of 4'-fluorouridine, 4'-fluorocytidine and 4'-fluoro-N(4)-hydroxycytidine. 5'-O-Triphosphate of 4'-fluorouridine was obtained in three steps starting from 4'-fluoro-2',3'-O-isopropylideneuridine. The 4'-fluoro uridine 5'-O-triphospate was found to be an effective inhibitor of HCV RNA-dependent RNA polymerase, substrate for NTPase reaction, catalyzed by protein NS3 HCV (a rate of the analogue hydrolysis was similar to that of ATP) and an activator for helicase reaction (with an efficacy only three fold lower than that of ATP).
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