Directed Nucleosome Sliding during the Formation of the Simian Virus 40 Particle Exposes DNA Sequences Required for Early Transcription.

Simian virus 40 (SV40) exists as chromatin throughout its life cycle and undergoes typical epigenetic regulation mediated by changes in nucleosome location and associated histone modifications. In order to investigate the role of epigenetic regulation during the encapsidation of late-stage minichromosomes into virions, we mapped the locations of nucleosomes containing acetylated or methylated lysines in the histone tails of H3 and H4 present in the chromatin from 48-h-postinfection minichromosomes and disrupted virions. In minichromosomes obtained late in infection, nucleosomes were found carrying various histone modifications primarily in the regulatory region, with a major nucleosome located within the enhancer and other nucleosomes at the early and late transcriptional start sites. The nucleosome found in the enhancer would be expected to repress early transcription by blocking access to part of the SP1 binding sites and the left side of the enhancer in late-stage minichromosomes while also allowing late transcription. In chromatin from virions, the principal nucleosome located in the enhancer was shifted ∼70 bases in the late direction from what was found in minichromosomes, and the level of modified histones was increased throughout the genome. The shifting of the enhancer-associated nucleosome to the late side would effectively serve as a switch to relieve the repression of early transcription found in late minichromosomes while likely also repressing late transcription by blocking access to necessary regulatory sequences. This epigenetic switch appeared to occur during the final stage of virion formation.IMPORTANCE For a virus to complete infection, it must produce a new virus particle in which the genome is able to support a new infection. This is particularly important for viruses like simian virus 40 (SV40), which exist as chromatin throughout their life cycles, since chromatin structure plays a major role in the regulation of the life cycle. In order to determine the role of SV40 chromatin structure late in infection, we mapped the locations of nucleosomes and their histone tail modifications in SV40 minichromosomes and in the SV40 chromatin found in virions using chromatin immunoprecipitation-DNA sequencing (ChIP-Seq). We have identified a novel viral transcriptional control mechanism in which a nucleosome found in the regulatory region of the SV40 minichromosome is directed to slide during the formation of the virus particle, exposing transcription factor binding sites required for early transcription that were previously blocked by the presence of the nucleosome.

Nucleosome positioning in the regulatory region of SV40 chromatin correlates with the activation and repression of early and late transcription during infection.

The location of nucleosomes in SV40 virions and minichromosomes isolated during infection were determined by next generation sequencing (NGS). The patterns of reads within the regulatory region of chromatin from wild-type virions indicated that micrococcal nuclease-resistant nucleosomes were specifically positioned at nt 5223 and nt 363, while in minichromosomes isolated 48 h post-infection we observed nuclease-resistant nucleosomes at nt 5119 and nt 212. The nucleosomes at nt 5223 and nt 363 in virion chromatin would be expected to repress early and late transcription, respectively. In virions from the mutant cs1085, which does not repress early transcription, we found that these two nucleosomes were significantly reduced compared to wild-type virions confirming a repressive role for them. In chromatin from cells infected for only 30min with wild-type virus, we observed a significant reduction in the nucleosomes at nt 5223 and nt 363 indicating that the potential repression by these nucleosomes appeared to be relieved very early in infection.