Herpes simplex virus-1 evasion of CD8+ T cell accumulation contributes to viral encephalitis
Naoto Koyanagi, … , Akihisa Kato, Yasushi Kawaguchi
Naoto Koyanagi, … , Akihisa Kato, Yasushi Kawaguchi
Published September 11, 2017
Citation Information: J Clin Invest. 2017;127(10):3784-3795. https://doi.org/10.1172/JCI92931.
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Research Article Virology

Herpes simplex virus-1 evasion of CD8+ T cell accumulation contributes to viral encephalitis

Abstract

Herpes simplex virus–1 (HSV-1) is the most common cause of sporadic viral encephalitis, which can be lethal or result in severe neurological defects even with antiviral therapy. While HSV-1 causes encephalitis in spite of HSV-1–specific humoral and cellular immunity, the mechanism by which HSV-1 evades the immune system in the central nervous system (CNS) remains unknown. Here we describe a strategy by which HSV-1 avoids immune targeting in the CNS. The HSV-1 UL13 kinase promotes evasion of HSV-1–specific CD8+ T cell accumulation in infection sites by downregulating expression of the CD8+ T cell attractant chemokine CXCL9 in the CNS of infected mice, leading to increased HSV-1 mortality due to encephalitis. Direct injection of CXCL9 into the CNS infection site enhanced HSV-1–specific CD8+ T cell accumulation, leading to marked improvements in the survival of infected mice. This previously uncharacterized strategy for HSV-1 evasion of CD8+ T cell accumulation in the CNS has important implications for understanding the pathogenesis and clinical treatment of HSV-1 encephalitis.

Authors

Naoto Koyanagi, Takahiko Imai, Keiko Shindo, Ayuko Sato, Wataru Fujii, Takeshi Ichinohe, Naoki Takemura, Shigeru Kakuta, Satoshi Uematsu, Hiroshi Kiyono, Yuhei Maruzuru, Jun Arii, Akihisa Kato, Yasushi Kawaguchi

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Figure 3

Effect of HSV-1 UL13 kinase activity on the accumulation of CD8+ T cells in the infected brain stems of mice following ocular infection.

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Effect of HSV-1 UL13 kinase activity on the accumulation of CD8+ T cells...
(A, B, E, and F) Five-week-old female ICR mice were mock-infected or infected with 1 × 106 PFU UL13R or UL13KM per eye. At 5 or 7 days after infection, brain stem (A and E) and submandibular lymph node (B and F) samples were processed and analyzed for CD8+ T (CD8+, CD3+, and CD45+) (A and B) or CD4+ T (CD4+, CD3+, and CD45+) (E and F) cell content by flow cytometry. The results from 3 independent experiments (1 with 3 mice and 2 with 4 mice for the 5 days post-infection experiments, and 3 with 4 mice for the 7 days post-infection experiments) were combined. Each data point is the number of CD8+ or CD4+ T cells in the brain stem (A and E) or submandibular lymph node (B and F) of one mouse. (C and D) At 7 days after infection, CD8+ T cells purified from brain stem (C) and submandibular lymph node samples (D) were assayed for the number of IFN-γ–producing cells by ELISPOT assays. The results from 3 independent experiments (each with 4 mice) were combined. Each data point is the number of IFN-γ–producing CD8+ T cells in the brain stem (C) or submandibular lymph node (D) of one mouse. Statistical significance values were analyzed by the Mann-Whitney U test.