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The three-dimensional structure of Epstein-Barr virus genome varies by latency type and is regulated by PARP1 enzymatic activity
Morgan, Sarah M. Tanizawa, Hideki Caruso, Lisa Beatrice Hulse, Michael Kossenkov, Andrew Madzo, Josef Keith, Kelsey Tan, Yinfei Boyle, Sarah Lieberman, Paul M.
Morgan, Sarah M.
Tanizawa, Hideki
Caruso, Lisa Beatrice
Hulse, Michael
Kossenkov, Andrew
Madzo, Josef
Keith, Kelsey
Tan, Yinfei
Boyle, Sarah
Lieberman, Paul M.
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2022-01-17
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http://dx.doi.org/10.1038/s41467-021-27894-1
Abstract
Epstein-Barr virus (EBV) persists in human B-cells by maintaining its chromatinized episomes within the nucleus. We have previously shown that cellular factor Poly [ADP-ribose] polymerase 1 (PARP1) binds the EBV genome, stabilizes CTCF binding at specific loci, and that PARP1 enzymatic activity correlates with maintaining a transcriptionally active latency program. To better understand PARP1’s role in regulating EBV latency, here we functionally characterize the effect of PARP enzymatic inhibition on episomal structure through in situ HiC mapping, generating a complete 3D structure of the EBV genome. We also map intragenomic contact changes after PARP inhibition to global binding of chromatin looping factors CTCF and cohesin across the EBV genome. We find that PARP inhibition leads to fewer total unique intragenomic interactions within the EBV episome, yet new chromatin loops distinct from the untreated episome are also formed. This study also illustrates that PARP inhibition alters gene expression at the regions where chromatin looping is most effected. We observe that PARP1 inhibition does not alter cohesin binding sites but does increase its frequency of binding at those sites. Taken together, these findings demonstrate that PARP has an essential role in regulating global EBV chromatin structure and latent gene expression.
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Morgan, S.M., Tanizawa, H., Caruso, L.B. et al. The three-dimensional structure of Epstein-Barr virus genome varies by latency type and is regulated by PARP1 enzymatic activity. Nat Commun 13, 187 (2022). https://doi.org/10.1038/s41467-021-27894-1
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Nature Research
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Nature Communications, Vol. 13
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