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HSV-1 LAT Promoter Deletion Viruses Exhibit Strain-Specific and LAT-Dependent Epigenetic Regulation of Latent Viral Genomes in Human Neurons

Tristan R. Grams, Terri G. Edwards, David C. Bloom

2023Journal of Virology12 citationsDOIOpen Access PDF

Abstract

Herpes simplex virus 1 (HSV-1) establishes a lifelong infection in neuronal cells. Periodically, the virus reactivates from this latent state and causes recurrent disease. Mechanisms that control entry into and maintenance of latency are not well understood, though epigenetic posttranslational modification of histones associated with the viral genome are known to play an important role. During latency, the latency-associated transcript (LAT) is known to impact epigenetic marks, but the ultimate effect has been a point of controversy. Here, we utilize a human neuronal cell line model of HSV latency and reactivation (LUHMES) to characterize latency for two HSV-1 wild-type strains and their respective LAT promoter deletion viruses. We find that the LAT acts in a strain-specific manner to influence levels of chromatin marks, viral transcription, and viral protein production. This work highlights the need to account for strain-specific differences when characterizing the LAT's function and the dynamics of reactivation.

Topics & Concepts

BiologyVirus latencyHerpes simplex virusGeneticsGenomeEpigeneticsVirologyLatent VirusVirusGeneViral replicationHerpesvirus Infections and TreatmentsPlant Virus Research Studiesinterferon and immune responses