4.7 Article

Intracellular neutralisation of rotavirus by VP6-specific IgG

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PLOS PATHOGENS
卷 16, 期 8, 页码 -

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PUBLIC LIBRARY SCIENCE
DOI: 10.1371/journal.ppat.1008732

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资金

  1. MRC (UK) [U105181010]
  2. Wellcome Trust Investigator Award
  3. Wellcome Trust Clinical Research Career Development Fellowship
  4. Magdalene College, Cambridge
  5. Research Council of Norway [251037, 287927]
  6. South-Eastern Norway Regional Health Authority [2018052]
  7. MRC [MC_U105181010] Funding Source: UKRI

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Author summary Rotavirus is the leading cause of gastroenteritis in children worldwide. Effective rotavirus vaccines have been available for over a decade, but detailed understanding of the immune response to rotavirus infection is essential for further improvement of vaccines. High levels of antibodies are made in response to infection, especially antibodies targeting the inner capsid protein VP6, but while both IgA and IgG isotypes are produced, previous work has focused predominantly on VP6-specific IgA. In this study we sought to evaluate the importance of VP6-specific IgG in rotavirus protection. As VP6-specific antibodies target incomplete rotavirus particles inside cells, we developed a new assay to examine how antibodies neutralise rotavirus intracellularly. We showed that neutralisation by VP6-specific IgG was much more efficient than VP6-specific IgA, due to the activity of the cytosolic antibody receptor TRIM21. This was confirmed using a mouse model of rotavirus infection. Furthermore, mice with normal IgA levels but deficient in IgG had a serious deficit in intracellular antibody-mediated protection. Our finding that VP6-specific IgG protect mice against rotavirus infection may be valuable for predicting whether new rotavirus vaccines will work. Current assays to determine protection in humans focus on measuring rotavirus-specific IgA titres. We propose that including measurements of VP6-specific IgG may improve knowledge on correlates of protection. Rotavirus is a major cause of gastroenteritis in children, with infection typically inducing high levels of protective antibodies. Antibodies targeting the middle capsid protein VP6 are particularly abundant, and as VP6 is only exposed inside cells, neutralisation must be post-entry. However, while a system of poly immune globulin receptor (pIgR) transcytosis has been proposed for anti-VP6 IgAs, the mechanism by which VP6-specific IgG mediates protection remains less clear. We have developed an intracellular neutralisation assay to examine how antibodies neutralise rotavirus inside cells, enabling comparison between IgG and IgA isotypes. Unexpectedly we found that neutralisation by VP6-specific IgG was much more efficient than by VP6-specific IgA. This observation was highly dependent on the activity of the cytosolic antibody receptor TRIM21 and was confirmed using anin vivomodel of murine rotavirus infection. Furthermore, mice deficient in only IgG and not other antibody isotypes had a serious deficit in intracellular antibody-mediated protection. The finding that VP6-specific IgG protect mice against rotavirus infection has important implications for rotavirus vaccination. Current assays determine protection in humans predominantly by measuring rotavirus-specific IgA titres. Measurements of VP6-specific IgG may add to existing mechanistic correlates of protection.

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