Murine cytomegalovirus m157 mutation and variation leads to immune evasion of natural killer cells

Effective natural killer (NK) cell recognition of murine cytomegalovirus (MCMV)-infected cells depends on binding of the Ly49H NK cell activation receptor to the m157 viral glycoprotein. Here we addressed the immunological consequences of variation in m157 sequence and function. We found that most strains of MCMV possess forms of m157 that evade Ly49H-dependent NK cell activation. Importantly, repeated passage of MCMV through resistant Ly49H+ mice resulted in the rapid emergence of m157 mutants that elude Ly49H-dependent NK cell responses. These data provide the first molecular evidence that NK cells can exert sufficient immunological pressure on a DNA virus, such that it undergoes rapid and specific mutation in an NK cell ligand enabling it to evade efficient NK cell surveillance.

[1]  L. Lanier,et al.  NKG2D-mediated Natural Killer Cell Protection Against Cytomegalovirus Is Impaired by Viral gp40 Modulation of Retinoic Acid Early Inducible 1 Gene Molecules , 2003, The Journal of experimental medicine.

[2]  P. Gros,et al.  Transgenic Expression of the Activating Natural Killer Receptor Ly49H Confers Resistance to Cytomegalovirus in Genetically Susceptible Mice , 2003, The Journal of experimental medicine.

[3]  W. Yokoyama,et al.  Natural killer cells and viral infections. , 2003, Current opinion in immunology.

[4]  L. Lanier,et al.  Virus-driven evolution of natural killer cell receptors. , 2002, Microbes and infection.

[5]  S. Vidal,et al.  Innate immunity to cytomegalovirus: the Cmv1 locus and its role in natural killer cell function. , 2002, Microbes and infection.

[6]  D. Fremont,et al.  Cutting Edge: Murine UL16-Binding Protein-Like Transcript 1: A Newly Described Transcript Encoding a High-Affinity Ligand for Murine NKG2D1 , 2002, The Journal of Immunology.

[7]  A. Scalzo Successful control of viruses by NK cells--a balance of opposing forces? , 2002, Trends in microbiology.

[8]  P. Parham,et al.  Variable receptors controlling activation and inhibition of NK cells. , 2002, Current opinion in immunology.

[9]  D. Fremont,et al.  Recognition of a virus-encoded ligand by a natural killer cell activation receptor , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[10]  D. Busch,et al.  MCMV glycoprotein gp40 confers virus resistance to CD8+ T cells and NK cells in vivo , 2002, Nature Immunology.

[11]  L. Lanier,et al.  Direct Recognition of Cytomegalovirus by Activating and Inhibitory NK Cell Receptors , 2002, Science.

[12]  Raymond M. Welsh,et al.  Murine Cytomegalovirus Is Regulated by a Discrete Subset of Natural Killer Cells Reactive with Monoclonal Antibody to Ly49h , 2001, The Journal of experimental medicine.

[13]  B. Hazes,et al.  Specificity and function of activating Ly‐49 receptors , 2001, Immunological reviews.

[14]  L. Lanier,et al.  Ligands for natural killer cell receptors: redundancy or specificity , 2001, Immunological reviews.

[15]  A. Diefenbach,et al.  Strategies for target cell recognition by natural killer cells , 2001, Immunological reviews.

[16]  R. Biassoni,et al.  Human natural killer cell receptors and co‐receptors , 2001, Immunological reviews.

[17]  V. Emery Progress in understanding cytomegalovirus drug resistance. , 2001, Journal of clinical virology : the official publication of the Pan American Society for Clinical Virology.

[18]  Jonathan W. Heusel,et al.  Vital Involvement of a Natural Killer Cell Activation Receptor in Resistance to Viral Infection , 2001, Science.

[19]  Seung-Hwan Lee,et al.  Susceptibility to mouse cytomegalovirus is associated with deletion of an activating natural killer cell receptor of the C-type lectin superfamily , 2001, Nature Genetics.

[20]  S. Anderson,et al.  Class I MHC-Binding Characteristics of the 129/J Ly49 Repertoire1 , 2001, The Journal of Immunology.

[21]  T. Mcclanahan,et al.  Retinoic acid early inducible genes define a ligand family for the activating NKG2D receptor in mice. , 2000, Immunity.

[22]  W. Yokoyama,et al.  Development of intra-natural killer complex (NKC) recombinant and congenic mouse strains for mapping and functional analysis of NK cell regulatory loci , 1999, Immunogenetics.

[23]  J. Tilles,et al.  The Role of Natural Killer Cells in Viral Infections , 1997, Scandinavian journal of immunology.

[24]  W. Yokoyama,et al.  The Cmv1 host resistance locus is closely linked to the Ly49 multigene family within the natural killer cell gene complex on mouse chromosome 6. , 1997, Genomics.

[25]  H. Vally,et al.  Inhibition of natural killer cells by a cytomegalovirus MHC class I homologue in vivo , 1997, Nature.

[26]  A. Strasser,et al.  Bcl-2, Bcl-xL and adenovirus protein E1B19kD are functionally equivalent in their ability to inhibit cell death , 1997, Oncogene.

[27]  P. Gros,et al.  High-resolution linkage map in the proximity of the host resistance locus Cmv1. , 1997, Genomics.

[28]  B. Barrell,et al.  Analysis of the complete DNA sequence of murine cytomegalovirus , 1996, Journal of virology.

[29]  P. Lyons,et al.  DNA sequence and transcriptional analysis of the glycoprotein M gene of murine cytomegalovirus. , 1995, The Journal of general virology.

[30]  P. Lyons,et al.  Genetic mapping of Cmv1 in the region of mouse chromosome 6 encoding the NK gene complex-associated loci Ly49 and musNKR-P1. , 1995, Genomics.

[31]  G. Singleton,et al.  Molecular and biological characterization of new strains of murine cytomegalovirus isolated from wild mice , 1993, Archives of Virology.

[32]  R. Burton,et al.  The effect of the Cmv-1 resistance gene, which is linked to the natural killer cell gene complex, is mediated by natural killer cells. , 1992, Journal of immunology.

[33]  R. Welsh,et al.  Generation of "natural killer cell-escape" variants of Pichinde virus during acute and persistent infections , 1992, Journal of virology.

[34]  A. Scalzo,et al.  Cmv-1, a genetic locus that controls murine cytomegalovirus replication in the spleen , 1990, The Journal of experimental medicine.

[35]  G. Trinchieri,et al.  Biology of Natural Killer Cells , 1989, Advances in Immunology.

[36]  P. Lyons,et al.  The BALB.B6-Cmv1r mouse: a strain congenic for Cmv1 and the NK gene complex , 2004, Immunogenetics.

[37]  Eric O Long,et al.  Regulation of immune responses through inhibitory receptors. , 1999, Annual review of immunology.

[38]  P. Lyons,et al.  Assessment of antigenicity and genetic variation of glycoprotein B of murine cytomegalovirus. , 1996, The Journal of general virology.