Abstract
Therapeutics targeting virus–host interactions have been considered promising strategies for treating herpesvirus infection. Our previous study on avian infectious laryngotracheitis virus (ILTV), an avian herpesvirus economically important to the poultry industry worldwide, identified the small molecule Pifithrin-α (PFT-α) as a potential therapeutic agent. However, the underlying mechanisms of its antiviral function remain largely unknown. Using the ILTV-permissive chicken cell line LMH as the model, we found that PFT-α effectively suppressed the transcription and genome replication of ILTV and greatly reduced the level of infectious virions. Genome-wide transcriptome analysis revealed extensive repression of the metabolic processes of infected cells by PFT-α administration. Further metabolome assays of ILTV-infected cells using liquid chromatography coupled with mass spectrometry suggest host nucleotide metabolism and ATP synthesis as the key targets of PFT-α treatment during its repression of ILTV replication, which was experimentally supported by the reduced transcription of many key enzymes essential to nucleotide metabolism and ATP synthesis. The present study provides insights into the mechanisms by which PFT-α inhibits ILTV infection, which may increase the probability of successful clinical application of this molecule.
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