In order to analyze whether loci in the human leukocyte antigen (HLA) class I region may contribute to the HLA class II-associated genetic susceptibility to multiple sclerosis (MS), we examined selected microsatellite markers in 177 Nordic sib-pair families, 222 British sib-pair families, 323 sporadic Norwegian MS patients and 386 Norwegian controls. All samples were, in addition, genotyped for the HLA-DR DQ haplotype, and the Norwegian case-control samples were also typed for HLA-A and -B loci. In the Norwegian sporadic MS patients association was seen with HLA-A, HLA-B, and with the D6S265 marker, located 100 kb centromeric to HLA-A. Associations with HLA-A and D6S265 loci were also suggested when restricting the analysis to HLA-DR15 haplotypes. In the sib-pair data a similar trend was seen with marker D6S265. Higher genotypic relative risk (GRR) was found for individuals who carry both HLA-DR15 and -A3 (GRR = 15), compared to those who carry only HLA-DR15 (GRR = 7), only HLA-A3 (GRR = 3) or none of these alleles (GRR = 1). The highest risk was conferred by a combination of HLA-DR15 and -A3 (odds ratio (OR) = 5.2). These results suggest that HLA-A or a gene in linkage disequilibrium with it may contribute to the HLA class II-associated genetic susceptibility to MS.
A major subset of non-alloreactive NK cells in PVG strain rats is generally low in Ly49 receptors, but expresses the rat NKR-P1B PVG receptor (previously termed NKR-P1C). The NKR-P1B 1 NK subset is inhibited by a non-polymorphic target cell ligand, which we have shown here to be a C-type lectin-related molecule (Clr). Clr11 ligates two divergent NKR-P1B alleles as judged by an NFAT-driven reporter assay, and inhibits NK-cell cytotoxicity of NKR-P1B 1 NK cells. Clr11 also interacts with the prototypic NKR-P1A receptor and exerts a stimulatory influence on NK lysis. NKR-P1A and B are encoded by adjacent genes in the proximal part of the NK gene complex and show close sequence homology in their extracellular region. They diverge from another pair, NKR-P1F and -G, which is encoded by a second, distal Nkrp1 gene cluster. NKR-P1F and -G bind an overlapping panel of Clr ligands, but not Clr11. Rat Clr molecules appear to be constitutively expressed by hematopoietic cells; expression in tumor cell lines is more variable. The data show the existence of two phylogenetic groups of NKR-P1 molecules, which demonstrate conservation of ligand-binding properties independent of signaling function.Key words: Cytotoxicity . NK cells . Receptor . Rodent Introduction NK cells express several families of killer cell lectin-like receptors (KLR). These are type II transmembrane proteins encoded by the NK gene complex (NKC), which is located on chromosome 4 in the rat [1,2]. The NKR-P1 molecules (KLRB or CD161) were among the first KLR to be characterized, but their function long remained elusive [3][4][5]. Although the NKR-P1 family has expanded to include both activating and inhibitory members in rodents, it consists of only one member in several other mammalian species, including in human [6]. The nature of their ligands has been controversial [7,8], but it has recently been shown that members of another KLR-related receptor family, the C-type lectin-related (Clr) molecules [9], also termed C-type lectin 2D (CLEC2D), can act as ligands for certain NKR-P1 molecules [10,11]. The Clr gene family also shows considerable expansion in rodents and the Clr genes are interspersed with the Nkrp1 genes in the proximal (centromeric) part of the NKC. A recent analysis concluded that there are 11 Clr/Clec2d genes in the rat BN strain genome, which were numbered consecutively from proximal to distal. One of these (Clr8) is most likely only a gene fragment, which could have been excluded, but we will nevertheless adhere to the Clr numbering suggested by Hao et al. [6].In the mouse, the inhibitory NKR-P1B and -D receptors both bind Clrb (also termed Ocil). Clrb is constitutively expressed by hematopoietic cells and inhibits cytolytic activity of NKR-P1B/ D-expressing NK cells [10,11]. The activating NKR-P1F receptor has been shown to bind another Clr molecule, Clrg, by the use of a reporter assay and soluble recombinant proteins [11] functional consequence of this interaction remains obscure. In human, the NKR-P1A receptor binds a Clr orthologue term...
The proximal region of the NK gene complex encodes the NKR-P1 family of killer cell lectin-like receptors which in mice bind members of the genetically linked C-type lectin-related family, while the distal region encodes Ly49 receptors for polymorphic MHC class I molecules. Although certain members of the NKR-P1 family are expressed by all NK cells, we have identified a novel inhibitory rat NKR-P1 molecule termed NKR-P1C that is selectively expressed by a Ly49-negative NK subset with unique functional characteristics. NKR-P1C+ NK cells efficiently lyse certain tumor target cells, secrete cytokines upon stimulation, and functionally recognize a nonpolymorphic ligand on Con A-activated lymphoblasts. However, they specifically fail to kill MHC-mismatched lymphoblast target cells. The NKR-P1C+ NK cell subset also appears earlier during development and shows a tissue distribution distinct from its complementary Ly49s3+ subset, which expresses a wide range of Ly49 receptors. These data suggest the existence of two major, functionally distinct populations of rat NK cells possessing very different killer cell lectin-like receptor repertoires.
Two clusters of rat Nkrp1 genes can be distinguished based on phylogenetic relationships and functional characteristics. The proximal (centromeric) cluster encodes the well-studied NKR-P1A and NKR-P1B receptors and the distal cluster, the largely uncharacterized, NKR-P1F and NKR-P1G receptors. The inhibitory NKR-P1G receptor is expressed only by the Ly49s3+ NK cell subset as detected by RT-PCR, while the activating NKR-P1F receptor is detected in both Ly49s3+ and NKR-P1B+ NK cells. The mouse NKR-P1G ortholog is expressed by both NKR-P1D− and NKR-P1D+ NK cells in C57BL/6 mice. The rat and mouse NKR-P1F and NKR-P1G receptors demonstrate a striking, cross-species conservation of specificity for Clr ligands. NKR-P1F and NKR-P1G reporter cells reacted with overlapping panels of tumour cell lines and with cells transiently transfected with rat Clr2, Clr3, Clr4, Clr6 and Clr7 and mouse Clrc, Clrf, Clrg and Clrd/x, but not with Clr11 or Clrb, which serve as ligands for NKR-P1 from the proximal cluster. These data suggest that the conserved NKR-P1F and NKR-P1G receptors function as promiscuous receptors for a rapidly evolving family of Clr ligands in rodent NK cells.
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