The Activating KIR Genes 2DS1 and 2DS2 Regulate NK Alloreactivity In Vitro.

The role of Natural Killer (NK) cells in host protection against viral infection and malignant transformation has been well described. NK cells may also lead to a reduction in post-transplant relapse and improved survival in hematopoietic stem cell transplantation (HSCT) for acute myelogenous leukemia (AML). It has been hypothesized that the genotype for the inhibiting killer immunoglobulin-like receptor (KIR) of the hematopoietic stem cell donor in combination with the HLA class I genotype of the recipient could control NK alloreactivity leading to a reduction in post-transplant complications. The KIR gene family encodes however both activating and inhibiting receptors. Here we test the hypothesis that activating KIRs with ligand specificity for HLA class I may contribute to alloreactivity, and potentially could be a genetic factor of significance in allogeneic HSCT. We tested this hypothesis in studies of two pairs of inhibiting and activating KIRs with highly homologous codon sequences in the extracellular domain, namely KIR2DL2/3-KIR2DS2 and KIR2DL1-KIR2DS1. Both the inhibitory 2DL1 and activating 2DS1 have ligand specificity for HLA-Cw group 2, and 2DL2 and 2DL3, have ligand specificity for HLA-Cw group 1, while the activating 2DS2 does not bind in vitro to C1 group. Using an EBV-transformed B-lymphoblastoid cell line (EBV-BLCL) target cell panel homozygous for HLA Class I alleles, we found that NK cells from donors with KIR haplotypes lacking KIR2DS1 or 2DS2 were not cytotoxic to allogeneic EBV-BLCL, independent of the target HLA class I genotype. Polyclonal NK cells obtained from KIR2DS1 positive and C1 group positive donors mediated NK cytotoxicity against C2 positive targets. In contrast, NK cells from KIR2DS1 positive, C2 group homozygous donors displayed minimal cytotoxicity against the C2 group targets (p