Small interfering RNAs (siRNAs) with
N
-acetylgalactosamine (GalNAc) conjugation for improved liver uptake represent an emerging class of drugs to treat liver diseases. Understanding how pharmacokinetics and pharmacodynamics translate is pivotal for
in vivo
study design and human dose prediction. However, the literature is sparse on translational data for this modality, and pharmacokinetics in the liver is seldom measured. To overcome these difficulties, we collected time-course biomarker data for 11 GalNAc–siRNAs in various species and applied the kinetic-pharmacodynamic modeling approach to estimate the biophase (liver) half-life and the potency. Our analysis indicates that the biophase half-life is 0.6–3 weeks in mouse, 1–8 weeks in monkey, and 1.5–14 weeks in human. For individual siRNAs, the biophase half-life is 1–8 times longer in human than in mouse, and generally 1–3 times longer in human than in monkey. The analysis indicates that the siRNAs are more potent in human than in mouse and monkey.
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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