Microbiology Spectrum (Dec 2024)

Identifying the amino acid domains of ORF59 responsible for interactions with ORF57 and PAN RNA during KSHV lytic replication

  • Shannon Harger Payen,
  • Isaura Vanessa Gutierrez,
  • Kayla Andrada,
  • Subhash C. Verma,
  • Cyprian C. Rossetto

DOI
https://doi.org/10.1128/spectrum.01163-24
Journal volume & issue
Vol. 12, no. 12

Abstract

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ABSTRACT Kaposi’s sarcoma-associated herpesvirus (KSHV) DNA polymerase processivity factor, ORF59, is a lytic protein essential for viral DNA synthesis as part of the core replication complex. The multifunctional nature of ORF59 has prompted the investigation into its various functional domains. Prior studies of ORF59 have identified dimerization, DNA interaction, and polymerase interaction domains. The regions of ORF59 responsible for the interaction with the viral mRNA transport accumulation protein (MTA/ORF57) and the viral long non-coding polyadenylated nuclear (PAN) RNA have not been explored. Using a series of previously characterized ORF59 deletion KSHV BACmid mutants, we identified the domains of ORF59 that interact with ORF57 and PAN RNA. Interestingly, amino acids 51–100 were essential for interacting with both ORF57 and PAN RNA. Using this information, we generated a plasmid that expresses a DsRed-tagged polypeptide spanning amino acids 30–100 of ORF59. When the 30–100 aa DsRed-tagged polypeptide expression plasmid was transfected into KSHV wild-type iSLK cells prior to lytic reactivation, a dominant-negative inhibition of virus replication was observed, resulting in a decrease of infectious virus production. Our data suggest that interactions between ORF59 with ORF57 and PAN RNA are important to successful lytic replication.IMPORTANCETo better understand the Kaposi’s sarcoma-associated herpesvirus (KSHV) DNA polymerase processivity factor ORF59, we investigated the interaction of ORF59 with ORF57 and polyadenylated nuclear (PAN) RNA. We used a previously characterized KSHV BACmid containing internal deletions of ORF59 to identify the domains of ORF59 that interact with ORF57 and PAN RNA. Our study revealed multiple domains of ORF59 that are essential for its association with PAN RNA. These domains span amino acids 51–100, 251–300, and 351–396. Additional experiments confirmed amino acids 51–100 are critical for the interaction between ORF59 and ORF57. Using this information, we generated an expression plasmid encompassing the ORF57 and PAN RNA interaction domains of ORF59. The ORF59 polypeptide expression plasmid of amino acids 30–100 functioned as a dominant negative inhibitor during viral reactivation and caused a decrease in virus production. These findings provide valuable insights into the key domains of ORF59, essential for its functionality, and ultimately the production of infectious viruses.

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