Combined Effect of Basic Antiherpetic Drugs with a New Inhibitor of the Terminase Complex of Herpes Simplex Virus Type 1 in Vero Cell Cultures.

Abstract-Carriers of herpes simplex virus type 1 (HSV-1) account for more than 90% of the global population. Infection manifests itself in the formation of blisters and ulcers on the face or genitals and can cause blindness, encephalitis, and generalized infection. All first- and second-line modern antiherpetic drugs selectively inhibit viral DNA polymerase. The purine-benzoxazine conjugate LAS-131 ((S)-4-[6-(purin-6-yl)aminohexanoyl]-7,8-difluoro-3,4-dihydro-3-methyl-2H-[1,4]benzoxazine), which we have described earlier, uses the large subunit of the HSV-1 terminase complex as a biotarget and selectively inhibits HSV-1 reproduction in vitro. Basically new results were for the first time obtained to characterize the combined effect on human herpesvirus infection for LAS-131 used in combination with practically significant antiviral compounds, including the nucleoside analogs acyclovir (ACV), penciclovir (PCV), ganciclovir (GCV), brivudine (BVdU), iododeoxyuridine (IdU), and adenine arabinoside (Ara-A); the nucleoside phosphonate analog cidofovir (CDV); and the pyrophosphate analog foscarnet (FOS). A cytopathic effect (CPE) inhibition assay showed that the drug concentration that inhibited the virus-induced CPE by 50% decreased by a factor of 2 (an additive effect, FOS) or more (a synergistic effect; ACV, PCV, GCV, IdU, BVdU, Ara-A, and CDV) when the drugs were used in combination with LAS-131. Nonpermissive conditions for HSV-1 reproduction were thus created at lower drug concentrations, opening up new real possibilities to control human herpesvirus infection.

Development of Drugs with Direct Antiviral Action Based on Azaheterocyclic Systems.

This article discusses the results of studies carried out in recent years by a team of scientists from the Postovskii Institute of Organic Synthesis, Ural Branch, Russian Academy of Sciences, in cooperation with the First President of Russia Boris Yeltsin Ural Federal University, Ural State Medical University, Volgograd State Medical University, and other scientific and production organizations of the country to create triazavirin (riamilovir) and other direct etiotropic antiviral drugs based on azaheterocyclic derivatives.

[Experimental comparative pharmacokinetics of levofloxacin, triazavirin, and related conjugate].

A comparative study of the pharmacokinetics of levofloxacin and triazavirine as well as 2-methylthio-6-nitro-1,2,4-triazolo[5,1-ñ]-1,2,4-triazine-7(4Í)-ide (3S)-(-)-9-fluoro-2,3-dihydro-3-methyl-10-(4-methylpiperazin-1-yl)-7-oxo-7H-pyrido[1,2,3-d,e]-1,4-benzoxazine-6-carboxylic acid (conjugate 2) obtained by conjugation of triazavirine and levofloxacin, representing a new class of pharmacological agents, was carried out in experiments on rats. It is established that conjugate 2 in comparison to individual levofloxacin and triazavirine has a higher relative bioavailability and lower rate of elimination, which can lead to improved effectiveness of therapy at reduced dose and frequency of drug administration.

[Investigation of Therapeutic Efficacy of Triazavirin Against Experimental Forest-Spring Encephalitis on Albino Mice].

The comparative study of the therapeutic efficacy of Triazavirin against experimental Forest-Spring encephalitis on albino mice vs. the active drug Ribavirin® showed that in high doses (200-400 mg/kg) Triazavirin moderately protected the infected animals. A significant increase of the animal lifespan in the test groups (from 4.1 to 4.8 days) and a statistically (p ≤ 0.05) valid decrease of the virus accumulation in the target organ (the brain) were observed.

[Investigation of Prophylactic Efficacy of Triazavirin Against Experimental Forest- Spring Encephalitis on Albino Mice].

Prophylactic efficacy of Triazavirin against experimental Forest-Spring encephalitis was studied on albino mice. vs. the active drug Ribavirin. A significant increase of the animal lifespan in the test groups (from 4 to 5 days) and a statistically (p < or = 0.05) valid decrease of the virus accumulation level in the target organ (the brain) were observed.

[Investigation of Triazavirin antiviral activity against tick-borne encephalitis pathogen in cell culture].

The efficacy of Triazavirin against the tick-borne encephalitis virus was estimated in the sensitive cell culture vs. the active drug Ribavirin. In a concentration of 128 mcg/ml Triazavirin was shown active in inhibition of the tick-borne encephalitis virus reproduction (strain Sofiin) by accumulation in the SKEV cell culture.

[Influence of new thiazole and tetrazole derivatives on the antioxidant status of natural mouse populations having elevated 90Sr].

The studies on Apodemus (S.) uralensis captured on the control, not contaminated, territories and within the East Ural Radioactive Trace (EURT) area with soil pollution by 90Sr up to 16.7 MBq/m2 (451 Ci/km2), an average concentration of 90Sr up to 160 Bq/g of wet bone were performed. Thiazole or tetrazole derivatives, fluoroquinolone (antibacterial medication pefloxacin) were administered intraperitoneally or orally for ten days. The biochemical parameters of lipid peroxidation and antioxidant system in the peripheral blood plas- ma, erythrocytes, liver and spleen were studied. The effect of the preparations on the reduction of the con- centration of TBA-reactive substances (TBARS), the degree of osmotic hemolysis of cells, as well as the RNA/DNA ratio on the increase of the catalase activity, ceruloplasmin content was reflected. It characterizes the orientation on the normalization of the redox balance of homeostasis, the level of destructive processes in cells and tissues and the functional activity of the genome. It helps to increase the radioresistance and non- specific resistance of the organism under conditions of radioactive contamination of the environment.

