NK cells are key effectors of innate immunity and host survival during cytomegalovirus (CMV) infection. Innate murine CMV (MCMV) resistance in MA/My mice requires Ly49H/m157-independent H-2k-linked NK cell control. Here we show that replacement of MA/My H-2k with C57L H-2b susceptibility genes led to a remarkable loss of innate virus immunity, though NK gamma interferon was induced in H-2b and H-2k strains shortly after infection. Thus, H-2b genes expressed in C57L or MA/My.L-H2b are sufficient in alerting NK cells to intrusion but fail to support NK restraint of viral infection. In addition, novel H-2 recombinant strains were produced and utilized in a further refinement of a critical genetic interval controlling innate H-2k-linked MCMV resistance. Importantly, this analysis excluded the gene interval from Kk class I through class II. The responsible gene(s) therefore resides in an interval spanning Dk class Ia and more-distal major histocompatibility complex (MHC) nonclassical class Ib genes. Recently, the NK activation receptor Ly49P and MHC class I Dk proteins were genetically implicated in MCMV resistance, in part because Ly49P-expressing reporter T cells could specifically bind Dk molecules on MCMV-infected mouse embryonic fibroblasts (MEFs). However, as we found that H-2k innate resistance differs in the C57L or MA/My backgrounds and because MCMV very efficiently downregulates H-2k class I proteins in L929 cells and primary MEFs shortly after infection, a Ly49P/Dk model should not fully explain H-2k-linked MCMV resistance.
Ly49H+ NK cells play a critical role in innate antiviral immune responses to murine CMV (MCMV). Ly49Hb6 recognition of MCMV-encoded m157 on infected cells activates natural killing required for host resistance. We show that mAb 3D10 (anti-Ly49H) recognizes comparable subsets of NK cells from New Zealand White (NZW), New Zealand Black (NZB), and C57BL/6 spleens. However, virus levels in the spleens of MCMV-infected NZW and NZB mice differed greatly. We found that MCMV replication in infected NZW spleens was limited through NK cells. Alternately, NZB mice were profoundly susceptible to MCMV infection. Although 3D10 mAb injections given before infection interfere with Cmv1-type resistance in C57BL/6 mice, similar mAb injections did not affect NZW resistance, likely because NZW NK cell receptors did not bind MCMV-encoded m157. Instead, anti-MCMV host defenses in hybrid NZ offspring were associated with multiple chromosome locations including several putative quantitative trait loci that did not overlap with H-2 or NK gene complex loci. This study revealed a novel pathway used by NK cells to defend against MCMV infection. Thus, the importance of Ly49H in MCMV infection may be shaped by other additional background genes.
Allelic variability for mouse Chromosome 6 Nkc loci was assessed in 22 common laboratory strains of mice using selected natural killer gene complex (Nkc)-linked sequence tagged site markers. Most Nkc markers distinguished three or more alleles for a particular locus in the assessed mouse strains. Nkc locus alleles were highly conserved among genealogically related inbred strains, whereas far less similarity was observed among unrelated strains. Concurrent strain-to-strain comparisons for all Nkc-linked loci revealed common and uncommon Nkc haplotypes, including some that were likely recombinant. Nkc allele and haplotype assignments in inbred mouse strains and correlation with phenotypic traits should facilitate positional gene cloning strategies for unknown Nkc-linked trait modification loci.
The NK gene complex (NKC) controls murine cytomegalovirus (MCMV) immunity through Cmv1-dependent natural killer (NK) cell responses. Ly49H expression correlates with Cmv1 phenotypes in different inbred strains, is required for MCMV resistance in C57BL/6 (B6) mice, and its interaction with the MCMV encoded m157 protein leads to NK cell-mediated destruction of virus-infected cells. However, genetic mapping studies have previously indicated that Cmv1 should reside in the D6Wum9-16 NKC interval, distal to Ly49h. Since these data suggested that multiple NKC-linked loci could regulate viral immunity, a putative MCMV resistance control ( Mrc) locus was pinpointed to within the D6Wum9-16 interval on a NKC-aligned bacterial artificial chromosome (BAC). Sequence analysis of BAC 151 revealed several novel G-protein coupled receptor genes, an HMG-1 remnant and many additional polymorphic microsatellites that were useful in determining the minimal genetic interval for the Mrc locus. Moreover, comparison of B6, BALB/c, A/J and recombinant Mrc alleles restricted the genetic interval to approximately 470 bp and showed that it was also a hotspot for recombination. MCMV challenge of novel NKC recombinant mice demonstrated that Mrc(B6) was not required for MCMV resistance nor could it directly complement the Ly49(BALB) haplotype to rescue MCMV susceptibility. Taken together, these data show that while Mrc apparently guides recombination, Ly49H expression is sufficient for MCMV resistance in B6 mice. A direct role for Mrc(B6) in virus resistance is excluded in the novel mice.
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