4.6 Article

Mouse Cytomegalovirus m153 Protein Stabilizes Expression of the Inhibitory NKR-P1B Ligand Clr-b

Journal

JOURNAL OF VIROLOGY
Volume 94, Issue 1, Pages -

Publisher

AMER SOC MICROBIOLOGY
DOI: 10.1128/JVI.01220-19

Keywords

natural killer cell; mouse cytomegalovirus; MCMV; Nkrp1-Clr; missing-self recognition; host-pathogen interactions; m145 family; viral immune evasion; natural killer cells

Categories

Funding

  1. National Sciences and Engineering Research Council of Canada
  2. Burroughs Wellcome Fund (BWF)
  3. Cancer Research Institute
  4. Science Without Borders scholarship from the Brazilian National Council for Scientific and Technological Development (CNPq)
  5. Canadian Institute of Health Research [86630, 106491, 136808]
  6. Burroughs Wellcome Fund [1007761]
  7. European Regional and Development Fund [01.1.1.01.0006]
  8. European Regional Development Fund
  9. NIAID, NIH [ZIA AI001028-11]

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Natural killer (NK) cells are a subset of innate lymphoid cells (ILC) capable of recognizing stressed and infected cells through multiple germ line-encoded receptor-ligand interactions. Missing-self recognition involves NK cell sensing of the loss of host-encoded inhibitory ligands on target cells, including MHC class I (MHC-I) molecules and other MHC-I-independent ligands. Mouse cytomegalovirus (MCMV) infection promotes a rapid host-mediated loss of the inhibitory NKR-P1B ligand Clr-b (encoded by Clec2d) on infected cells. Here we provide evidence that an MCMV m145 family member, m153, functions to stabilize cell surface Clr-b during MCMV infection. Ectopic expression of m153 in fibroblasts augments Clr-b cell surface levels. Moreover, infections using m153-deficient MCMV mutants (Delta m144-m158 and Delta m153) show an accelerated and exacerbated Clr-b downregulation. Importantly, enhanced loss of Clr-b during Am153 mutant infection reverts to wild-type levels upon exogenous m153 complementation in fibroblasts. While the effects of m153 on Clr-b levels are independent of Clec2d transcription, imaging experiments revealed that the m153 and Clr-b proteins only minimally colocalize within the same subcellular compartments, and tagged versions of the proteins were refractory to coimmunoprecipitation under mild-detergent conditions. Surprisingly, the Delta m153 mutant possesses enhanced virulence in vivo, independent of both Clr-b and NKR-P1B, suggesting that m153 potentially targets additional host factors. Nevertheless, the present data highlight a unique mechanism by which MCMV modulates NK ligand expression. IMPORTANCE Cytomegaloviruses are betaherpesviruses that in immunocompromised individuals can lead to severe pathologies. These viruses encode various gene products that serve to evade innate immune recognition. NK cells are among the first immune cells that respond to CMV infection and use germ line-encoded NK cell receptors (NKR) to distinguish healthy from virus-infected cells. One such axis that plays a critical role in NK recognition involves the inhibitory NKR-P1B receptor, which engages the host ligand Clr-b, a molecule commonly lost on stressed cells (missing-self). In this study, we discovered that mouse CMV utilizes the m153 glycoprotein to circumvent host-mediated Clr-b downregulation, in order to evade NK recognition. These results highlight a novel MCMV-mediated immune evasion strategy.

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