Litcius/Paper detail

T cells protect against hepatitis A virus infection and limit infection-induced liver injury

Ichiro Misumi, Joseph E. Mitchell, Makayla M. Lund, John M. Cullen, Stanley M. Lemon, Jason K. Whitmire

2021Journal of Hepatology35 citationsDOIOpen Access PDF

Abstract

•T cells protect against HAV-mediated liver injury and can be targeted to improve liver health.•Ifnar1-/- mice are permissive for HAV and generate HAV-specific T cells within the liver during infection.•HAV replication was enhanced and liver disease exacerbated when mice were depleted of CD4+ or CD8+ T cells.•Peptide vaccination increased virus-specific CD8+ T cell frequencies and reduced viral RNA and liver injury. Background & AimsHepatitis A virus (HAV) is a common cause of enterically transmitted viral hepatitis. In non-immune individuals, infection results in typically transient but occasionally fulminant and fatal inflammatory liver injury. Virus-specific T cell frequencies peak when liver damage is at its zenith, leading to the prevalent notion that T cells exacerbate liver disease, as suspected for other hepatotropic virus infections. However, the overall contribution of T cells to the control of HAV and the pathogenesis of hepatitis A is unclear and has been impeded by a historic lack of small animal models.MethodsIfnar1-/- mice are highly permissive for HAV and develop pathogenesis that recapitulates many features of hepatitis A. Using this model, we identified HAV-specific CD8+ and CD4+ T cells by epitope mapping, and then used tetramers and functional assays to quantify T cells in the liver at multiple times after infection. We assessed the relationships between HAV-specific T cell frequency, viral RNA amounts, and liver pathogenesis.ResultsA large population of virus-specific T cells accumulated within the livers of Ifnar1-/- mice during the first 1-2 weeks of infection and persisted over time. HAV replication was enhanced and liver disease exacerbated when mice were depleted of T cells. Conversely, immunization with a peptide vaccine increased virus-specific CD8+ T cell frequencies in the liver, reduced viral RNA abundance, and lessened liver injury.ConclusionThese data show that T cells protect against HAV-mediated liver injury and can be targeted to improve liver health.Lay summaryHepatitis A virus is a leading cause of acute viral hepatitis worldwide. T cells were thought to contribute to liver injury during acute infection. We now show that virus-specific T cells protect against infection and limit liver injury. Hepatitis A virus (HAV) is a common cause of enterically transmitted viral hepatitis. In non-immune individuals, infection results in typically transient but occasionally fulminant and fatal inflammatory liver injury. Virus-specific T cell frequencies peak when liver damage is at its zenith, leading to the prevalent notion that T cells exacerbate liver disease, as suspected for other hepatotropic virus infections. However, the overall contribution of T cells to the control of HAV and the pathogenesis of hepatitis A is unclear and has been impeded by a historic lack of small animal models. Ifnar1-/- mice are highly permissive for HAV and develop pathogenesis that recapitulates many features of hepatitis A. Using this model, we identified HAV-specific CD8+ and CD4+ T cells by epitope mapping, and then used tetramers and functional assays to quantify T cells in the liver at multiple times after infection. We assessed the relationships between HAV-specific T cell frequency, viral RNA amounts, and liver pathogenesis. A large population of virus-specific T cells accumulated within the livers of Ifnar1-/- mice during the first 1-2 weeks of infection and persisted over time. HAV replication was enhanced and liver disease exacerbated when mice were depleted of T cells. Conversely, immunization with a peptide vaccine increased virus-specific CD8+ T cell frequencies in the liver, reduced viral RNA abundance, and lessened liver injury. These data show that T cells protect against HAV-mediated liver injury and can be targeted to improve liver health.

Topics & Concepts

VirologyVirusPathogenesisImmunologyImmune systemCD8BiologyLiver diseaseLiver injuryViral hepatitisViral replicationT cellMedicinePharmacologyBiochemistryHepatitis Viruses Studies and EpidemiologyViral gastroenteritis research and epidemiologyViral Infections and Immunology Research