Abstract

The long-term objective of this research is a detailed understanding of herpesvirus DNA polymerases. These enzymes, which include a catalytic subunit (Pol) and an accessory subunit that stimulates long-chain DNA synthesis, are prototype alpha-like DNA polymerases and excellent targets for antiviral drugs. New drugs are needed for treatment of herpesvirus infections, especially those caused by human cytomegalovirus (CMV) in immunosuppressed patients such as those with AIDS.
Specific aim 1 is to determine mechanisms that regulate translation of HSV Pol and their importance to the virus. Mutational, RNA-binding, and translational analyses will test the hypotheses that a virion protein, US11, stimulates Pol translation early in infection, while inefficient translation later is beneficial to the virus.
Specific aim 2 is to analyze the interaction of the accessory subunit, HSV UL42, with DNA that permits sliding despite high affinity binding and the implications of this interaction for processive DNA synthesis. The UL42-DNA interaction will be explored using mutational approaches, protein-DNA crosslinking, measurements of affinity, on, off, and sliding rates, and single molecule studies and will be correlated with effects on processivity.
Specific aim 3 is to determine mechanisms by which mutant CMV Pols, especially those altered in exonuclease motifs, resist ganciclovir (GCV) action, by analyzinf Pol interactions with GCV-TP and GCV-containing DNA.
Specific aim 4 is to investigate CMV Pol's interaction with its accessory subunit, UL44. Interacting residues will be defined genetically and tested for their importance in CMV DNA and viral replication to determine if this interaction is a valid drug target. If so, a high throughput screening assay will be used to discover new antiviral drugs.
Specific aim 5 is to use X-ray crystallography and, if necessary, nuclear magnetic resonance, to solve the three dimensional structures of domains of HSV US11, and HSV and CMV DNA polymerase and/or domains thereof to gain basic information regarding polymerase functions and as a starting point for drug discovery.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI019838-22
Application #
6872884
Study Section
Virology Study Section (VR)
Program Officer
Beisel, Christopher E
Project Start
1983-04-01
Project End
2007-03-31
Budget Start
2005-04-01
Budget End
2006-03-31
Support Year
22
Fiscal Year
2005
Total Cost
$387,000
Indirect Cost

  Institution

Name
Harvard University
Department
Biochemistry
Type
Schools of Medicine
DUNS #
047006379
City
Boston
State
MA
Country
United States
Zip Code
02115

  Publications

Lawler, Jessica L; Mukherjee, Purba; Coen, Donald M (2018) Herpes Simplex Virus 1 DNA Polymerase RNase H Activity Acts in a 3'-to-5' Direction and Is Dependent on the 3'-to-5' Exonuclease Active Site. J Virol 92:
Beelontally, Rooksarr; Wilkie, Gavin S; Lau, Betty et al. (2017) Identification of compounds with anti-human cytomegalovirus activity that inhibit production of IE2 proteins. Antiviral Res 138:61-67
Strang, Blair L (2017) RO0504985 is an inhibitor of CMGC kinase proteins and has anti-human cytomegalovirus activity. Antiviral Res 144:21-26
Chen, Han; Coseno, Molly; Ficarro, Scott B et al. (2017) A Small Covalent Allosteric Inhibitor of Human Cytomegalovirus DNA Polymerase Subunit Interactions. ACS Infect Dis 3:112-118
Khan, Amina S; Murray, Matthew J; Ho, Catherine M K et al. (2017) High-throughput screening of a GlaxoSmithKline protein kinase inhibitor set identifies an inhibitor of human cytomegalovirus replication that prevents CREB and histone H3 post-translational modification. J Gen Virol 98:754-768
Polachek, William S; Moshrif, Hanan F; Franti, Michael et al. (2016) High-Throughput Small Interfering RNA Screening Identifies Phosphatidylinositol 3-Kinase Class II Alpha as Important for Production of Human Cytomegalovirus Virions. J Virol 90:8360-71
Wilkie, Adrian R; Lawler, Jessica L; Coen, Donald M (2016) A Role for Nuclear F-Actin Induction in Human Cytomegalovirus Nuclear Egress. MBio 7:
Chen, Han; Li, Chengwei; Zemlicka, Jiri et al. (2016) Potency and Stereoselectivity of Cyclopropavir Triphosphate Action on Human Cytomegalovirus DNA Polymerase. Antimicrob Agents Chemother 60:4176-82
Bender, Brian J; Coen, Donald M; Strang, Blair L (2014) Dynamic and nucleolin-dependent localization of human cytomegalovirus UL84 to the periphery of viral replication compartments and nucleoli. J Virol 88:11738-47
Chen, Han; Beardsley, G Peter; Coen, Donald M (2014) Mechanism of ganciclovir-induced chain termination revealed by resistant viral polymerase mutants with reduced exonuclease activity. Proc Natl Acad Sci U S A 111:17462-7

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