Background: Benzimidazole D-ribonucleosides are potent and selective inhibitors of CMV infection that have been shown to target the viral terminase, the enzyme complex responsible for viral DNA cleavage into single unit-length genomes and subsequent DNA packaging into procapsids. Here, we evaluated the viral inhibition by benzimidazole D-ribonucleosides against rat cytomegalovirus (RCMV).
Methods: Antiviral activity of compounds Cl4RB and BTCRB against RCMV was quantified by measurement of plaque formation. Yield assays and electron microscopy of thin sections was performed using RCMV-infected cells in the presence or absence of the compounds. The effects of Cl4RB and BTCRB on cleavage of concatemers was analyzed by pulsed-field gel electrophoresis. To characterize the behaviour of the antiviral compounds in a more physiological environment, a 3D cell culture model was employed where cells are embedded in an extracellular matrix using rat-tail collagen I.
Results: Both compounds had an inhibitory effect against RCMV-E. Electron microscopy revealed that only few virions were formed in RCMV-E infected cells in the presence of the compounds. Pulsed-field gel electrophoresis showed that DNA concatemers failed to be processed in the presence of the compounds. Yield Assays showed a comparable viral growth in the 3D vs. 2D cell culture as well as inhibition in the presence of Cl4RB or BTCRB for RCMV-E/GFP.
Conclusions: These results demonstrate that the tetrahalogenated benzimidazole D-ribonucleosides are effective against RCMV-E by preventing cleavage of concatemeric DNA and nuclear egress of mature capsids.
Keywords: Antiviral activity; Cleavage of concatemers; DNA packaging; Rat cytomegalovirus; Tetrahalogenated benzimidazoles.
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