[A new antiviral drug Triazavirin: results of phase II clinical trial].

The results of the clinical trial testing the efficacy of a new anti-influenza drug Triazavirin are presented in this work. The data of the trial were gathered during the 2010 influenza season. The treatment with oral Triazavirin significantly reduced the duration of the main clinical symptoms of influenza (intoxication, fever, respiratory symptoms), decreased the incidence of the influenza-related complications and the use of symptomatic drugs. The re-isolation rate of the influenza A and B viruses was significantly lower in the patients who were using Triazavirin. The analysis of the clinical data showed that the optimal prescribed dosage was 250 mg 3 times a day.

[Toxicity of triazavirin, a novel Russian antiinfluenza chemotherapeutic].

The study of the toxicity of triazavirin, a new antiinfluenza agent, showed that the maximum concentration of the drug, inducing no microscopically visible changes in the structure of the monolayer and the cells of the MDCK and SKEV cell cultures, was 128 and 100 mcg/ml respectively. The maximum drug dose for single intraperitoneal administration inducing no signs of acute intoxication in albino mice weighing 10-12 g was 1000 mg/kg. In investigation of the chronic toxicity it was shown that oral administration of the drug (by 0.05 ml) to the albino mice in a dose of 200 mg/kg (maximum possible concentration by the solubility) daily for 10 days was well tolerated by the laboratory animals. The maximum tolerable dose of triazavirin for the albino mice was > or = 200 mg/kg.

[Therapeutic efficacy of Triazavirin, a novel Russian chemotherapeutic, against influenza virus A (H5N1)].

Therapeutic activity of Triazavirin against experimental influenza A was studied on albino mice intranazally infected with influenza virus A/Chicken/Kurgan/Russia/02/05 (H5N1) vs. reference drugs (Oseltamivir, Remantadin and Arbidol). The study showed that in a therapeutic dose of 1 mg/kg Triazavirin was efficient in protection of the animals from death. Its protective therapeutic efficacy (36.7+/-1.7%) was close to that of Oseltamivir (50.0+/-0.0%), comparable with that of Remantadin (38.3+/-1.7%) and higher than that of Arbidol (11.7+/-1.7%). During the whole observation period (up to the terminal phase) Triazavirin inhibited the influenza virus A accumulation in the lungs of the infected albino mice by more than 3 lg.

Inhibition of DNA gyrase by levofloxacin and related fluorine-containing heterocyclic compounds.

Fluoroquinolones are an important class of modern and efficient antibacterial drugs with a broad spectrum of activity. Levofloxacin (the optically active form of ofloxacin) is one of the most promising fluoroquinolone drugs, and its antibacterial activity is substantially higher than the activity of other drugs of the fluoroquinolone family. Earlier, in the Postovsky Institute of Organic Synthesis, UB RAS, an original method of levofloxacin synthesis was developed, and now the pilot batch of the drug is being prepared. Bacterial DNA gyrase is a specific target of fluoroquinolones; hence, the study of the enzyme-drug interaction is of theoretical and practical importance. Moreover, the parameters of DNA gyrase inhibition may serve as a criterion for drug quality. Here, we present the results of studying the interaction of DNA gyrase with a number of fluoroquinolones and their analogs: intermediates and semi-products of the levofloxacin synthesis, and also samples from the pilot batches of this drug. The importance of two structural elements of the levofloxacin molecule for the efficiency of the inhibition is revealed. The data obtained may be useful for the design of new drugs derived from levofloxacin.

[Triazavirin prophylactic efficacy against influenza virus A (H5N1)].

The experimental study of the prophylactic efficacy of Triazaverin against the experimental form of the influenza virus A (H5N1) on albino mice intranasally infected with the influenza virus A/Chicken/Kurgan/Russia/02/05 vs. the reference drugs Tamiflu, Remantadin and Arbidol showed that in doses of 1 to 100 mg/kg it was efficient in the animal protection from death. The drug was also efficient in the urgent prophylaxis. Triazaverin effectively inhibited the influenza A virus multiplication in the lungs of the albino mice.

[Investigation of triazavirin antiviral activity against influenza A virus (H5N1) in cell culture].

Analysis of triazavirin efficacy with respect to influenza A virus (H5N1) in sensitive cell culture MDSK vs. effective antigrippe drugs, such as tamiflu, remantadin and arbidol showed that triazavirin in a wide range of the concentrations was efficient in inhibition of the virus cytopathic activity and formation of the specific hemagglutinin.

[Synthesis and tuberculostatic activity of fluoridized 3-Z-hydrazine-2-benzoyl acrylates and their cyclization products]. / Sintez i tuberkulostaticheskaia aktivnost' ftorirovannykh 3-Z-gidrazino-2-benzoilakrilatov i produktov ikh tsiklizatsii.

A rapid development of the resistance of drugs and their toxic and adverse reactions suggest that new antituberculous drugs should be designed. Of the greatest importance is isoniazid resistance. Testing new compounds (IIa, b) has established that the minimum inhibitory concentration of the drug (IIa), 0.39 microgram/ml suppresses the growth of Mycobacterium tuberculosis (MBT) in the macrophages up to 50%, that of the drug (IIb), 1.56 micrograms/ml, causes death in 25% of cases, which is indicative of the high activity of compounds (IIa, b) against MBT.