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Investigating the Role of PIR1 and CD200R1 in the Innate Immune Response to Viral Pathogens

MacKay, Christopher R.
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Student Authors
Faculty Advisor
Evelyn A. Kurt-Jones, Ph.D.
Academic Program
MD/PhD
Document Type
Doctoral Dissertation
Publication Date
2017-05-30
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Abstract

After initially being infected with a virus, before an adaptive immune response can be mounted, the innate immune system of a cell recognizes and responds to certain patterns present in pathogenic molecules. I studied the role of two genes—PIR1 and CD200R1—on the innate immune responses in two different mouse models of viral infection, infection with the picornavirus EMCV (encephalomyocarditis virus) and infection with HSV-1 (herpes simplex virus) in a mouse model of herpes simplex encephalitis, respectively.

PIR1 is a putative RNA phosphatase that has been shown to play an important role in antiviral small RNA processing in C. elegans. It has also been shown to interact with the RIG-I-like receptor LGP2 in preliminary mammalian experiments. I sought to characterize the effect PIR1 has on the innate immune response to the virus EMCV in mice. By developing a PIR1-null mouse, I have found that the role of PIR1 in the progression of EMCV in mice is limited. However, in vitro studies show that PIR1 might play an important role in regulating foreign RNA recognition during the earliest time points post-infection.

CD200R1 is an anti-inflammatory signaling molecule that is expressed on myeloidderived cells, and whose ligand is highly expressed within the central nervous system. I investigated the role of this receptor in an intracranial model of herpes simplex encephalitis. CD200R1KO mice show improved survival following direct intracranial infection with HSV. I found this increased survival can be attributed to decreased levels of viral replication in CD200R1KO compared to wild-type mice. Further investigation has shown that CD200R1 affects the signaling and upregulation of the pattern-recognition receptor TLR-2 (toll-like receptor 2), and thus CD200R1 may impact HSV-1 replication by affecting TLR2 signaling.

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DOI
10.13028/M2602R
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Licensed under a Creative Commons license