Estimation of Absolute Bioavailability of the Chemical Substance of the Anti-Smallpox Preparation NIOCH-14 in Mice.

We compared absolute bioavailability of the chemical substance of the anti-smallpox preparation NIOCH-14 and chemical compound ST-246 active against orthopoxviruses after oral administration to mice in doses of 10 and 50 µg/g and intravenous administration to mice in a dose of 2 µg/g body weight. The absolute bioavailability of NIOCH-14 is comparable with the absolute bioavailability of ST-246.

[Evaluation of therapeutic-prophylactic effectiveness of chemical compound NIOC-14 against ectromelia virus in vivo].

AIM: Study pharmacodynamic parameters of anti-viral effectiveness of a chemical compound NIOC-14 in experiments in mice infected with ectromelia virus (EV). MATERIALS AND METHODS: EV (K-1 strain) was obtained from the State Collection of Viral Infections and Rickettsioses Causative Agents of the State Scientific Centre of Virology and Biotechnology "Vector". Outbred ICR mice were intranasally infected with EV at a dose of 10 LD50 per animal (10 x 50% lethal doses/animal) and per orally received NIOC-14 or ST-246 as a positive control. Chemical compound NIOC-14 (7-[N'-(4-trifluoromethylbenzoyl)-hidrazincarbonyl]-tricyclo[3.2.2.0(2,4)]non-8-en-6-carbonic acid) was synthesized in Novosibirsk Institute of Organic Chemistry (NIOC). Anti-pox preparation ST-246, developed by SIGA Technologies Inc. (USA), was synthesized in NIOC using the technique described by the authors. RESULTS: 50% effective doses against EV in vivo were shown not to differ significantly between the preparations NIOC-14 (3.59 µg/g mouse mass) and ST-246 (5.08 µg/g mouse mass). During determination of therapeutic window, administration of NIOC-14 to mice 1 day or 1 hour before EV infection, as well as 1, 2 and 4 days after EV infection and then for 9 days was found to ensure 100% animal survival. Administration of NIOC-14 as well as ST-246 resulted in the decrease relative to control of EV titers in lungs, nasal cavity, brains, liver, spleen, kidneys and pancreas. CONCLUSION: Anti-viral effectiveness of NIOC-14 against EV in vivo was thus comparable by all the studied pharmacodynamic parameters with anti-viral activity of anti-pox-virus preparation ST-246.

[A comparative study of the antiviral activity of chemical compounds concerning the orthopoxviruses experiments in vivo].

In the experiments using intranasal (i/n) infection of mice with the ectromelia virus (EV) in a dose 10 LD50/head (10 x 50% lethal doselhead) or with the monkaypox virus (MPXV) in a dose 10 ID50/head (10 x 50% infective dose/ head) it was demonstrated that the antiviral efficiency of chemical compounds - the condensed derivatives of pyrrolidin-2,5-dion, as well as their predecessors and the nearest analogues, synthesized in Novosibirsk Institute of Organic Chemistry of the Siberian Branch of the Russian Academy of Sciences (NIOCH SB RAS) was observed. As a positive control we used the antipoxvirus chemical preparation ST-246 available from SIGA Technologies Inc. (USA), synthesized in NIOCH SB RAS by the technique suggested by the authors. It was demonstrated that the compound NIOCH-14 (7-[N'-(4-Trifluoromethylbenzoil)-hydrazidecarbonil]-tricyclo[3.2.2.02,4]non-8-en-6-carbonic acid) possessed comparable with ST-246 antiviral activity concerning EV and MPXV on all indicators used. Therefore, at infection of mice with EV (strain K-1) and peroral administration of NIOCH-14 and ST-246 in a dose 50 mkg/g of mouse weight (12-14 g) within 10 days the survival rate and average life expectancy of mice authentically exceeded the control levels. EV titers in lungs through 6 days after infection in the same groups were lower than in the control. In addition to that, after 7 days of infection of mice with MPXV (strain V79-1-005) and daily peroral administration of NIOCH-14 and ST-246 in a dose 60 mkg/g of mouse weight (9-11 g) authentic decrease in a part of infected animals and MPXV titers in lungs was observed.