Abstract

Herpes simplex virus type 1 (HSV-1) is a clinically relevant pathogen infecting 150 to 200 million Americans in which 20% will experience recurrent reactivation of latent virus. In the ophthalmic community, it is the leading cause of infectious corneal blindness in the industrialized world as a result of reactivation of latent virus. The prevalence and success of this virus is thought to reside in the immune evading mechanisms that have developed through co-evolution with the human host. Type I interferons (IFN) are a principal target of the virus countering resistance to the anti-viral effects of this cytokine. We have established pathways necessary for type I IFN-induced resistance to acute ocular HSV-1 and genital HSV-2 infection. We have also identified efficacious and non-efficacious type I IFN transgenes and have begun a discovery proteomics approach to identify proteins specifically modified by the efficacious type I IFN transgene. Preliminary data also suggest type I IFN and IFN-gamma (type II IFN) transgenes are able to partially or completely block HSV-1 reactivation in TG explant cultures. Based on our promising preliminary results and ongoing study, we propose to test the hypothesis that type I and type II IFNs block HSV-1 reactivation in vitro and in vivo through novel processes that may be independent of conventional IFN-inducible pathways including OAS and PKR. To test this hypothesis, we plan to: 1) characterize the predicted synergistic effect of type I and type II IFN in the prevention of HSV-1 reactivation in TG explant cultures, 2) characterize the effect of type I and type II IFN in hindering HSV-1 reactivation in vivo or in blocking the trafficking of virus placed into the sensory ganglion from reaching the cornea of naive mice, 3) characterize the tissue-specific nature of IFN- inducible, anti-viral pathways using transgenic mice expressing type I IFN in the central nervous system that have dysfunctional OAS or PKR pathways, and 4) using discovery and functional proteomics, identify and characterize unique proteins modified by efficacious type I IFN transgene treatment in trigeminal ganglia following in situ transfection. It is anticipated that in achieving this goal, significant insight will be accomplished in the identification of pathways involved in blocking HSV-1 reactivation and spread within the nervous system. ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI053108-06
Application #
7393823
Study Section
Clinical Neuroimmunology and Brain Tumors Study Section (CNBT)
Program Officer
Cassetti, Cristina
Project Start
2003-04-01
Project End
2010-03-31
Budget Start
2008-04-01
Budget End
2009-03-31
Support Year
6
Fiscal Year
2008
Total Cost
$279,097
Indirect Cost

  Institution

Name
University of Oklahoma Health Sciences Center
Department
Ophthalmology
Type
Schools of Medicine
DUNS #
878648294
City
Oklahoma City
State
OK
Country
United States
Zip Code
73117

  Publications

Menendez, Chandra M; Carr, Daniel J J (2017) Herpes simplex virus-1 infects the olfactory bulb shortly following ocular infection and exhibits a long-term inflammatory profile in the form of effector and HSV-1-specific T cells. J Neuroinflammation 14:124
Menendez, Chandra M; Carr, Daniel J J (2017) Defining nervous system susceptibility during acute and latent herpes simplex virus-1 infection. J Neuroimmunol 308:43-49
Royer, D J; Carr, D J J (2016) A STING-dependent innate-sensing pathway mediates resistance to corneal HSV-1 infection via upregulation of the antiviral effector tetherin. Mucosal Immunol 9:1065-75
Zander, Ryan A; Guthmiller, Jenna J; Graham, Amy C et al. (2016) Type I Interferons Induce T Regulatory 1 Responses and Restrict Humoral Immunity during Experimental Malaria. PLoS Pathog 12:e1005945
Royer, Derek J; Conrady, Christopher D; Carr, Daniel J J (2016) Herpesvirus-Associated Lymphadenitis Distorts Fibroblastic Reticular Cell Microarchitecture and Attenuates CD8 T Cell Responses to Neurotropic Infection in Mice Lacking the STING-IFN?/? Defense Pathways. J Immunol 197:2338-52
Menendez, Chandra M; Jinkins, Jeremy K; Carr, Daniel J J (2016) Resident T Cells Are Unable To Control Herpes Simplex Virus-1 Activity in the Brain Ependymal Region during Latency. J Immunol 197:1262-75
Kroll, Chandra M; Zheng, Min; Carr, Daniel J J (2014) Enhanced resistance of CXCR3 deficient mice to ocular HSV-1 infection is due to control of replication in the brain ependyma. J Neuroimmunol 276:219-23
Chucair-Elliott, Ana J; Conrady, Christopher; Zheng, Min et al. (2014) Microglia-induced IL-6 protects against neuronal loss following HSV-1 infection of neural progenitor cells. Glia 62:1418-34
Fung, Ka Yee; Mangan, Niamh E; Cumming, Helen et al. (2013) Interferon-? protects the female reproductive tract from viral and bacterial infection. Science 339:1088-92
Bryant-Hudson, Katie; Conrady, Christopher D; Carr, Daniel J J (2013) Type I interferon and lymphangiogenesis in the HSV-1 infected cornea - are they beneficial to the host? Prog Retin Eye Res 36:281-91

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