Synthesis and Comparative Study of Anti-Adenoviral Activity of 6-Azacytidine and Its Analogues.

This paper presents the results of synthesis and study of cytotoxicity and the anti-adenoviral activity of new N4-derivatives of 6-azacytidine and its α-L-glycopyranosyl analogues obtained by the simplified one-pot version of the silyl condensation method. The resulting acylated 4-methylmercapto-1,2,4-triazin-3(2Н)-one glycosides then underwent the amination and/or ammonolysis to provide 6-azacytidine glycoside analogues (2-6, 12, 15, 17) and compounds with modifications at both base and sugar fragments (11, 15). The evaluation of cytotoxicity and antiviral activity of new compounds against AdV5 showed high selectivity indexes for N4-methyl-6-azacytidine (2) and N,O-tetraacetyl-6-azacytidine (8).

Size matters, so does shape: Inhibition of transcription of T7 RNA polymerase by iron(II) clathrochelates.

Coordination and organoelement compounds are rarely proposed as the drug candidates despite their vast potential in the area owing to their strictly controlled geometry and rather extensive surface. This is the first example of the inhibition of transcription in the system of T7 RNA polymerase by cage metal complexes. Their IC50 values reach as low as the nanomolar range, placing them among the most potent metal-based transcription inhibitors.

Novel N-aryl- and N-heteryl phenazine-1-carboxamides as potential agents for the treatment of infections sustained by drug-resistant and multidrug-resistant Mycobacterium tuberculosis.

We investigated the in vitro activity of a new class of N-aryl and N-heteryl phenazine-1-carboxamide derivatives against Mycobacterium tuberculosis H37Rv and against drug-resistant ATCC M. tuberculosis strains. The activity against M.

New acridone-4-carboxylic acid derivatives as potential inhibitors of hepatitis C virus infection.

A new class of compounds--acridone derivatives--was tested using the direct fluorometric helicase activity assay to determine the inhibitory properties of the derivatives towards the NS3 helicase of Hepatitis C virus (HCV). The compounds were also tested as putative transcription inhibitors of in vitro transcription based on the DNA-dependent T7 RNA polymerase. Most of the acridone derivatives tested were transcription inhibitors; however, only four of them inhibited the NS3 helicase at low concentrations (IC(50) from 3 microM to 20 microM) and were therefore selected for further studies on the mechanism of inhibition.